Your search keyword '"Khatami, M"' showing total 435 results

101. Rapid detection of escherichia coli O157: H7 by fluorescent amplification-based specific hybridization (FLASH) PCR

Author

Khatami, F., Mohammad mehdi Heidari, and Khatami, M.

102. Infertility among female renal transplant recipients

Author

Ghazizadeh, S., Lessan-Pezeshki, M., Khatami, M. R., Mitra Mahdavi-Mazdeh, Abbasi, M. R., Azmandian, J., Razeghi, E., Seifi, S., Ahmadi, F., and Maziar, S.

Subjects

Adult, Cross-Sectional Studies, Adolescent, Sexual Behavior, Prevalence, Humans, Female, Middle Aged, Infertility, Female, Kidney Transplantation, Aged

Abstract

We studied 122 women with renal allograft transplantation to evaluate their reproductive systems. The patients were recruited from the three main kidney transplant surgery centers in Tehran, from September to October 2005. Fifteen (12%) patients were either in the menopausal stage or had hysterectomies, and the other 33(27%) were unmarried. Of the 76(62%) married women at the reproductive age, 10 (13.1%) had infertility that was defined as the failure of a married woman to conceive after 12 months of frequent intercourse without contraception. Three patients had male factor infertility, three others had ovulatory problems, and four cases were undefined. Only six cases were actively treated by ovulation induction +/- an intrauterine inducer (IUI); two patients became pregnant, while the other four refused infertility treatment. The reasons of unwillingness for infertility treatment included old age (40 years) in one patient, positive HBsAg in one, renal retransplantation in one, and previous clomiphene therapy failure in another. We conclude that the prevalence of infertility among female renal transplant recipients is the same as the general population, and the causes are mostly treatable. However, many are less motivated to be treated for this problem.

103. Assessment of first aid training among student volunteers of Iranian Red Crescent society, 2007

Author

Khatami, M., Ziaie, A., Aghamiri, S., Ardalan, A., and Elham Ahmadnezhad

Subjects

Community education, RC86-88.9, education, First aid, Medical emergencies. Critical care. Intensive care. First aid, Iran, Red Crescent, Volunteer

Abstract

Background & Objective: First aid education constitutes a major priority area for the Iranian Red Crescent. The present study assessed the student volunteers' knowledge of first aid procedures and their attitudes concerning strategies for community education. Methods: In this survey 5626 volunteers were selected based on a complex sampling design, in 5 different provinces of Iran. Results: A total of 3581 students (63.7%) had attended the Red Crescent's first aid training courses. The mean knowledge score of the sample was 9.36 out of a maximum of 18 (CI 95%= 9.29-9.43), with only 674 subjects (11.9%) showing a high level of knowledge. Having training prior attending in this course and higher education were statistically significant related with their knowledge score (p

104. MicroRNAs as a New Molecular Biomarker for Diagnosis and Prognosis of T-cell Acute Lymphoblastic Leukemia (T-ALL): A Systematic Review

Author

Naji, P., Heidari, M. M., Khatami, M., Zare-Zardini, H., and Reyhane Chamani

105. Evalution antimicrobial activity of biogenic zinc oxide nanoparticles on two standard gram positive and gram negative strains

Author

Mohammad Reza Aflatoonian, Khatami, M., Sharifi, I., Pourseyedi, S., Yaghobi, H., and Naderifar, M.

Subjects

lcsh:R5-920, gram-positive bacteria, zinc oxide, nanoparticles, minimum inhibitory concentration, lcsh:Medicine (General), gram-negative bacteria

Abstract

Background: Nanoparticles are particles that have at least one dimension between 1 and 100 nanometers. Nanoparticles are a new generation of antimicrobial agents. Nanoparticles with antimicrobial activity, especially as a new class of biomedical materials for use in increasing the level of public health in daily life have emerged. Zinc oxide nanoparticles have attracted a great attention due to the variety of their applications in medical science. The aim of this study was to evaluate and compare the antimicrobial activity of zinc oxide nanoparticles synthesized by green method. Methods: This experimental study was done in 2017, from March to September in the Bam Research Center of University of Medical Sciences Kerman, Iran. Green synthesis of zinc oxide nanoparticles was investigated using cumin seeds. The physicochemical characteristics of synthesized nanoparticles were studied by UV-visible ultraviolet spectrometer (Analytik Jena AG, Germany), X-ray diffraction and transmission electron microscope (TEM) (Carl Zeiss, Germany). Broth microdilution method was used to investigate the antimicrobial activity of zinc oxide nanoparticles. Minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of these nanoparticles were determined for Pseudomonas aerogenes and Enterococcus faecalis strains. Results: The UV-visible ultraviolet spectroscopy showed an absorption peak in the range of 370 nm. Transmission electron microscopy shows the synthesis of zinc oxide nanoparticles, mostly spherical, with a size less than 50 nm. Minimum inhibitory concentration of zinc oxide nanoparticles against P. aerogenes and E. faecalis strains was determined at 6.25 and 12.5 μg/ml, respectively. Both bacteria were sensitive to zinc oxide nanoparticles. This sensitivity was higher for gram-negative bacteria. Conclusion: Zinc oxide nanoparticles were produced using Iranian natural resources and our results showed significant antibacterial activity. Nanotechnology creates materials with novel properties every day, and creates new hope for improving environmental pollution. These nanoparticles can be used as a new generation of antimicrobial agents in various medical disciplines. For example, toothpaste containing zinc nanoparticles can be produced and prescribed for patients with immune deficiency to prevent the growth of microbial pathogens in the mouth and its transmission to the patient's body. &nbsp

106. The role of low-level laser in periodontal surgeries

Author

farhad sobouti, Khatami, M., Heydari, M., and Barati, M.

107. Pre-transplant calcium-phosphate-parathormone homeostasis as a risk factor for early graft dysfunction

Author

Ahmadi, F., Ali-Madadi, A., Lessan-Pezeshki, M., Khatami, M., Mitra Mahdavi-Mazdeh, Razeghi, E., Maziar, S., Seifi, S., and Abbasi, M.

Subjects

Adult, Male, Middle Aged, Kidney Transplantation, Phosphates, Postoperative Complications, Parathyroid Hormone, Renal Dialysis, Creatinine, Multivariate Analysis, Living Donors, Humans, Regression Analysis, Calcium, Female, Biomarkers, Retrospective Studies

Abstract

While good organ quality and ideal transplant conditions eliminate many of the know factors that compromise initial graft function (IGF), poor early graft function (EGF) still occurs after living donor kidney transplantation (LDKT). Uncontrolled pre-transplant hypercalcemia and hyperparathyroidism are associated with impaired allograft function. Between April 2004 and January 2006, data were collected on 354 LDKT recipients including 252 males and 102 females, to determine risk factors for poor EGF, defined as either delayed or slow graft function (DGF or SGF). Of the 354 recipients, 318 (89%) had IGF, 22 (6.2%) had SGF and 14 (4%) had DGF. Donor female gender (P = 0.04) and duration on dialysis (P = 0.02) were associated with poor EGF. Recipients with DGF had higher serum phosphate (P = 0.07) and calcium x phosphate product ( P = 0.01) than recipients with IGF and SGF. The serum parathormone (PTH) levels were higher in recipients with SGF and DGF although the difference was not statistically significant (P = 0.1). Serum calcium levels did not correlate with the occurrence of poor EGF (P = 0.9). Our study suggests that serum phosphate and calcium x phosphate product serve as risk factors for DGF while serum PTH level may play a role as a risk factor for SGF and DGF.

108. A new characterization of PGL(2,p) by its noncommuting graph

Author

Behrooz Khosravi and Khatami, M.

109. Simultaneous genotyping of the Rs4762 and Rs699 polymorphisms in angiotensinogen gene and correlation with iranian cad patients with novel hexa-primer ARMS-PCR

Author

Khatami, M., Mohammad mehdi Heidari, Hadadzadeh, M., Scheiber-Mojdehkar, B., Sani, M. B., and Houshmand, M.

Subjects

lcsh:Public aspects of medicine, rs4762, rs699, H-ARMS-PCR, lcsh:RA1-1270, Original Article, Coronary artery disease, Angiotensinogen gene

Abstract

Background: A significant role of Renin-angiotensin system (RAS) genetic variants in the pathogenesis of essential hypertension and cardiovascular diseases has been proved. This study aimed to develop a new, fast and cheap method for the simultaneous detection of two missense single nucleotide polymorphisms (T207M or rs4762 and M268T orrs699) of angiotensinogen (AGT) in single-step Multiplex Hexa-Primer Amplification Refractory Mutation System - polymerase chain reaction (H-ARMS-PCR). Methods: In this case-control study, 148 patients with coronary artery disease (CAD) and 135 controls were included. The patients were referred to cardiac centers in Afshar Hospital (Yazd, Iran) from 2012 to 2015. Two sets of inner primer (for each SNP) and one set outer primer pairs were designed for genotyping of rs4762 and rs699 in single tube H-ARMS-PCR. Direct sequencing of all samples was also performed to assess the accuracy of this method. DNA sequencing method validated the results of single tube H-ARMS-PCR. Results: We found full accordance for genotype adscription by sequencing method. The frequency of the AGT T521 and C702 alleles was significantly higher in CAD patients than in the control group (OR: 0.551, 95% CI: 0.359-0.846, P=0.008 and OR: 0.629, 95% CI: 0.422-0.936, P=0.028, respectively). Conclusion: This is the first work describing a rapid, low-cost, high-throughput simultaneous detection of rs4762 and rs699 polymorphisms in AGT gene, used in large clinical studies.

110. Increased prevalence 12308 A > g mutation in mitochondrial tRNA Leu(CUN) gene associated with earlier age of onset in friedreich ataxia

Author

Heidari, M. M., Khatami, M., Houshmand, M., Masoud, and Nafissi, S.

111. Punctate Keratitis Induced by Subconjunctivally Injected Microfilariae of Onchocerca lienalis

Author

Sakla, A. A., primary, Donnelly, J. J., additional, Lok, J. B., additional, Khatami, M., additional, and Rockey, J. H., additional

Published

1986

112. Acupuncture Relief of Chronic Pain Syndrome Correlates with Increased Plasma Met-Enkephalin Concentrations

Author

KISER, R. S., primary, GATCHEL, R. J., additional, BHATIA, K., additional, KHATAMI, M., additional, HUANG, X., additional, and ALTSHULER, K. Z., additional

Published

1984

113. Cognitive and behavior therapy in chronic depression

Author

Rush, A.J., primary, Khatami, M., additional, and Beck, A.T., additional

Published

1975

114. Psychobiological profile of chronic pain syndrome and its its response to acupuncture

Author

Khatami, M., primary, Kiser, S., additional, Gatohel, R., additional, Burns, C., additional, Altshuler, K., additional, and Bhatia, K., additional

Published

1984

115. Chronic pain and narcotic addiction: A multitherapeutic approach—A pilot study

Author

Khatami, M., primary, Woody, G., additional, and O'Brien, C., additional

Published

1979

116. Head of Dept. Prof. Dr. A-M- Mandoun BAYLISASCARIS PROCYONIS (STEFANSKI AND ZARNOWSKI, 1951) ASCARIDIDAE : NEMATODA L EMBRYONIC DEVELOPMENT AND MORPHOGENESIS OF SECOND STAGE LARVAE

Author

SAKLA, A.A., primary, Donnlly, J.J., additional, KHATAMI, M., additional, and ROCKET‘, r.n., additional

Published

1989

117. Low temperature conductivity of cermets

Author

Gilabert, A., primary, Khatami, M., additional, Berthier, S., additional, Lafait, J., additional, and Nédellec, P., additional

Published

1989

118. Amino acid sequence adjacent to a sulfhydryl group exposed on illumination of bovine rhodopsin.

Author

Khatami, M., primary, Angeletti, R.H., additional, and Rockey, J.H., additional

Published

1981

119. Therapeutic urogenital modalities during the last three years of the Iran and Iraq War (1985-1987).

Author

Heidarpour, A, Dabbagh, A, Khatami, M S, and Rohollahi, G

Abstract

Research projects in the field of military medicine have a central role in medical logistical planning. Treatment of traumatic lesions (including urogenital system injuries) is an important aspect of military medicine. Triage for urogenital injuries has specific problems and points of concern. The purpose of this study was to evaluate the role and different types of therapeutic modalities in the treatment of urogenital injuries during the final 3 years of the Iran and Iraq War (1985-1987).

Published

1999

120. Surgical interventions at field hospitals during the Iran and Iraq War (1980-1987).

Author

Heidarpour, A, Jahani, M R, Dabbagh, A, and Khatami, M S

Abstract

Surgical treatment of wounded soldiers in the field began in World War II, and the care of the wounded was aided by air, ground, and marine transportation. Even with highly developed facilities, medical care should be started as soon as possible. The Islamic Republic of Iran was under an economic blockade during its war with Iraq. Field hospitals were considered a solution to the problem of transportation shortages. The aim of this study was to assess the surgical interventions of these hospitals. In a descriptive cross-sectional study, data for 7,718 patients admitted to field hospitals (among a total of 173,823 casualties) were analyzed. A checklist was used as the data-collection tool. The data were entered and analyzed by the Statistical Program for the Social Sciences. The type of surgical intervention, duration of the surgery, and frequency of the interventions in each hospital were examined. Laparotomy was the most common and tracheostomy the least common intervention. Shahid Baghaei Field Hospital had the greatest number of admissions. Of all the patients in the Southern Command District who underwent any kind of surgery, 21.53% were operated on in the complex of field hospitals. The surgery time in these hospitals was 156 +/- 69 minutes (mean +/- SD). A great number of the procedures were lifesaving (including laparotomy and chest tube insertion). It seems that these hospitals played a key role in reducing mortality and morbidity during the war.

Published

1999

121. Effects of Carnitine and Coenzyme Q10 on Lipid Profile and Serum Levels of Lipoprotein(a) in Maintenance Hemodialysis Patients on Statin Therapy.

Author

Shojaei M, Djalali M, Khatami M, Siassi F, and Eshraghian M

Abstract

Introduction. Dyslipidemia and high serum lipoprotein(a) are among the risk factors for cardiovascular diseases in hemodialysis patients. Statins as a first line of therapy in hyperlipidemia does not always reduce the serum lipoprotein(a) level. Several studies have reported the lipid-lowering effects of carnitine and coenzyme Q10 in hemodialysis patients. This study was designed to investigate the effects of carnitine and coenzyme Q10 on serum lipid profile and lipoprotein(a) level in maintenance hemodialysis patients. Materials and methods. This was a randomized placebo-controlled trial. We studied on hemodialysis patients who were on treatment with atorvastatin or lovastatin to assess the efficacy of supplement therapy. They were divided into 4 groups to receive carnitine, coenzyme Q10, both carnitine and coenzyme Q10, and placebo. After a 3-month experiment, blood samples were collected to measure serum levels of lipoprotein(a), triglyceride, total cholesterol, high-density lipoprotein cholesterol and low-density lipoprotein cholesterol. Results. Fifty-two hemodialysis patients, 27 men and 25 women, completed the course of the study. Three months after supplement therapy, serum levels of lipoprotein(a) reduced significantly in the carnitine, coenzyme Q10, and combination groups compared to the baseline values and the 3-month value of lipoprotein(a) in the placebo group (P = .01). Serum levels of triglyceride and other lipoproteins did not significantly alter. Conclusions. Our study showed that supplementation with carnitine and coenzyme Q10 could reduce serum levels of lipoprotein(a) in maintenance hemodialysis patients treated with statins. [ABSTRACT FROM AUTHOR]

Published

2011

122. Assessing the carcinogenic potential of low-dose exposures to chemical mixtures in the environment: the challenge ahead

Author

Dustin G. Brown, Tove Hultman, Judith Weisz, H. Kim Lyerly, Paola A. Marignani, Ann-Karin Olsen, Rabindra Roy, Kim Moorwood, Masoud H. Manjili, Monica Vaccari, Jesse Roman, Hasiah Ab Hamid, Kalan R. Prudhomme, Periyadan K. Krishnakumar, Chenfang Dong, Tiziana Guarnieri, Leandro S. D'Abronzo, Gloria M. Calaf, Amelia K Charles, Emanuela Corsini, Yunus A. Luqmani, Graeme Williams, Louis Vermeulen, Pankaj Vadgama, Sarah N Bay, Véronique Maguer-Satta, Sabine A. S. Langie, Christian C. Naus, Le Jian, Gladys N. Nangami, Lorenzo Memeo, Stephanie C. Casey, Thomas Sanderson, Takemi Otsuki, Nichola Cruickshanks, William H. Bisson, Sudjit Luanpitpong, Jonathan Whitfield, Ahmed Lasfar, Yon Rojanasakul, A. Ivana Scovassi, Shelley A. Harris, Ferdinando Chiaradonna, Richard Ponce-Cusi, Gregory T. Wolf, Valérian Dormoy, Roslida Abd Hamid, Hyun Ho Park, Matilde E. Lleonart, William K. Decker, Maria Romano, Leroy Lowe, Fabio Marongiu, Jan Vondráček, Chiara Mondello, Luc Leyns, Josiah Ochieng, Pratima Nangia-Makker, Edward A. Ratovitski, Zhiwei Hu, Jayadev Raju, Hemad Yasaei, Rafaela Andrade-Vieira, Jordan Woodrick, Hideko Sone, Harini Krishnan, W. Kimryn Rathmell, Andrew Collins, Luoping Zhang, Barry J. Barclay, Amaya Azqueta, Laura Soucek, Marc A. Williams, David O. Carpenter, Roberta Palorini, Rita Nahta, Juan Fernando Martinez-Leal, Firouz Darroudi, Rita Dornetshuber-Fleiss, James E. Klaunig, Elizabeth P. Ryan, Qiang Shawn Cheng, Arthur Berg, Andrew Ward, Gudrun Koppen, Tao Chen, Petr Heneberg, Michael Gilbertson, Amedeo Amedei, Sakina E. Eltom, Ezio Laconi, Joseph Christopher, Hiroshi Kondoh, Neetu Singh, Danielle J Carlin, Marion Chapellier, Michalis V. Karamouzis, Rekha Mehta, Tae-Jin Lee, Annamaria Colacci, Venkata S. Sabbisetti, Mark Wade, Micheline Kirsch-Volders, Patricia Ostrosky-Wegman, Isabelle R. Miousse, Patricia A. Thompson, Philippa D. Darbre, Frederik J. van Schooten, Sofia Pavanello, Igor Koturbash, Binhua P. Zhou, Ranjeet Kumar Sinha, Anna C. Salzberg, Mahara Valverde, Fahd Al-Mulla, Julia Kravchenko, Nicole Kleinstreuer, Carolyn J. Baglole, Menghang Xia, Samira A. Brooks, Amancio Carnero, Gunnar Brunborg, Sandra S. Wise, Daniel C. Koch, John Pierce Wise, Rabeah Al-Temaimi, Laetitia Gonzalez, Lisa J. McCawley, R. Brooks Robey, Gary S. Goldberg, Thierry Massfelder, Linda S M Gulliver, Olugbemiga Ogunkua, Emilio Rojas, Eun-Yi Moon, Lin Li, Silvana Papagerakis, Nik van Larebeke, Adela Lopez de Cerain Salsamendi, Staffan Eriksson, Simona Romano, Dean W. Felsher, Paramita M. Ghosh, Karine A. Cohen-Solal, Paul Dent, Jun Sun, Carmen Blanco-Aparicio, Riccardo Di Fiore, Chia-Wen Hsu, Mahin Khatami, Kannan Badri Narayanan, Francis Martin, Colleen S. Curran, Dale W. Laird, William H. Goodson, Abdul Manaf Ali, Valerie Odero-Marah, Michael J. Gonzalez, Renza Vento, Liang Tzung Lin, Clement G. Yedjou, Hosni Salem, Hsue-Yin Hsu, Zhenbang Chen, Nuzhat Ahmed, Gerard Wagemaker, Sandra Ryeom, Stefano Forte, Debasish Roy, Nancy B. Kuemmerle, Robert C. Castellino, Po Sing Leung, Wilhelm Engström, National Institute of Environmental Health Sciences (US), Research Council of Norway, Ministerio de Economía y Competitividad (España), Instituto de Salud Carlos III, Red Temática de Investigación Cooperativa en Cáncer (España), European Commission, Junta de Andalucía, Ministerio de Educación y Ciencia (España), Ministero dell'Istruzione, dell'Università e della Ricerca, University of Oslo, Regione Emilia Romagna, National Institutes of Health (US), Consejo Nacional de Ciencia y Tecnología (México), Associazione Italiana per la Ricerca sul Cancro, National Research Foundation of Korea, Ministry of Education, Science and Technology (South Korea), Fondo Nacional de Desarrollo Científico y Tecnológico (Chile), Ministry of Education, Culture, Sports, Science and Technology (Japan), Japan Science and Technology Agency, Ministry of Science and Technology (Taiwan), Arkansas Biosciences Institute, Czech Science Foundation, Fundación Fero, Swim Across America, American Cancer Society, Research Foundation - Flanders, Austrian Science Fund, Institut National de la Santé et de la Recherche Médicale (France), Natural Sciences and Engineering Research Council of Canada, Farmacologie en Toxicologie, RS: NUTRIM - R4 - Gene-environment interaction, Goodson, William H, Lowe, Leroy, Carpenter, David O, Gilbertson, Michael, Manaf Ali, Abdul, Lopez de Cerain Salsamendi, Adela, Lasfar, Ahmed, Carnero, Amancio, Azqueta, Amaya, Amedei, Amedeo, Charles, Amelia K, Collins, Andrew R, Ward, Andrew, Salzberg, Anna C, Colacci, Annamaria, Olsen, Ann Karin, Berg, Arthur, Barclay, Barry J, Zhou, Binhua P, Blanco Aparicio, Carmen, Baglole, Carolyn J, Dong, Chenfang, Mondello, Chiara, Hsu, Chia Wen, Naus, Christian C, Yedjou, Clement, Curran, Colleen S, Laird, Dale W, Koch, Daniel C, Carlin, Danielle J, Felsher, Dean W, Roy, Debasish, Brown, Dustin G, Ratovitski, Edward, Ryan, Elizabeth P, Corsini, Emanuela, Rojas, Emilio, Moon, Eun Yi, Laconi, Ezio, Marongiu, Fabio, Al Mulla, Fahd, Chiaradonna, Ferdinando, Darroudi, Firouz, Martin, Francis L, Van Schooten, Frederik J, Goldberg, Gary S, Wagemaker, Gerard, Nangami, Gladys N, Calaf, Gloria M, Williams, Graeme, Wolf, Gregory T, Koppen, Gudrun, Brunborg, Gunnar, Lyerly, H. Kim, Krishnan, Harini, Ab Hamid, Hasiah, Yasaei, Hemad, Sone, Hideko, Kondoh, Hiroshi, Salem, Hosni K, Hsu, Hsue Yin, Park, Hyun Ho, Koturbash, Igor, Miousse, Isabelle R, Scovassi, A. Ivana, Klaunig, James E, Vondráček, Jan, Raju, Jayadev, Roman, Jesse, Wise, John Pierce, Whitfield, Jonathan R, Woodrick, Jordan, Christopher, Joseph A, Ochieng, Josiah, Martinez Leal, Juan Fernando, Weisz, Judith, Kravchenko, Julia, Sun, Jun, Prudhomme, Kalan R, Narayanan, Kannan Badri, Cohen Solal, Karine A, Moorwood, Kim, Gonzalez, Laetitia, Soucek, Laura, Jian, Le, D'Abronzo, Leandro S, Lin, Liang Tzung, Li, Lin, Gulliver, Linda, Mccawley, Lisa J, Memeo, Lorenzo, Vermeulen, Loui, Leyns, Luc, Zhang, Luoping, Valverde, Mahara, Khatami, Mahin, Romano, MARIA FIAMMETTA, Chapellier, Marion, Williams, Marc A, Wade, Mark, Manjili, Masoud H, Lleonart, Matilde E, Xia, Menghang, Gonzalez, Michael J, Karamouzis, Michalis V, Kirsch Volders, Micheline, Vaccari, Monica, Kuemmerle, Nancy B, Singh, Neetu, Cruickshanks, Nichola, Kleinstreuer, Nicole, van Larebeke, Nik, Ahmed, Nuzhat, Ogunkua, Olugbemiga, Krishnakumar, P. K, Vadgama, Pankaj, Marignani, Paola A, Ghosh, Paramita M, Ostrosky Wegman, Patricia, Thompson, Patricia A, Dent, Paul, Heneberg, Petr, Darbre, Philippa, Sing Leung, Po, Nangia Makker, Pratima, Cheng, Qiang Shawn, Robey, R. Brook, Al Temaimi, Rabeah, Roy, Rabindra, Andrade Vieira, Rafaela, Sinha, Ranjeet K, Mehta, Rekha, Vento, Renza, Di Fiore, Riccardo, Ponce Cusi, Richard, Dornetshuber Fleiss, Rita, Nahta, Rita, Castellino, Robert C, Palorini, Roberta, Abd Hamid, Roslida, Langie, Sabine A. S, Eltom, Sakina E, Brooks, Samira A, Ryeom, Sandra, Wise, Sandra S, Bay, Sarah N, Harris, Shelley A, Papagerakis, Silvana, Romano, Simona, Pavanello, Sofia, Eriksson, Staffan, Forte, Stefano, Casey, Stephanie C, Luanpitpong, Sudjit, Lee, Tae Jin, Otsuki, Takemi, Chen, Tao, Massfelder, Thierry, Sanderson, Thoma, Guarnieri, Tiziana, Hultman, Tove, Dormoy, Valérian, Odero Marah, Valerie, Sabbisetti, Venkata, Maguer Satta, Veronique, Rathmell, W. Kimryn, Engström, Wilhelm, Decker, William K, Bisson, William H, Rojanasakul, Yon, Luqmani, Yunu, Chen, Zhenbang, Hu, Zhiwei, Goodson, W., Lowe, L., Carpenter, D., Gilbertson, M., Ali, A., de Cerain Salsamendi, A., Lasfar, A., Carnero, A., Azqueta, A., Amedei, A., Charles, A., Collins, A., Ward, A., Salzberg, A., Colacci, A., Olsen, A., Berg, A., Barclay, B., Zhou, B., Blanco-Aparicio, C., Baglole, C., Dong, C., Mondello, C., Hsu, C., Naus, C., Yedjou, C., Curran, C., Laird, D., Koch, D., Carlin, D., Felsher, D., Roy, D., Brown, D., Ratovitski, E., Ryan, E., Corsini, E., Rojas, E., Moon, E., Laconi, E., Marongiu, F., Al-Mulla, F., Chiaradonna, F., Darroudi, F., Martin, F., Van Schooten, F., Goldberg, G., Wagemaker, G., Nangami, G., Calaf, G., Williams, G., Wolf, G., Koppen, G., Brunborg, G., Kim Lyerly, H., Krishnan, H., Hamid, H., Yasaei, H., Sone, H., Kondoh, H., Salem, H., Hsu, H., Park, H., Koturbash, I., Miousse, I., Ivana Scovassi, A., Klaunig, J., Vondráček, J., Raju, J., Roman, J., Wise, J., Whitfield, J., Woodrick, J., Christopher, J., Ochieng, J., Martinez-Leal, J., Weisz, J., Kravchenko, J., Sun, J., Prudhomme, K., Narayanan, K., Cohen-Solal, K., Moorwood, K., Gonzalez, L., Soucek, L., Jian, L., D'Abronzo, L., Lin, L., Li, L., Gulliver, L., Mccawley, L., Memeo, L., Vermeulen, L., Leyns, L., Zhang, L., Valverde, M., Khatami, M., Romano, M., Chapellier, M., Williams, M., Wade, M., Manjili, M., Lleonart, M., Xia, M., Gonzalez, M., Karamouzis, M., Kirsch-Volders, M., Vaccari, M., Kuemmerle, N., Singh, N., Cruickshanks, N., Kleinstreuer, N., Van Larebeke, N., Ahmed, N., Ogunkua, O., Krishnakumar, P., Vadgama, P., Marignani, P., Ghosh, P., Ostrosky-Wegman, P., Thompson, P., Dent, P., Heneberg, P., Darbre, P., Leung, P., Nangia-Makker, P., Cheng, Q., Brooks Robey, R., Al-Temaimi, R., Roy, R., Andrade-Vieira, R., Sinha, R., Mehta, R., Vento, R., Di Fiore, R., Ponce-Cusi, R., Dornetshuber-Fleiss, R., Nahta, R., Castellino, R., Palorini, R., Hamid, R., Langie, S., Eltom, S., Brooks, S., Ryeom, S., Wise, S., Bay, S., Harris, S., Papagerakis, S., Romano, S., Pavanello, S., Eriksson, S., Forte, S., Casey, S., Luanpitpong, S., Lee, T., Otsuki, T., Chen, T., Massfelder, T., Sanderson, T., Guarnieri, T., Hultman, T., Dormoy, V., Odero-Marah, V., Sabbisetti, V., Maguer-Satta, V., Kimryn Rathmell, W., Engström, W., Decker, W., Bisson, W., Rojanasakul, Y., Luqmani, Y., Chen, Z., Hu, Z., Goodson, W.H., Carpenter, D.O., Ali, A.M., de Cerain Salsamendi, A.L., Charles, A.K., Collins, A.R., Salzberg, A.C., Olsen, A.-K., Barclay, B.J., Zhou, B.P., Baglole, C.J., Hsu, C.-W., Naus, C.C., Curran, C.S., Laird, D.W., Koch, D.C., Carlin, D.J., Felsher, D.W., Brown, D.G., Ryan, E.P., Moon, E.-Y., Martin, F.L., Van Schooten, F.J., Goldberg, G.S., Calaf, G.M., Wolf, G.T., Hamid, H.A., Salem, H.K., Hsu, H.-Y., Park, H.H., Miousse, I.R., Klaunig, J.E., Vondracek, J., Wise, J.P., Whitfield, J.R., Christopher, J.A., Martinez-Leal, J.F., Prudhomme, K.R., Narayanan, K.B., Cohen-Solal, K.A., D'Abronzo, L.S., Lin, L.-T., Mccawley, L.J., Romano, M.F., Williams, M.A., Manjili, M.H., Gonzalez, M.J., Karamouzis, M.V., Kuemmerle, N.B., Krishnakumar, P.K., Marignani, P.A., Ghosh, P.M., Leung, P.S., Cheng, Q.S., Sinha, R.K., Castellino, R.C., Hamid, R.A., Langie, S.A.S., Brooks, S.A., Wise, S.S., Bay, S.N., Harris, S.A., Casey, S.C., Lee, T.-J., Engstrom, W., Decker, W.K., Bisson, W.H., sans affiliation, Centre de Recherche en Cancérologie de Lyon (UNICANCER/CRCL), Centre Léon Bérard [Lyon]-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Université de Strasbourg (UNISTRA), Institut Armand Frappier (INRS-IAF), Institut National de la Recherche Scientifique [Québec] (INRS)-Réseau International des Instituts Pasteur (RIIP), We gratefully acknowledge the support of the National Institute of Health-National Institute of Environmental Health Sciences (NIEHS) conference grant travel support (R13ES023276), Glenn Rice, Office of Research and Development, United States Environmental Protection Agency, Cincinnati, OH, USA also deserves thanks for his thoughtful feedback and inputs on the manuscript, William H.Goodson III was supported by the California Breast Cancer Research Program, Clarence Heller Foundation and California Pacific Medical Center Foundation, Abdul M.Ali would like to acknowledge the financial support of the University of Sultan Zainal Abidin, Malaysia, Ahmed Lasfar was supported by an award from the Rutgers Cancer Institute of New Jersey, Ann-Karin Olsen and Gunnar Brunborg were supported by the Research Council of Norway (RCN) through its Centres of Excellence funding scheme (223268/F50), Amancio Carnero’s lab was supported by grants from the Spanish Ministry of Economy and Competitivity, ISCIII (Fis: PI12/00137, RTICC: RD12/0036/0028) co-funded by FEDER from Regional Development European Funds (European Union), Consejeria de Ciencia e Innovacion (CTS-1848) and Consejeria de Salud of the Junta de Andalucia (PI-0306-2012), Matilde E. Lleonart was supported by a trienal project grant PI12/01104 and by project CP03/00101 for personal support. Amaya Azqueta would like to thank the Ministerio de Educacion y Ciencia (‘Juande la Cierva’ programme, 2009) of the Spanish Government for personal support, Amedeo Amedei was supported by the Italian Ministry of University and Research (2009FZZ4XM_002), and the University of Florence (ex60%2012), Andrew R.Collins was supported by the University of Oslo, Annamaria Colacci was supported by the Emilia-Romagna Region - Project ‘Supersite’ in Italy, Carolyn Baglole was supported by a salary award from the Fonds de recherche du Quebec-Sante (FRQ-S), Chiara Mondello’s laboratory is supported by Fondazione Cariplo in Milan, Italy (grant n. 2011-0370), Christian C.Naus holds a Canada Research Chair, Clement Yedjou was supported by a grant from the National Institutes of Health (NIH-NIMHD grant no. G12MD007581), Daniel C.Koch is supported by the Burroughs Wellcome Fund Postdoctoral Enrichment Award and the Tumor Biology Training grant: NIH T32CA09151, Dean W. Felsher would like to acknowledge the support of United States Department of Health and Human Services, NIH grants (R01 CA170378 PQ22, R01 CA184384, U54 CA149145, U54 CA151459, P50 CA114747 and R21 CA169964), Emilio Rojas would like to thank CONACyT support 152473, Ezio Laconi was supported by AIRC (Italian Association for Cancer Research, grant no. IG 14640) and by the Sardinian Regional Government (RAS), Eun-Yi Moon was supported by grants from the Public Problem-Solving Program (NRF-015M3C8A6A06014500) and Nuclear R&D Program (#2013M2B2A9A03051296 and 2010-0018545) through the National Research Foundation of Korea (NRF) and funded by the Ministry of Education, Science and Technology (MEST) in Korea, Fahd Al-Mulla was supported by the Kuwait Foundation for the Advancement of Sciences (2011-1302-06), Ferdinando Chiaradonna is supported by SysBioNet, a grant for the Italian Roadmap of European Strategy Forum on Research Infrastructures (ESFRI) and by AIRC (Associazione Italiana Ricerca sul Cancro, IG 15364), Francis L.Martin acknowledges funding from Rosemere Cancer Foundation, he also thanks Lancashire Teaching Hospitals NHS trust and the patients who have facilitated the studies he has undertaken over the course of the last 10 years, Gary S.Goldberg would like to acknowledge the support of the New Jersey Health Foundation, Gloria M.Calaf was supported by Fondo Nacional de Ciencia y Tecnología (FONDECYT), Ministerio de Educación de Chile (MINEDUC), Universidad de Tarapacá (UTA), Gudrun Koppen was supported by the Flemish Institute for Technological Research (VITO), Belgium, Hemad Yasaei was supported from a triennial project grant (Strategic Award) from the National Centre for the Replacement, Refinement and Reduction (NC3Rs) of animals in research (NC.K500045.1 and G0800697), Hiroshi Kondoh was supported in part by grants from the Ministry of Education, Culture, Sports, Science, and Technology of Japan, Japan Science and Technology Agency and by JST, CREST, Hsue-Yin Hsu was supported by the Ministry of Science and Technology of Taiwan (NSC93-2314-B-320-006 and NSC94-2314-B-320-002), Hyun Ho Park was supported by the Basic Science Research Program through the National Research Foundation of Korea (NRF) of the Ministry of Education, Science and Technology (2012R1A2A2A01010870) and a grant from the Korea Healthcare Technology R&D project, Ministry of Health and Welfare, Republic of Korea (HI13C1449), Igor Koturbash is supported by the UAMS/NIH Clinical and Translational Science Award (UL1TR000039 and KL2TR000063) and the Arkansas Biosciences Institute, the major research component of the Arkansas Tobacco Settlement Proceeds Act of 2000, Jan Vondráček acknowledges funding from the Czech Science Foundation (13-07711S), Jesse Roman thanks the NIH for their support (CA116812), John Pierce Wise Sr. and Sandra S.Wise were supported by National Institute of Environmental Health Sciences (ES016893 to J.P.W.) and the Maine Center for Toxicology and Environmental Health, Jonathan Whitfield acknowledges support from the FERO Foundation in Barcelona, Spain, Joseph Christopher is funded by Cancer Research UK and the International Journal of Experimental Pathology, Julia Kravchenko is supported by a philanthropic donation by Fred and Alice Stanback, Jun Sun is supported by a Swim Across America Cancer Research Award, Karine A.Cohen-Solal is supported by a research scholar grant from the American Cancer Society (116683-RSG-09-087-01-TBE), Laetitia Gonzalez received a postdoctoral fellowship from the Fund for Scientific Research–Flanders (FWO-Vlaanderen) and support by an InterUniversity Attraction Pole grant (IAP-P7-07), Laura Soucek is supported by grant #CP10/00656 from the Miguel Servet Research Contract Program and acknowledges support from the FERO Foundation in Barcelona, Spain, Liang-Tzung Lin was supported by funding from the Taipei Medical University (TMU101-AE3-Y19), Linda Gulliver is supported by a Genesis Oncology Trust (NZ) Professional Development Grant, and the Faculty of Medicine, University of Otago, Dunedin, New Zealand, Louis Vermeulen is supported by a Fellowship of the Dutch Cancer Society (KWF, UVA2011-4969) and a grant from the AICR (14–1164), Mahara Valverde would like to thank CONACyT support 153781, Masoud H. Manjili was supported by the office of the Assistant Secretary of Defense for Health Affairs (USA) through the Breast Cancer Research Program under Award No. W81XWH-14-1-0087 Neetu Singh was supported by grant #SR/FT/LS-063/2008 from the Department of Science and Technology, Government of India, Nicole Kleinstreuer is supported by NIEHS contracts (N01-ES 35504 and HHSN27320140003C), P.K. Krishnakumar is supported by the Funding (No. T.K. 11-0629) of King Abdulaziz City for Science and Technology, Riyadh, Saudi Arabia, Paola A.Marignani is supported by the Dalhousie Medical Research Foundation, The Beatrice Hunter Cancer Institute and CIHR and the Nova Scotia Lung Association, Paul Dent is the holder of the Universal Inc.Chair in Signal Transduction Research and is supported with funds from PHS grants from the NIH (R01-CA141704, R01-CA150214, R01-DK52825 and R01-CA61774), Petr Heneberg was supported by the Charles University in Prague projects UNCE 204015 and PRVOUK P31/2012, and by the Czech Science Foundation projects P301/12/1686 and 15-03834Y, Po Sing Leung was supported by the Health and Medical Research Fund of Food and Health Bureau, Hong Kong Special Administrative Region, Ref. No: 10110021, Qiang Cheng was supported in part by grant NSF IIS-1218712, R. Brooks Robey is supported by the United States Department of Veterans Affairs, Rabindra Roy was supported by United States Public Health Service Grants (RO1 CA92306, RO1 CA92306-S1 and RO1 CA113447), Rafaela Andrade-Vieira is supported by the Beatrice Hunter Cancer Research Institute and the Nova Scotia Health Research Foundation, Renza Vento was partially funded by European Regional Development Fund, European Territorial Cooperation 2007–13 (CCI 2007 CB 163 PO 037, OP Italia-Malta 2007–13) and grants from the Italian Ministry of Education, University and Research (MIUR) ex-60%, 2007, Riccardo Di Fiore was a recipient of fellowship granted by European Regional Development Fund, European Territorial Cooperation 2007–2013 (CCI 2007 CB 163 PO 037, OP Italia-Malta 2007–2013), Rita Dornetshuber-Fleiss was supported by the Austrian Science Fund (FWF, project number T 451-B18) and the Johanna Mahlke, geb.-Obermann-Stiftung, Roberta Palorini is supported by a SysBioNet fellowship, Roslida Abd Hamid is supported by the Ministry of Education, Malaysia-Exploratory Research Grant Scheme-Project no: ERGS/1-2013/5527165, Sabine A.S.Langie is the beneficiary of a postdoctoral grant from the AXA Research Fund and the Cefic-LRI Innovative Science Award 2013, Sakina Eltom is supported by NIH grant SC1CA153326, Samira A.Brooks was supported by National Research Service Award (T32 ES007126) from the National Institute of Environmental Health Sciences and the HHMI Translational Medicine Fellowship, Sandra Ryeom was supported by The Garrett B. Smith Foundation and the TedDriven Foundation, Thierry Massfelder was supported by the Institut National de la Santé et de la Recherche Médicale INSERM and Université de Strasbourg, Thomas Sanderson is supported by the Canadian Institutes of Health Research (CIHR, MOP-115019), the Natural Sciences and Engineering Council of Canada (NSERC, 313313) and the California Breast Cancer Research Program (CBCRP, 17UB-8703), Tiziana Guarnieri is supported by a grant from Fundamental Oriented Research (RFO) to the Alma Mater Studiorum University of Bologna, Bologna, Italy and thanks the Fondazione Cassa di Risparmio di Bologna and the Fondazione Banca del Monte di Bologna e Ravenna for supporting the Center for Applied Biomedical Research, S.Orsola-Malpighi University Hospital, Bologna, Italy, W.Kimryn Rathmell is supported by the V Foundation for Cancer Research and the American Cancer Society, William K.Decker was supported in part by grant RP110545 from the Cancer Prevention Research Institute of Texas, William H.Bisson was supported with funding from the NIH P30 ES000210, Yon Rojanasakul was supported with NIH grant R01-ES022968, Zhenbang Chen is supported by NIH grants (MD004038, CA163069 and MD007593), Zhiwei Hu is grateful for the grant support from an institutional start-up fund from The Ohio State University College of Medicine and The OSU James Comprehensive Cancer Center (OSUCCC) and a Seed Award from the OSUCCC Translational Therapeutics Program., Sans affiliation, Courcelles, Michel, Goodson, W, Lowe, L, Carpenter, D, Gilbertson, M, Ali, A, de Cerain Salsamendi, A, Lasfar, A, Carnero, A, Azqueta, A, Amedei, A, Charles, A, Collins, A, Ward, A, Salzberg, A, Colacci, A, Olsen, A, Berg, A, Barclay, B, Zhou, B, Blanco Aparicio, C, Baglole, C, Dong, C, Mondello, C, Hsu, C, Naus, C, Yedjou, C, Curran, C, Laird, D, Koch, D, Carlin, D, Felsher, D, Roy, D, Brown, D, Ratovitski, E, Ryan, E, Corsini, E, Rojas, E, Moon, E, Laconi, E, Marongiu, F, Al Mulla, F, Chiaradonna, F, Darroudi, F, Martin, F, Van Schooten, F, Goldberg, G, Wagemaker, G, Nangami, G, Calaf, G, Williams, G, Wolf, G, Koppen, G, Brunborg, G, Kim Lyerly, H, Krishnan, H, Hamid, H, Yasaei, H, Sone, H, Kondoh, H, Salem, H, Hsu, H, Park, H, Koturbash, I, Miousse, I, Ivana Scovassi, A, Klaunig, J, Vondráček, J, Raju, J, Roman, J, Wise, J, Whitfield, J, Woodrick, J, Christopher, J, Ochieng, J, Martinez Leal, J, Weisz, J, Kravchenko, J, Sun, J, Prudhomme, K, Narayanan, K, Cohen Solal, K, Moorwood, K, Gonzalez, L, Soucek, L, Jian, L, D'Abronzo, L, Lin, L, Li, L, Gulliver, L, Mccawley, L, Memeo, L, Vermeulen, L, Leyns, L, Zhang, L, Valverde, M, Khatami, M, Romano, M, Chapellier, M, Williams, M, Wade, M, Manjili, M, Lleonart, M, Xia, M, Gonzalez, M, Karamouzis, M, Kirsch Volders, M, Vaccari, M, Kuemmerle, N, Singh, N, Cruickshanks, N, Kleinstreuer, N, Van Larebeke, N, Ahmed, N, Ogunkua, O, Krishnakumar, P, Vadgama, P, Marignani, P, Ghosh, P, Ostrosky Wegman, P, Thompson, P, Dent, P, Heneberg, P, Darbre, P, Leung, P, Nangia Makker, P, Cheng, Q, Brooks Robey, R, Al Temaimi, R, Roy, R, Andrade Vieira, R, Sinha, R, Mehta, R, Vento, R, Di Fiore, R, Ponce Cusi, R, Dornetshuber Fleiss, R, Nahta, R, Castellino, R, Palorini, R, Hamid, R, Langie, S, Eltom, S, Brooks, S, Ryeom, S, Wise, S, Bay, S, Harris, S, Papagerakis, S, Romano, S, Pavanello, S, Eriksson, S, Forte, S, Casey, S, Luanpitpong, S, Lee, T, Otsuki, T, Chen, T, Massfelder, T, Sanderson, T, Guarnieri, T, Hultman, T, Dormoy, V, Odero Marah, V, Sabbisetti, V, Maguer Satta, V, Kimryn Rathmell, W, Engström, W, Decker, W, Bisson, W, Rojanasakul, Y, Luqmani, Y, Chen, Z, and Hu, Z

Subjects

Cancer Research, Carcinogenesis, [SDV]Life Sciences [q-bio], METHOXYCHLOR-INDUCED ALTERATIONS, Review, Pharmacology, MESH: Carcinogens, Environmental, Carcinogenic synergies, Chemical mixtures, Neoplasms, MESH: Animals, MESH: Neoplasms, Carcinogenesi, Risk assessment, Cancer, ACTIVATED PROTEIN-KINASES, Medicine (all), Low dose, 1. No poverty, Cumulative effects, BREAST-CANCER CELLS, General Medicine, Environmental exposure, MESH: Carcinogenesis, BIO/10 - BIOCHIMICA, EPITHELIAL-MESENCHYMAL TRANSITION, 3. Good health, [SDV] Life Sciences [q-bio], Environmental Carcinogenesis, ESTROGEN-RECEPTOR-ALPHA, Human, MESH: Environmental Exposure, ENDOCRINE-DISRUPTING CHEMICALS, TARGETING TISSUE FACTOR, [SDV.CAN]Life Sciences [q-bio]/Cancer, Biology, Prototypical chemical disruptors, Exposure, [SDV.CAN] Life Sciences [q-bio]/Cancer, Environmental health, medicine, [SDV.EE.SANT] Life Sciences [q-bio]/Ecology, environment/Health, Carcinogen, Environmental carcinogenesis, [SDV.EE.SANT]Life Sciences [q-bio]/Ecology, environment/Health, MESH: Humans, Animal, POLYBROMINATED DIPHENYL ETHERS, Environmental Exposure, medicine.disease, MESH: Hazardous Substances, Carcinogens, Environmental, MIGRATION INHIBITORY FACTOR, VASCULAR ENDOTHELIAL-CELLS, Hazardous Substance, Neoplasm

Abstract

Goodson, William H. et al., © The Author 2015. Lifestyle factors are responsible for a considerable portion of cancer incidence worldwide, but credible estimates from the World Health Organization and the International Agency for Research on Cancer (IARC) suggest that the fraction of cancers attributable to toxic environmental exposures is between 7% and 19%. To explore the hypothesis that low-dose exposures to mixtures of chemicals in the environment may be combining to contribute to environmental carcinogenesis, we reviewed 11 hallmark phenotypes of cancer, multiple priority target sites for disruption in each area and prototypical chemical disruptors for all targets, this included dose-response characterizations, evidence of low-dose effects and cross-hallmark effects for all targets and chemicals. In total, 85 examples of chemicals were reviewed for actions on key pathways/ mechanisms related to carcinogenesis. Only 15% (13/85) were found to have evidence of a dose-response threshold, whereas 59% (50/85) exerted low-dose effects. No dose-response information was found for the remaining 26% (22/85). Our analysis suggests that the cumulative effects of individual (non-carcinogenic) chemicals acting on different pathways, and a variety of related systems, organs, tissues and cells could plausibly conspire to produce carcinogenic synergies. Additional basic research on carcinogenesis and research focused on low-dose effects of chemical mixtures needs to be rigorously pursued before the merits of this hypothesis can be further advanced. However, the structure of the World Health Organization International Programme on Chemical Safety 'Mode of Action' framework should be revisited as it has inherent weaknesses that are not fully aligned with our current understanding of cancer biology., We gratefully acknowledge the support of the National Institute of Health-National Institute of Environmental Health Sciences (NIEHS) conference grant travel support (R13ES023276); Glenn Rice, Office of Research and Development, United States Environmental Protection Agency, Cincinnati, OH, USA also deserves thanks for his thoughtful feedback and inputs on the manuscript; William H.Goodson III was supported by the California Breast Cancer Research Program, Clarence Heller Foundation and California Pacific Medical Center Foundation; Abdul M.Ali would like to acknowledge the financial support of the University of Sultan Zainal Abidin, Malaysia; Ahmed Lasfar was supported by an award from the Rutgers Cancer Institute of New Jersey; Ann-Karin Olsen and Gunnar Brunborg were supported by the Research Council of Norway (RCN) through its Centres of Excellence funding scheme (223268/F50), Amancio Carnero’s lab was supported by grants from the Spanish Ministry of Economy and Competitivity, ISCIII (Fis: PI12/00137, RTICC: RD12/0036/0028) co-funded by FEDER from Regional Development European Funds (European Union), Consejeria de Ciencia e Innovacion (CTS-1848) and Consejeria de Salud of the Junta de Andalucia (PI-0306-2012); Matilde E. Lleonart was supported by a trienal project grant PI12/01104 and by project CP03/00101 for personal support. Amaya Azqueta would like to thank the Ministerio de Educacion y Ciencia (‘Juande la Cierva’ programme, 2009) of the Spanish Government for personal support; Amedeo Amedei was supported by the Italian Ministry of University and Research (2009FZZ4XM_002), and the University of Florence (ex60%2012); Andrew R.Collins was supported by the University of Oslo; Annamaria Colacci was supported by the Emilia-Romagna Region - Project ‘Supersite’ in Italy; Carolyn Baglole was supported by a salary award from the Fonds de recherche du Quebec-Sante (FRQ-S); Chiara Mondello’s laboratory is supported by Fondazione Cariplo in Milan, Italy (grant n. 2011-0370); Christian C.Naus holds a Canada Research Chair; Clement Yedjou was supported by a grant from the National Institutes of Health (NIH-NIMHD grant no. G12MD007581); Daniel C.Koch is supported by the Burroughs Wellcome Fund Postdoctoral Enrichment Award and the Tumor Biology Training grant: NIH T32CA09151; Dean W. Felsher would like to acknowledge the support of United States Department of Health and Human Services, NIH grants (R01 CA170378 PQ22, R01 CA184384, U54 CA149145, U54 CA151459, P50 CA114747 and R21 CA169964); Emilio Rojas would like to thank CONACyT support 152473, Ezio Laconi was supported by AIRC (Italian Association for Cancer Research, grant no. IG 14640) and by the Sardinian Regional Government (RAS); Eun-Yi Moon was supported by grants from the Public Problem-Solving Program (NRF-015M3C8A6A06014500) and Nuclear R&D Program (#2013M2B2A9A03051296 and 2010-0018545) through the National Research Foundation of Korea (NRF) and funded by the Ministry of Education, Science and Technology (MEST) in Korea; Fahd Al-Mulla was supported by the Kuwait Foundation for the Advancement of Sciences (2011-1302-06); Ferdinando Chiaradonna is supported by SysBioNet, a grant for the Italian Roadmap of European Strategy Forum on Research Infrastructures (ESFRI) and by AIRC (Associazione Italiana Ricerca sul Cancro; IG 15364); Francis L.Martin acknowledges funding from Rosemere Cancer Foundation; he also thanks Lancashire Teaching Hospitals NHS trust and the patients who have facilitated the studies he has undertaken over the course of the last 10 years; Gary S.Goldberg would like to acknowledge the support of the New Jersey Health Foundation; Gloria M.Calaf was supported by Fondo Nacional de Ciencia y Tecnología (FONDECYT), Ministerio de Educación de Chile (MINEDUC), Universidad de Tarapacá (UTA); Gudrun Koppen was supported by the Flemish Institute for Technological Research (VITO), Belgium; Hemad Yasaei was supported from a triennial project grant (Strategic Award) from the National Centre for the Replacement, Refinement and Reduction (NC3Rs) of animals in research (NC.K500045.1 and G0800697); Hiroshi Kondoh was supported in part by grants from the Ministry of Education, Culture, Sports, Science, and Technology of Japan, Japan Science and Technology Agency and by JST, CREST; Hsue-Yin Hsu was supported by the Ministry of Science and Technology of Taiwan (NSC93-2314-B-320-006 and NSC94-2314-B-320-002); Hyun Ho Park was supported by the Basic Science Research Program through the National Research Foundation of Korea (NRF) of the Ministry of Education, Science and Technology (2012R1A2A2A01010870) and a grant from the Korea Healthcare Technology R&D project, Ministry of Health and Welfare, Republic of Korea (HI13C1449); Igor Koturbash is supported by the UAMS/NIH Clinical and Translational Science Award (UL1TR000039 and KL2TR000063) and the Arkansas Biosciences Institute, the major research component of the Arkansas Tobacco Settlement Proceeds Act of 2000; Jan Vondráček acknowledges funding from the Czech Science Foundation (13-07711S); Jesse Roman thanks the NIH for their support (CA116812), John Pierce Wise Sr. and Sandra S.Wise were supported by National Institute of Environmental Health Sciences (ES016893 to J.P.W.) and the Maine Center for Toxicology and Environmental Health; Jonathan Whitfield acknowledges support from the FERO Foundation in Barcelona, Spain; Joseph Christopher is funded by Cancer Research UK and the International Journal of Experimental Pathology; Julia Kravchenko is supported by a philanthropic donation by Fred and Alice Stanback; Jun Sun is supported by a Swim Across America Cancer Research Award; Karine A.Cohen-Solal is supported by a research scholar grant from the American Cancer Society (116683-RSG-09-087-01-TBE); Laetitia Gonzalez received a postdoctoral fellowship from the Fund for Scientific Research–Flanders (FWO-Vlaanderen) and support by an InterUniversity Attraction Pole grant (IAP-P7-07); Laura Soucek is supported by grant #CP10/00656 from the Miguel Servet Research Contract Program and acknowledges support from the FERO Foundation in Barcelona, Spain; Liang-Tzung Lin was supported by funding from the Taipei Medical University (TMU101-AE3-Y19); Linda Gulliver is supported by a Genesis Oncology Trust (NZ) Professional Development Grant, and the Faculty of Medicine, University of Otago, Dunedin, New Zealand; Louis Vermeulen is supported by a Fellowship of the Dutch Cancer Society (KWF, UVA2011-4969) and a grant from the AICR (14–1164); Mahara Valverde would like to thank CONACyT support 153781; Masoud H. Manjili was supported by the office of the Assistant Secretary of Defense for Health Affairs (USA) through the Breast Cancer Research Program under Award No. W81XWH-14-1-0087 Neetu Singh was supported by grant #SR/FT/LS-063/2008 from the Department of Science and Technology, Government of India; Nicole Kleinstreuer is supported by NIEHS contracts (N01-ES 35504 and HHSN27320140003C); P.K. Krishnakumar is supported by the Funding (No. T.K. 11-0629) of King Abdulaziz City for Science and Technology, Riyadh, Saudi Arabia; Paola A.Marignani is supported by the Dalhousie Medical Research Foundation, The Beatrice Hunter Cancer Institute and CIHR and the Nova Scotia Lung Association; Paul Dent is the holder of the Universal Inc.Chair in Signal Transduction Research and is supported with funds from PHS grants from the NIH (R01-CA141704, R01-CA150214, R01-DK52825 and R01-CA61774); Petr Heneberg was supported by the Charles University in Prague projects UNCE 204015 and PRVOUK P31/2012, and by the Czech Science Foundation projects P301/12/1686 and 15-03834Y; Po Sing Leung was supported by the Health and Medical Research Fund of Food and Health Bureau, Hong Kong Special Administrative Region, Ref. No: 10110021; Qiang Cheng was supported in part by grant NSF IIS-1218712; R. Brooks Robey is supported by the United States Department of Veterans Affairs; Rabindra Roy was supported by United States Public Health Service Grants (RO1 CA92306, RO1 CA92306-S1 and RO1 CA113447); Rafaela Andrade-Vieira is supported by the Beatrice Hunter Cancer Research Institute and the Nova Scotia Health Research Foundation, Renza Vento was partially funded by European Regional Development Fund, European Territorial Cooperation 2007–13 (CCI 2007 CB 163 PO 037, OP Italia-Malta 2007–13) and grants from the Italian Ministry of Education, University and Research (MIUR) ex-60%, 2007; Riccardo Di Fiore was a recipient of fellowship granted by European Regional Development Fund, European Territorial Cooperation 2007–2013 (CCI 2007 CB 163 PO 037, OP Italia-Malta 2007–2013); Rita Dornetshuber-Fleiss was supported by the Austrian Science Fund (FWF, project number T 451-B18) and the Johanna Mahlke, geb.-Obermann-Stiftung; Roberta Palorini is supported by a SysBioNet fellowship; Roslida Abd Hamid is supported by the Ministry of Education, Malaysia-Exploratory Research Grant Scheme-Project no: ERGS/1-2013/5527165; Sabine A.S.Langie is the beneficiary of a postdoctoral grant from the AXA Research Fund and the Cefic-LRI Innovative Science Award 2013; Sakina Eltom is supported by NIH grant SC1CA153326; Samira A.Brooks was supported by National Research Service Award (T32 ES007126) from the National Institute of Environmental Health Sciences and the HHMI Translational Medicine Fellowship; Sandra Ryeom was supported by The Garrett B. Smith Foundation and the TedDriven Foundation; Thierry Massfelder was supported by the Institut National de la Santé et de la Recherche Médicale INSERM and Université de Strasbourg; Thomas Sanderson is supported by the Canadian Institutes of Health Research (CIHR; MOP-115019), the Natural Sciences and Engineering Council of Canada (NSERC; 313313) and the California Breast Cancer Research Program (CBCRP; 17UB-8703); Tiziana Guarnieri is supported by a grant from Fundamental Oriented Research (RFO) to the Alma Mater Studiorum University of Bologna, Bologna, Italy and thanks the Fondazione Cassa di Risparmio di Bologna and the Fondazione Banca del Monte di Bologna e Ravenna for supporting the Center for Applied Biomedical Research, S.Orsola-Malpighi University Hospital, Bologna, Italy; W.Kimryn Rathmell is supported by the V Foundation for Cancer Research and the American Cancer Society; William K.Decker was supported in part by grant RP110545 from the Cancer Prevention Research Institute of Texas; William H.Bisson was supported with funding from the NIH P30 ES000210; Yon Rojanasakul was supported with NIH grant R01-ES022968; Zhenbang Chen is supported by NIH grants (MD004038, CA163069 and MD007593); Zhiwei Hu is grateful for the grant support from an institutional start-up fund from The Ohio State University College of Medicine and The OSU James Comprehensive Cancer Center (OSUCCC) and a Seed Award from the OSUCCC Translational Therapeutics Program.

Published

2015

123. Mutation analysis of exone 2 of Tnp2 gene in varicocele patients.

Author

Danafar A. H., Heidari M. M., and Khatami M.

Subjects

*VARICOCELE, *NUCLEAR proteins, *MALE infertility

Abstract

Introduction: Varicocele is one of the main causes of male infertility that caused by inflammation of the veins of the pampiniform plexus. Several studies have given great evidences that revealed the relationship between sperm DNA damage and varicocele. Because of the crucial role of Transition Nuclear Proteins (TNPs) and Protamines in sperm DNA condensation and integrity, the mutations in these genes can increase the risk of sperm DNA damage and infertility in varicocele condition. Materials and Methods: DNA was extracted from total blood of 78 infertile patients with varicocele and 75 fertile control men for PCR amplification and SSCP analysis. DNA from samples with altered band pattern in the SSCP was then sequenced to search for mutations. Results: The results of sequencing showed one variant at position IVS1-26G>C (rs8043625) in the intronic region of this gene. Comparison of the genotypes between cases and controls showed significant differences in frequencies of GG and CC (p=0.002, p=0.01), but not in GC genotype of this polymorphism (p=0.41). Also it was found that varicocele risk in men who have the CC and GC genotypes is respectively 3.07 and 1.37 fold higher than those who don't have these genotypes (OR=3.07, OR=1.37). Conclusion: High conservation of this SNP position during evolution can represent the effects of this nucleotide in some important processes associated with the expression of this gene like mRNA splicing; but the exact mechanism is not clear. [ABSTRACT FROM AUTHOR]

Published

2015

124. Designing a broad-spectrum integrative approach for cancer prevention and treatment

Author

Chandra S. Boosani, William K. Decker, Punita Dhawan, Georgia Zhuo Chen, Mark E. Prince, Balakrishna L. Lokeshwar, Nagi B. Kumar, Michelle F. Green, Alan Bilsland, Michael P. Murphy, Dong M. Shin, H.P. Vasantha Rupasinghe, Paul Yaswen, Anupam Bishayee, Christian Frezza, John Stagg, Mahin Khatami, Lynnette R. Ferguson, R. Brooks Robeydf, Kanya Honoki, Alan K. Meeker, A.R.M. Ruhul Amin, Huanjie Yang, Eoin McDonnell, Virginia R. Parslow, Phuoc T. Tran, Patricia Hentosh, Frank Gieseler, Gloria S. Huang, Sulma I. Mohammed, Ho Young Lee, Giovanna Damia, Alexandra Arreola, Wamidh H. Talib, Mark A. Feitelson, Luigi Ricciardiello, Massimo Zollo, Sarallah Rezazadeh, Diana M. Stafforini, Katia Aquilano, Phillip Karpowicz, Markus D. Siegelin, Neetu Singh, Alexandros G. Georgakilas, Domenico Ribatti, Neeraj K. Saxena, Carl Smythe, Beom K. Choi, Mark M. Fuster, Gian Luigi Russo, Amedeo Amedei, Anna Mae Diehl, Terry Lichtor, D. James Morré, Charlotte Gyllenhaal, Vasundara Venkateswaran, Colleen S. Curran, Ramzi M. Mohammad, Jiyue Zhu, Anne Leb, Lizzia Raffaghello, Fabian Benencia, Sid P. Kerkar, Eddy S. Yang, Wen Guo Jiang, Jason W. Locasale, Alla Arzumanyan, W. Nicol Keith, Dorota Halicka, Gunjan Guhal, Xin Yin, Helen Chen, Irfana Muqbil, Gary L. Firestone, Panagiotis J. Vlachostergios, Maria Marino, Meenakshi Malhotra, Stacy W. Blain, Amancio Carnero, Liang Tzung Lin, Dass S. Vinay, Satya Prakash, Hsue-Yin Hsu, María L. Martínez-Chantar, Daniele Generali, Jeffrey C. Rathmell, Karen L. MacKenzie, Valter D. Longo, Dipita Bhakta, Ralph J. DeBerardinis, S. Salman Ashraf, Elena Niccolai, Hendrik Ungefroren, Carmela Fimognari, Mahya Mehrmohamadi, Zongwei Wang, Clement G. Yedjou, Costas A. Lyssiotis, Lasse Jensen, Jörg Reichrath, Sarah K. Thompson, Rita Nahta, David Sidransky, Q. Ping Dou, Brendan Grue, Isidro Sánchez-García, Brad Poore, Helen M. Coley, Bassel F. El-Rayes, Sophie Chen, Randall F. Holcombe, Dipali Sharma, Mrinmay Chakrabarti, Asfar S. Azmi, William G. Helferich, Gregory A. Michelotti, H. M. C. Shantha Kumara, Petr Heneberg, Rodney E. Shackelford, Andrew James Sanders, Daniel Sliva, Swapan K. Ray, Omer Kucuk, Christopher Maxwellx, Abbas Samadi, Leroy Lowe, Sarah Crawford, Daniele Santini, Andrew Collins, Yi Charlie Chen, Santanu Dasgupta, Kathryn E. Wellen, Richard L. Whelan, Janice E. Drewa, Ander Matheu, Sharanya Sivanand, Tetsuro Sasada, Xujuan Yang, Lee W. Jones, Byoung S. Kwon, Amr Amin, Francis Rodierdh, Ganji Purnachandra Nagaraju, Charlotta Dabrosin, Graham Pawelec, Rob J. Kulathinal, Elizabeth P. Ryan, Hiromasa Fujii, Thomas E. Carey, Somaira Nowsheen, Young Hee Ko, Deepak Poudyal, Eyad Elkord, Emanuela Signori, Rupesh Chaturvedi, Peter L. Pedersen, Carmela Spagnuolo, Keith I. Block, Marianeve Carotenuto, Vinayak Muralidharcq, Stephanie C. Casey, Kapil Mehta, Tabetha Sundin, Dean W. Felsheru, Matthew D. Hirschey, Matthew G. Vander Heiden, Lorne J. Hofseth, Francesco Pantano, Maria Rosa Ciriolo, Michael A. Leab, Carolina Panis, Marisa Connell, Gazala Khan, W. Kimryn Rathmell, Malancha Sarkar, Michael Gilbertson, Jack L. Arbiser, Penny B. Block, Pochi R. Subbarayan, Jin-Tang Dong, Frezza, Christian [0000-0002-3293-7397], Murphy, Mike [0000-0003-1115-9618], Apollo - University of Cambridge Repository, National Institutes of Health (US), Ministerio de Economía y Competitividad (España), Instituto de Salud Carlos III, Junta de Andalucía, Associazione Italiana per la Ricerca sul Cancro, Avon Foundation for Women, Junta de Castilla y León, Ministerio de Ciencia e Innovación (España), Federal Ministry of Education and Research (Germany), Canadian Institutes of Health Research, Ikerbasque Basque Foundation for Science, American Cancer Society, European Commission, Swedish Research Council, University of Glasgow, Block, Keith I, Gyllenhaal, Charlotte, Lowe, Leroy, Amedei, Amedeo, Amin, A. R. M. Ruhul, Amin, Amr, Aquilano, Katia, Arbiser, Jack, Arreola, Alexandra, Arzumanyan, Alla, Ashraf, S. Salman, Azmi, Asfar S, Benencia, Fabian, Bhakta, Dipita, Bilsland, Alan, Bishayee, Anupam, Blain, Stacy W, Block, Penny B, Boosani, Chandra S, Carey, Thomas E, Carnero, Amancio, Carotenuto, Marianeve, Casey, Stephanie C, Chakrabarti, Mrinmay, Chaturvedi, Rupesh, Chen, Georgia Zhuo, Chen, Helen, Chen, Sophie, Chen, Yi Charlie, Choi, Beom K, Ciriolo, Maria Rosa, Coley, Helen M, Collins, Andrew R, Connell, Marisa, Crawford, Sarah, Curran, Colleen S, Dabrosin, Charlotta, Damia, Giovanna, Dasgupta, Santanu, Deberardinis, Ralph J, Decker, William K, Dhawan, Punita, Diehl, Anna Mae E, Dong, Jin Tang, Dou, Q. Ping, Drew, Janice E, Elkord, Eyad, El Rayes, Bassel, Feitelson, Mark A, Felsher, Dean W, Ferguson, Lynnette R, Fimognari, Carmela, Firestone, Gary L, Frezza, Christian, Fujii, Hiromasa, Fuster, Mark M, Generali, Daniele, Georgakilas, Alexandros G, Gieseler, Frank, Gilbertson, Michael, Green, Michelle F, Grue, Brendan, Guha, Gunjan, Halicka, Dorota, Helferich, William G, Heneberg, Petr, Hentosh, Patricia, Hirschey, Matthew D, Hofseth, Lorne J, Holcombe, Randall F, Honoki, Kanya, Hsu, Hsue Yin, Huang, Gloria S, Jensen, Lasse D, Jiang, Wen G, Jones, Lee W, Karpowicz, Phillip A, Keith, W. Nicol, Kerkar, Sid P, Khan, Gazala N, Khatami, Mahin, Ko, Young H, Kucuk, Omer, Kulathinal, Rob J, Kumar, Nagi B, Kwon, Byoung S, Le, Anne, Lea, Michael A, Lee, Ho Young, Lichtor, Terry, Lin, Liang Tzung, Locasale, Jason W, Lokeshwar, Bal L, Longo, Valter D, Lyssiotis, Costas A, Mackenzie, Karen L, Malhotra, Meenakshi, Marino, Maria, Martinez Chantar, Maria L, Matheu, Ander, Maxwell, Christopher, Mcdonnell, Eoin, Meeker, Alan K, Mehrmohamadi, Mahya, Mehta, Kapil, Michelotti, Gregory A, Mohammad, Ramzi M, Mohammed, Sulma I, Morre, D. Jame, Muralidhar, Vinayak, Muqbil, Irfana, Murphy, Michael P, Nagaraju, Ganji Purnachandra, Nahta, Rita, Niccolai, Elena, Nowsheen, Somaira, Panis, Carolina, Pantano, Francesco, Parslow, Virginia R, Pawelec, Graham, Pedersen, Peter L, Poore, Brad, Poudyal, Deepak, Prakash, Satya, Prince, Mark, Raffaghello, Lizzia, Rathmell, Jeffrey C, Rathmell, W. Kimryn, Ray, Swapan K, Reichrath, Jörg, Rezazadeh, Sarallah, Ribatti, Domenico, Ricciardiello, Luigi, Robey, R. Brook, Rodier, Franci, Rupasinghe, H. P. Vasantha, Russo, Gian Luigi, Ryan, Elizabeth P, Samadi, Abbas K, Sanchez Garcia, Isidro, Sanders, Andrew J, Santini, Daniele, Sarkar, Malancha, Sasada, Tetsuro, Saxena, Neeraj K, Shackelford, Rodney E, Shantha Kumara, H. M. C, Sharma, Dipali, Shin, Dong M, Sidransky, David, Siegelin, Markus David, Signori, Emanuela, Singh, Neetu, Sivanand, Sharanya, Sliva, Daniel, Smythe, Carl, Spagnuolo, Carmela, Stafforini, Diana M, Stagg, John, Subbarayan, Pochi R, Sundin, Tabetha, Talib, Wamidh H, Thompson, Sarah K, Tran, Phuoc T, Ungefroren, Hendrik, Vander Heiden, Matthew G, Venkateswaran, Vasundara, Vinay, Dass S, Vlachostergios, Panagiotis J, Wang, Zongwei, Wellen, Kathryn E, Whelan, Richard L, Yang, Eddy S, Yang, Huanjie, Yang, Xujuan, Yaswen, Paul, Yedjou, Clement, Yin, Xin, Zhu, Jiyue, Zollo, Massimo, Amin, A R M Ruhul, Ashraf, S Salman, Dong, Jin-Tang, Dou, Q Ping, El-Rayes, Bassel, Hsu, Hsue-Yin, Keith, W Nicol, Lee, Ho-Young, Lin, Liang-Tzung, Martinez-Chantar, Maria L, Morre, D Jame, Rathmell, W Kimryn, Robey, R Brook, Rupasinghe, H P Vasantha, Sanchez-Garcia, Isidro, Shantha Kumara, H M C, Block, Ki, Gyllenhaal, C, Lowe, L, Amedei, A, Amin, Ar, Amin, A, Aquilano, K, Arbiser, J, Arreola, A, Arzumanyan, A, Ashraf, S, Azmi, A, Benencia, F, Bhakta, D, Bilsland, A, Bishayee, A, Blain, Sw, Block, Pb, Boosani, C, Carey, Te, Carnero, A, Casey, Sc, Chakrabarti, M, Chaturvedi, R, Chen, Gz, Chen, H, Chen, S, Chen, Yc, Choi, Bk, Ciriolo, Mr, Coley, Hm, Collins, Ar, Connell, M, Crawford, S, Curran, C, Dabrosin, C, Damia, G, Dasgupta, S, Deberardinis, Rj, Decker, Wk, Dhawan, P, Diehl, Am, Dong, Jt, Dou, Qp, Drew, Je, Elkord, E, El Rayes, B, Feitelson, Ma, Felsher, Dw, Ferguson, Lr, Fimognari, C, Firestone, Gl, Frezza, C, Fujii, H, Fuster, Mm, Generali, D, Georgakilas, Ag, Gieseler, F, Gilbertson, M, Green, Mf, Grue, B, Guha, G, Halicka, D, Helferich, Wg, Heneberg, P, Hentosh, P, Hirschey, Md, Hofseth, Lj, Holcombe, Rf, Honoki, K, Hsu, Hy, Huang, G, Jensen, Ld, Jiang, Wg, Jones, Lw, Karpowicz, Pa, Keith, Wn, Kerkar, Sp, Khan, Gn, Khatami, M, Ko, Yh, Kucuk, O, Kulathinal, Rj, Kumar, Nb, Kwon, B, Le, A, Lea, Ma, Lee, Hy, Lichtor, T, Lin, Lt, Locasale, Jw, Lokeshwar, Bl, Longo, Vd, Lyssiotis, Ca, Mackenzie, Kl, Malhotra, M, Marino, M, Martinez Chantar, Ml, Matheu, A, Maxwell, C, Mcdonnell, E, Meeker, Ak, Mehrmohamadi, M, Mehta, K, Michelotti, Ga, Mohammad, Rm, Mohammed, Si, Morre, Dj, Muralidhar, V, Muqbil, I, Murphy, Mp, Nagaraju, Gp, Nahta, R, Niccolai, E, Nowsheen, S, Panis, C, Pantano, F, Parslow, Vr, Pawelec, G, Pedersen, Pl, Poore, B, Poudyal, D, Prakash, S, Prince, M, Raffaghello, L, Rathmell, Jc, Rathmell, Wk, Ray, Sk, Reichrath, J, Rezazadeh, S, Ribatti, D, Ricciardiello, L, Robey, Rb, Rodier, F, Rupasinghe, Hp, Russo, Gl, Ryan, Ep, Samadi, Ak, Sanchez Garcia, I, Sanders, Aj, Santini, D, Sarkar, M, Sasada, T, Saxena, Nk, Shackelford, Re, Shantha Kumara, Hm, Sharma, D, Shin, Dm, Sidransky, D, Siegelin, Md, Signori, E, Singh, N, Sivanand, S, Sliva, D, Smythe, C, Spagnuolo, C, Stafforini, Dm, Stagg, J, Subbarayan, Pr, Sundin, T, Talib, Wh, Thompson, Sk, Tran, Pt, Ungefroren, H, Vander Heiden, Mg, Venkateswaran, V, Vinay, D, Vlachostergios, Pj, Wang, Z, Wellen, Ke, Whelan, Rl, Yang, E, Yang, H, Yang, X, Yaswen, P, Yedjou, C, Yin, X, Zhu, J, Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Vander Heiden, Matthew G., Ruhul Amin, A. R. M., Salman Ashraf, S., Azmi, Asfar S., Blain, Stacy W., Block, Penny B., Boosani, Chandra S., Carey, Thomas E., Casey, Stephanie C., Choi, Beom K., Coley, Helen M., Collins, Andrew R., Curran, Colleen S., Deberardinis, Ralph J., Decker, William K., Diehl, Anna Mae E., Drewa, Janice E., Feitelson, Mark A., Felsheru, Dean W., Ferguson, Lynnette R., Firestone, Gary L., Fuster, Mark M., Georgakilas, Alexandros G., Green, Michelle F., Guhal, Gunjan, Helferich, William G., Hirschey, Matthew D., Hofseth, Lorne J., Holcombe, Randall F., Huang, Gloria S., Jensen, Lasse D., Jiang, Wen G., Jones, Lee W., Karpowicz, Phillip A., Kerkar, Sid P., Khan, Gazala N., Ko, Young H., Kulathinal, Rob J., Kumar, Nagi B., Kwon, Byoung S., Leb, Anne, Leab, Michael A., Locasale, Jason W., Lokeshwar, Bal L., Longo, Valter D., Lyssiotis, Costas A., Maxwellx, Christopher, Meeker, Alan K., Michelotti, Gregory A., Mohammad, Ramzi M., Mohammed, Sulma I., Muralidharcq, Vinayak, Murphy, Michael P., Parslow, Virginia R., Pedersen, Peter L., Rathmell, Jeffrey C., Ray, Swapan K., Robeydf, R. Brook, Rodierdh, Franci, Ryan, Elizabeth P., Samadi, Abbas K., Sanders, Andrew J., Saxena, Neeraj K., Shackelford, Rodney E., Shantha Kumara, H. M. C., Shin, Dong M., Stafforini, Diana M., Subbarayan, Pochi R., Talib, Wamidh H., Thompson, Sarah K., Tran, Phuoc T., Vinay, Dass S., Vlachostergios, Panagiotis J., Wellen, Kathryn E., Whelan, Richard L., and Yang, Eddy S.

Subjects

Cancer Research, medicine.medical_treatment, Phytochemicals, ComputingMilieux_LEGALASPECTSOFCOMPUTING, Pharmacology, Bioinformatics, Targeted therapy, Broad spectrum, 0302 clinical medicine, Cancer hallmark, Neoplasms, Tumor Microenvironment, Molecular Targeted Therapy, Precision Medicine, ComputingMilieux_MISCELLANEOUS, 0303 health sciences, Cancer hallmarks, Integrative medicine, Multi-targeted, 1. No poverty, Life Sciences, 3. Good health, 030220 oncology & carcinogenesis, Signal Transduction, Phytochemical, Article, RC0254, 03 medical and health sciences, Therapeutic approach, Genetic Heterogeneity, medicine, Humans, Settore BIO/10, Biology, 030304 developmental biology, Tumor microenvironment, Cancer och onkologi, Cancer prevention, business.industry, Cancer, Precision medicine, medicine.disease, Antineoplastic Agents, Phytogenic, Drug Resistance, Neoplasm, Data_GENERAL, Cancer and Oncology, business

Abstract

Under a Creative Commons license.-- Review.-- et al., Targeted therapies and the consequent adoption of >personalized> oncology have achieved notablesuccesses in some cancers; however, significant problems remain with this approach. Many targetedtherapies are highly toxic, costs are extremely high, and most patients experience relapse after a fewdisease-free months. Relapses arise from genetic heterogeneity in tumors, which harbor therapy-resistantimmortalized cells that have adopted alternate and compensatory pathways (i.e., pathways that are notreliant upon the same mechanisms as those which have been targeted). To address these limitations, aninternational task force of 180 scientists was assembled to explore the concept of a low-toxicity >broad-spectrum> therapeutic approach that could simultaneously target many key pathways and mechanisms. Using cancer hallmark phenotypes and the tumor microenvironment to account for the various aspectsof relevant cancer biology, interdisciplinary teams reviewed each hallmark area and nominated a widerange of high-priority targets (74 in total) that could be modified to improve patient outcomes. For thesetargets, corresponding low-toxicity therapeutic approaches were then suggested, many of which werephytochemicals. Proposed actions on each target and all of the approaches were further reviewed forknown effects on other hallmark areas and the tumor microenvironment. Potential contrary or procar-cinogenic effects were found for 3.9% of the relationships between targets and hallmarks, and mixedevidence of complementary and contrary relationships was found for 7.1%. Approximately 67% of therelationships revealed potentially complementary effects, and the remainder had no known relationship. Among the approaches, 1.1% had contrary, 2.8% had mixed and 62.1% had complementary relationships. These results suggest that a broad-spectrum approach should be feasible from a safety standpoint. Thisnovel approach has potential to be relatively inexpensive, it should help us address stages and types ofcancer that lack conventional treatment, and it may reduce relapse risks. A proposed agenda for futureresearch is offered., Amr Amin was funded by Terry Fox Foundation Grant # TF-13-20 and UAEU Program for Advanced Research (UPAR) #31S118; Jack Arbiser was funded by NIHAR47901; Alexandra Arreola was funded by NIH NRSA Grant F31CA154080; Alla Arzumanyan was funded by NIH (NIAID) R01: Combination therapies for chronic HBV, liver disease, and cancer (AI076535); Work in the lab of Asfar S. Azmi is supported by NIH R21CA188818 as well as from Sky Foundation Inc. Michigan; Fabian Benencia was supported by NIH Grant R15 CA137499-01; Alan Bilsland was supported by the University of Glasgow, Beatson Oncology Centre Fund, CRUK (www.cancerresearchuk.org) Grant C301/A14762; Amancio Carnero was supported by grants from the Spanish Ministry of Economy and Competitivity, ISCIII (Fis: PI12/00137, RTICC: RD12/0036/0028) co-funded by FEDER from Regional Development European Funds (European Union), Consejeria de Ciencia e Innovacion (CTS-6844 and CTS-1848) and Consejeria de Salud of the Junta de Andalucia (PI-0135-2010 and PI-0306-2012). His work on this project has also been made possible thanks to the Grant PIE13/0004 co-funded by the ISCIII and FEDER funds; Stephanie C. Casey was supported by NIH Grant F32CA177139; Mrinmay Chakrabarti was supported by the United Soybean Board; Rupesh Chaturvedi was supported by an NIH NCCAM Grant (K01AT007324); Georgia Zhuo Chen was supported by an NIH NCI Grant (R33 CA161873-02); Helen Chen acknowledges financial support from the Michael Cuccione Childhood Cancer Foundation Graduate Studentship; Sophie Chen acknowledges financial support from the Ovarian and Prostate Cancer Research Trust, UK; Yi Charlie Chen acknowledges financial support from the West Virginia Higher Education Policy Commission/Division of Science Research, his research was also supported by NIH grants (P20RR016477 and P20GM103434) from the National Institutes of Health awarded to the West Virginia IDeA Network of Biomedical Research Excellence; Maria Rosa Ciriolo was partially supported by the Italian Association for Cancer Research (AIRC) Grants #IG10636 and #15403; Helen M. Coley acknowledges financial support from the GRACE Charity, UK and the Breast Cancer Campaign, UK; Marisa Connell was supported by a Michael Cuccione Childhood Cancer Foundation Postdoctoral Fellowship; Sarah Crawford was supported by a research grant from Connecticut State University; Charlotta Dabrosin acknowledges financial support from the Swedish Research Council and the Swedish Research Society; Giovanna Damia gratefully acknowledges the generous contributions of The Italian Association for Cancer Research (IG14536 to G.D.), Santanu Dasgupta gratefully acknowledges the support of the University of Texas Health Science Centre at Tyler, Elsa U. Pardee Foundation; William K. Decker was supported in part by CPRIT, the Cancer Prevention and Research Institute of Texas; Anna Mae E. Diehl was supported by NIH National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), the NIH National Institute on Alcohol Abuse and Alcoholism (NIAAA), Gilead and Shire Pharmaceuticals; Q. Ping Dou was partially supported by NIH/NCI (1R01CA20009, 5R01CA127258-05 and R21CA184788), and NIH P30 CA22453 (to Karmanos Cancer Institute); Janice E. Drew was supported by the Scottish Government's Rural and Environment Science and Analytical Services Division; Eyad Elkord thanks the National Research Foundation, United Arab Emirates University and the Terry Fox Foundation for supporting research projects in his lab; Bassel El-Rayes was supported by Novartis Pharmaceutical, Aveo Pharmaceutical, Roche, Bristol Myers Squibb, Bayer Pharmaceutical, Pfizer, and Kyowa Kirin; Mark A. Feitelson was supported by NIH/NIAID Grant AI076535, Dean W. Felsher was supported by NIH grants (R01CA170378, U54CA149145, and U54CA143907); Lynnette R Ferguson was financially supported by the Auckland Cancer Society and the Cancer Society of New Zealand; Gary L. Firestone was supported by NIH Public Service Grant CA164095 awarded from the National Cancer Institute; Christian Frezza “would like to acknowledge funding from a Medical Research Council CCU-Program Grant on cancer metabolism, and a unique applicant AICR project grant”; Mark M. Fuster was supported by NIH Grant R01-HL107652; Alexandros G. Georgakilas was supported by an EU Marie Curie Reintegration Grant MC-CIG-303514, Greek National funds through the Operational Program ‘Educational and Lifelong Learning of the National Strategic Reference Framework (NSRF)-Research Funding Program THALES (Grant number MIS 379346) and COST Action CM1201 ‘Biomimetic Radical Chemistry’; Michelle F. Green was supported by a Duke University Molecular Cancer Biology T32 Training Grant; Brendan Grue was supported by a National Sciences Engineering and Research Council Undergraduate Student Research Award in Canada; Dorota Halicka was supported by by NIH NCI grant NCI RO1 28704; Petr Heneberg was supported by the Charles University in Prague projects UNCE 204015 and PRVOUK P31/2012, by the Czech Science Foundation projects 15-03834Y and P301/12/1686, by the Czech Health Research Council AZV project 15-32432A, and by the Internal Grant Agency of the Ministry of Health of the Czech Republic project NT13663-3/2012; Matthew D. Hirschey wishes to acknowledge Duke University Institutional Support, the Duke Pepper Older Americans Independence Center (OAIC) Program in Aging Research supported by the National Institute of Aging (P30AG028716-01) and NIH/NCI training grants to Duke University (T32-CA059365-19 and 5T32-CA059365), Lorne J. Hofseth was supported by NIH grants (1R01CA151304, 1R03CA1711326, and 1P01AT003961); Kanya Honoki was supported in part by the grant from the Ministry of Education, Culture, Sports, Science and Technology, Japan (No. 24590493); Hsue-Yin Hsu was supported in part by grants from the Ministry of Health and Welfare (CCMP101-RD-031 and CCMP102-RD-112) and Tzu-Chi University (61040055-10) of Taiwan; Lasse D. Jensen was supported by Svenska Sallskapet for Medicinsk Forskning, Gosta Fraenkels Stiftelse, Ak.e Wibergs Stiftelse, Ollie och Elof Ericssons Stiftelse, Linkopings Universitet and the Karolinska Institute, Sweden; Wen G. Jiang wishes to acknowledge the support by Cancer Research Wales, the Albert Hung Foundation, the Fong Family Foundation, and Welsh Government A4B scheme; Lee W. Jones was supported in part by grants from the NIH NCI; W Nicol Keith was supported by the University of Glasgow, Beatson Oncology Centre Fund, CRUK (www.cancerresearchuk.org) Grant C301/A14762; Sid P. Kerkar was supported by the NIH Intramural Research Program; Rob J. Kulathinal was supported by the National Science Foundation, and the American Cancer Society; Byoung S. Kwon was supported in part by National Cancer Center (NCC-1310430-2) and National Research Foundation (NRF-2005-0093837); Anne Le was supported by Sol Goldman Pancreatic Cancer Research Fund Grant 80028595, a Lustgarten Fund Grant 90049125 and Grant NIHR21CA169757 (to Anne Le); Michael A. Lea was funded by the The Alma Toorock Memorial for Cancer Research; Ho-Young Lee., This work was supported by grants from the National Research Foundation of Korea (NRF), the Ministry of Science, ICT & Future Planning (MSIP), Republic of Korea (Nos. 2011-0017639 and 2011-0030001) and by a NIH Grant R01 CA100816; Liang-Tzung Lin was supported in part by a grant from the Ministry of Education of Taiwan (TMUTOP103005-4); Jason W. Locasale acknowledges support from NIH awards (CA168997 and AI110613) and the International Life Sciences Institute; Bal L. Lokeshwar was supported in part by United States’ Public Health Services Grants: NIH R01CA156776 and VA-BLR&D Merit Review Grant No. 5I01-BX001517-02; Valter D. Longo acknowledges support from NIH awards (P01AG034906 and R01AG020642) and from the V Foundation; Costas A. Lyssiotis was funded in part by the Pancreatic Cancer Action Network as a Pathway to Leadership Fellow and through a Dale F. Frey Breakthrough award from the Damon Runyon Cancer Research Foundation; Karen L. MacKenzie wishes to acknowledge the support from the Children's Cancer Institute Australia (affiliated with the University of New South Wales, Australia and the Sydney Children's Hospital Network); Maria Marino was supported by grant from University Roma Tre to M.M. (CLA 2013) and by the Italian Association for Cancer Research (AIRC-Grant #IG15221), Ander Matheu is funded by Carlos III Health Institute (AM: CP10/00539), Basque Foundation for Science (IKERBASQUE) and Marie Curie CIG Grant (AM: 2012/712404); Christopher Maxwell was supported by funding from the Canadian Institutes of Health Research, in partnership with the Avon Foundation for Women (OBC-134038) and the Canadian Institutes of Health Research New Investigator Salary Award (MSH-136647); Eoin McDonnell received Duke University Institutional Support; Kapil Mehta was supported by Bayer Healthcare System G4T (Grants4Targets); Gregory A. Michelotti received support from NIH NIDDK, NIH NIAAA, and Shire Pharmaceuticals; Vinayak Muralidhar was supported by the Harvard-MIT Health Sciences and Technology Research Assistantship Award; Elena Niccolai was supported by the Italian Ministry of University and the University of Italy; Virginia R. Parslow gratefully acknowledges the financial support of the Auckland Cancer Society Research Centre (ACSRC); Graham Pawelec was supported by the German Federal Ministry of Education and Research (Bundesministerium für Bildung und Forschung, BMBF) Grant number 16SV5536K, and by the European Commission (FP7 259679 “IDEAL”); Peter L. Pedersen was supported by NIH Grant CA-10951; Brad Poore was supported by Sol Goldman Pancreatic Cancer Research Fund Grant 80028595, the Lustgarten Fund Grant 90049125, and Grant NIHR21CA169757 (to Anne Le); Satya Prakash was supported by a Canadian Institutes of Health Research Grant (MOP 64308); Lizzia Raffaghello was supported by an NIH Grant (P01AG034906-01A1) and Cinque per Mille dell’IRPEF–Finanziamento della Ricerca Sanitaria; Jeffrey C. Rathmell was supported by an NIH Grant (R01HL108006); Swapan K. Ray was supported by the United Soybean Board; Domenico Ribatti received funding from the European Union Seventh Framework Programme (FP7/2007–2013) under Grant agreement n°278570; Luigi Ricciardiello was supported by the AIRC Investigator Grants 10216 and 13837, and the European Community's Seventh Framework Program FP7/2007–2013 under Grant agreement 311876; Francis Rodier acknowledges the support of the Canadian Institute for Health Research (FR: MOP114962, MOP125857), Fonds de Recherche Québec Santé (FR: 22624), and the Terry Fox Research Institute (FR: 1030), Gian Luigi Russo contributed to this effort while participating in the Fulbright Research Scholar Program 2013–14; Isidro Sanchez-Garcia is partially supported by FEDER and by MICINN (SAF2012-32810), by NIH Grant (R01 CA109335-04A1), by Junta de Castilla y León (BIO/SA06/13) and by the ARIMMORA project (FP7-ENV-2011, European Union Seventh Framework Program). Isidro Sanchez-Garcia's lab is also a member of the EuroSyStem and the DECIDE Network funded by the European Union under the FP7 program; Andrew J. Sanders wishes to acknowledge the support by Cancer Research Wales, the Albert Hung Foundation, the Fong Family Foundation, and Welsh Government A4B scheme; Neeraj K. Saxena was supported by grant funding from NIH NIDDK (K01DK077137, R03DK089130); Dipali Sharma was partially funded by NIH NCI grants (R01CA131294, R21 CA155686), the Avon Foundation and a Breast Cancer Research Foundation Grant (90047965); Markus David Siegelin received funding from National Institute of Health, NINDS Grant K08NS083732, and the 2013 AACR-National Brain Tumor Society Career Development Award for Translational Brain Tumor Research, Grant Number 13-20-23-SIEG; Neetu Singh was supported by funds from the Department of Science and Technology (SR/FT/LS-063/2008), New Delhi, India; Carl Smythe was supported by Yorkshire Cancer Research and The Wellcome Trust, UK; Carmela Spagnuolo was supported by funding from Project C.I.S.I.A., act n. 191/2009 from the Italian Ministry of Economy and Finance Project CAMPUS-QUARC, within program FESR Campania Region 2007/2013, objectives 2.1, 2.2; Diana M. Stafforini was supported by grants from the National Cancer Institute (5P01CA073992), IDEA Award W81XWH-12-1-0515 from the Department of Defense, and by the Huntsman Cancer Foundation; John Stagg was supported by the Canadian Institutes of Health Research; Pochi R. Subbarayan was supported by the University of Miami Clinical and Translational Science Institute (CTSI) Pilot Research Grant (CTSI-2013-P03) and SEEDS You Choose Awards; Phuoc T. Tran was funded by the DoD (W81XWH-11-1-0272 and W81XWH-13-1-0182), a Kimmel Translational Science Award (SKF-13-021), an ACS Scholar award (122688-RSG-12-196-01-TBG) and the NIH (R01CA166348); Kathryn E. Wellen receives funding from the National Cancer Institute, Pancreatic Cancer Action Network, Pew Charitable Trusts, American Diabetes Association, and Elsa U. Pardee Foundation; Huanjie Yang was partially supported by the Scientific Research Foundation for the Returned Oversea Scholars, State Education Ministry and Scientific and Technological Innovation Project, Harbin (2012RFLXS011), Paul Yaswen was supported by funding from the United States National Institutes of Health (ES019458) and the California Breast Cancer Research Program (17UB-8708); Clement Yedjou was supported by a grant from the National Institutes of Health (Grant # G1200MD007581), through the RCMI-Center for Environmental Health; Xin Yin was supported by NIH/National Heart, Lung, and Blood Institute Training Grant T32HL098062.; Jiyue Zhu was supported by NIH Grant R01GM071725; Massimo Zollo was supported by the European FP7-TuMIC HEALTH-F2-2008-201662, the Italian Association for Cancer research (AIRC) Grant IG # 11963 and the Regione Campania L.R:N.5, the European National Funds PON01-02388/1 2007-2013.

Published

2015

125. Environmental immune disruptors, inflammation and cancer risk

Author

Jordan Woodrick, Monica Vaccari, Jayadev Raju, Roslida Abd Hamid, William H. Bisson, Annamaria Colacci, Dustin G. Brown, Patricia A. Thompson, Lorenzo Memeo, Carolyn J. Baglole, Shelley A. Harris, Fahd Al-Mulla, Elizabeth P. Ryan, Rabeah Al-Temaimi, Eun-Yi Moon, Amedeo Amedei, Tiziana Guarnieri, Leroy Lowe, Hosni Salem, Jun Sun, Chiara Mondello, Neetu Singh, Rabindra Roy, A. Ivana Scovassi, Mahin Khatami, Stefano Forte, Thompson, Pa, Khatami, M, Baglole, Cj, Sun, J, Harris, Sa, Moon, Ey, Al-Mulla, F, Al-Temaimi, R, Brown, Dg, Colacci, A, Mondello, C, Raju, J, Ryan, Ep, Woodrick, J, Scovassi, Ai, Singh, N, Vaccari, M, Roy, R, Forte, S, Memeo, L, Salem, Hk, Amedei, A, Hamid, Ra, Lowe, L, Guarnieri, T, and Bisson, Wh.

Subjects

Risk, Cancer Research, Carcinogenesis, medicine.medical_treatment, Context (language use), Inflammation, Review, Biology, cancer inflammation environment immune sistem, Immune system, Neoplasms, medicine, Animals, Humans, Innate immune system, Innate lymphoid cell, General Medicine, Environmental exposure, Environmental Exposure, Acquired immune system, Carcinogens, Environmental, Immunity, Innate, Cytokine, Immunology, medicine.symptom

Abstract

An emerging area in environmental toxicology is the role that chemicals and chemical mixtures have on the cells of the human immune system. This is an important area of research that has been most widely pursued in relation to autoimmune diseases and allergy/asthma as opposed to cancer causation. This is despite the well-recognized role that innate and adaptive immunity play as essential factors in tumorigenesis. Here, we review the role that the innate immune cells of inflammatory responses play in tumorigenesis. Focus is placed on the molecules and pathways that have been mechanistically linked with tumor-associated inflammation. Within the context of chemically induced disturbances in immune function as co-factors in carcinogenesis, the evidence linking environmental toxicant exposures with perturbation in the balance between pro- and anti-inflammatory responses is reviewed. Reported effects of bisphenol A, atrazine, phthalates and other common toxicants on molecular and cellular targets involved in tumor-associated inflammation (e.g. cyclooxygenase/prostaglandin E2, nuclear factor kappa B, nitric oxide synthesis, cytokines and chemokines) are presented as example chemically mediated target molecule perturbations relevant to cancer. Commentary on areas of additional research including the need for innovation and integration of systems biology approaches to the study of environmental exposures and cancer causation are presented.

126. Computational modelling of the therapeutic outputs of photodynamic therapy on spheroid-on-chip models.

Author

Kazempour H, Teymouri F, Khatami M, and Hosseini SN

Subjects

Humans, Lab-On-A-Chip Devices, Singlet Oxygen metabolism, Computer Simulation, Light, Photochemotherapy, Spheroids, Cellular drug effects, Spheroids, Cellular metabolism, Photosensitizing Agents pharmacology, Photosensitizing Agents chemistry, Photosensitizing Agents therapeutic use, Oxygen metabolism

Abstract

Photodynamic therapy (PDT) is a medical radio chemotherapeutic method that uses light, photosensitizing agents, and oxygen to produce cytotoxic compounds, which eliminate malignant cells. Recently, Microfluidic systems have been used to analyse photosensitizers (PSs) due to their potential to replicate in vivo environments. While prior studies have established a strong correlation between reacted singlet oxygen concentration and PDT-induced cellular death, the effects that the ambient fluid flow might have on the concentration of oxygen and PS have been disregarded in many, which limits the reliability of the results. Herein, we coupled the transport of oxygen and PS throughout the ambient medium and within the spheroidal multicellular aggregate to initially study the profiles of oxygen and PS concentration alongside PDT-induced cellular death throughout the spheroid before and after radiation. The attained results indicate that the PDT-induced cellular death initiates on the surface of the spheroids and subsequently spreads to the neighbouring regions, which is in great accordance with experimental results. Afterward, the effects that drug-light interval (DLI), fluence rate, PS composition, microchannel height, and inlet flow rate have on the therapeutic outcomes are studied. The findings show that adequate DLI is critical to ensure uniform distribution of PS throughout the medium, and a value of 5 h was found to be sufficient. The composition of PS is critical, as ALA-PpIX induces earlier cell death but accelerates oxygen consumption, especially in the outer layers, depriving the inner layers of oxygen necessary for PDT, which in turn disrupts and prolongs the exposure time compared to mTHPC and Photofrin. Despite the fluence rate directly influencing the singlet oxygen generation rate, increasing the fluence rate by 189 mW/cm 2 would not significantly benefit us. Microwell height and inlet flow rate involve competing phenomena-increasing height or decreasing flow reduces oxygen supply and increases PS "washout" and its concentration., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

127. Role of Small Non-Coding RNA in Gram-Negative Bacteria: New Insights and Comprehensive Review of Mechanisms, Functions, and Potential Applications.

Author

Khaledi M, Khatami M, Hemmati J, Bakhti S, Hoseini SA, and Ghahramanpour H

Abstract

Small non-coding RNAs (sRNAs) are a key part of gene expression regulation in bacteria. Many physiologic activities like adaptation to environmental stresses, antibiotic resistance, quorum sensing, and modulation of the host immune response are regulated directly or indirectly by sRNAs in Gram-negative bacteria. Therefore, sRNAs can be considered as potentially useful therapeutic options. They have opened promising perspectives in the field of diagnosis of pathogens and treatment of infections caused by antibiotic-resistant organisms. Identification of sRNAs can be executed by sequence and expression-based methods. Despite the valuable progress in the last two decades, and discovery of new sRNAs, their exact role in biological pathways especially in co-operation with other biomolecules involved in gene expression regulation such as RNA-binding proteins (RBPs), riboswitches, and other sRNAs needs further investigation. Although the numerous RNA databases are available, including 59 databases used by RNAcentral, there remains a significant gap in the absence of a comprehensive and professional database that categorizes experimentally validated sRNAs in Gram-negative pathogens. Here, we review the present knowledge about most recent and important sRNAs and their regulatory mechanism, strengths and weaknesses of current methods of sRNAs identification. Also, we try to demonstrate the potential applications and new insights of sRNAs for future studies., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

128. Highly efficient strategy of lipopolysaccharide (LPS) decontamination from rHBsAg: synergistic effect of enhanced magnetic nanoparticles (MNPs) as an LPS affinity adsorbent (LAA) and surfactant as a dissociation factor.

Author

Kavianpour A, Hosseini SN, Ashjari M, Khatami M, Hosseini T, and Soleimani H

Abstract

The interaction of lipopolysaccharide with a recombinant protein is a serious bottleneck, particularly in the purification step of bioprocessing. Recombinant hepatitis B surface antigen (rHBsAg), the active ingredient of the hepatitis B vaccine, is probably contaminated by extrinsic LPS like other biopharmaceuticals. This research intends to eliminate LPS from its mixture with rHBsAg efficiently. Immobilized polymyxin B on magnetic nanoparticles (PMB-MNPs) was synthesized and implemented as an enhanced LPS affinity adsorbent (LAA). The 20-80 EU/dose binary samples with and without surfactant were applied to PMB-MNPs. Formerly, dynamic light scattering (DLS) and transmission electron microscopy (TEM) were examined on the samples to qualitatively show the dissociation effect of the surfactant. Considering the high potential interaction of LPS with HBsAg, the dissociation effects of 0.5 and 1.5% Tween 20 on the binary samples were assessed using immunoaffinity chromatography (IAC) as a quantification tool. The dissociation effect of Tween 20 substantially diminished the interaction, leading to a proportional increase of free LPS up to 66%. The synergetic effect of Tween 20 and privileged LAA was highly effective in eliminating more than 80% of LPS with a remarkable LPS clearance factor of 5.8 and a substantial protein recovery rate of 97%.

Published

2024

129. CDR grafting and site-directed mutagenesis approach for the generation and affinity maturation of Anti-CD20 nanobody.

Author

Heidari MM, Shirazi EA, Cheraghi SF, Shahshahani R, Rahnama T, and Khatami M

Subjects

Humans, Cell Line, Tumor, Animals, Single-Domain Antibodies genetics, Single-Domain Antibodies immunology, Mutagenesis, Site-Directed methods, Antigens, CD20 immunology, Antigens, CD20 genetics, Antigens, CD20 metabolism, Rituximab pharmacology, Complementarity Determining Regions genetics, Complementarity Determining Regions immunology, Antibody Affinity

Abstract

Background: Recently, new and advanced techniques have been adopted to design and produce nanobodies, which are used in diagnostic and immunotherapy treatments. Traditionally, nanobodies are prepared from camelid immune libraries that require animal treatments. However, such approaches require large library sizes and complicated selection procedures. The current study has employed CDR grafting and site-directed mutagenesis techniques to create genetically engineered nanobodies against the tumor marker CD20 (anti-CD20 nanobodies) used in leukemia treatment., Methods and Results: In this study, we utilized the swapping method to graft CDRs from the VH Rituximab antibody to VHH CDRs. We aimed to enhance the binding affinity of the nanobodies by substituting the amino acids (Y101R-Y102R-Y107R) in the VHH-CDR3. To assess the binding capacity of the mutated nanobodies, we conducted an ELISA test. Moreover, through flow cytometry analysis, we compared the fluorescence intensity of the grafted CD20 and mutant nanobodies with that of the commercially available human anti-CD20 in Raji cells. The results showed a significant difference in the fluorescence intensity of the grafted nanobodies and mutant nanobodies when compared to the commercially available human anti-CD20., Conclusion: The approach we followed in this study makes it possible to create multiple anti-CD20 nanobodies with varying affinities without the need for extensive selection efforts. Additionally, our research has demonstrated that computational tools are highly reliable in designing functional nanobodies., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

130. Recent trends in bone tissue engineering: a review of materials, methods, and structures.

Author

Moghaddam A, Bahrami M, Mirzadeh M, Khatami M, Simorgh S, Chimehrad M, Kruppke B, Bagher Z, Mehrabani D, and Khonakdar HA

Subjects

Humans, Animals, Porosity, Biocompatible Materials chemistry, Bone Substitutes chemistry, Bone Regeneration, Stem Cells cytology, Metals chemistry, Tissue Engineering methods, Tissue Scaffolds chemistry, Bone and Bones, Ceramics chemistry

Abstract

Bone tissue engineering (BTE) provides the treatment possibility for segmental long bone defects that are currently an orthopedic dilemma. This review explains different strategies, from biological, material, and preparation points of view, such as using different stem cells, ceramics, and metals, and their corresponding properties for BTE applications. In addition, factors such as porosity, surface chemistry, hydrophilicity and degradation behavior that affect scaffold success are introduced. Besides, the most widely used production methods that result in porous materials are discussed. Gene delivery and secretome-based therapies are also introduced as a new generation of therapies. This review outlines the positive results and important limitations remaining in the clinical application of novel BTE materials and methods for segmental defects., (© 2024 IOP Publishing Ltd.)

Published

2024

131. Design and Production of a Novel Anti-PD-1 Nanobody by CDR Grafting and Site-Directed Mutagenesis Approach.

Author

Mirzaei M, Mirhoseini S, Heidari MM, and Khatami M

Abstract

Programmed cell death protein-1 (PD-1) is a membrane protein expressed on the surface of activated T-cells, B-cells, natural killer cells, dendritic cells, macrophages, and monocytes. Inhibition of the PD-1/PD-L1 interaction by monoclonal antibodies (mAbs) has many therapeutic benefits and has led to a major advance in the treatment of various types of tumors. Due to the large size and immunogenicity of the antibodies (Abs), using small molecules such as nanobodies (nanobodies or VHH) is more appropriate for this purpose. In this research, the complementarity determining regions (CDR) grafting method was used to produce anti-PD-1 nanobody. For producing the grafted anti-PD-1 nanobody, CDRs from the tislelizumab mAb were grafted into the frameworks of a nanobody whose sequence is similar to the tislelizumab mAb. Also, the site-directed mutagenesis method was used to produce two mutated anti-PD-1 nanobodies which increased the affinity of grafted anti-PD-1 nanobodies. Two amino acid substitutions (Tyr97Arg and Tyr102Arg) in the VHH-CDR3 were used to improve grafted nanobody affinity and the binding capacity of the mutated nanobodies. The binding of the anti-PD-1 nanobodies and PD-1 antigen (Ag) was confirmed by Dot blot, western blot, and indirect ELISA analysis. According to the results of these in silico and in vitro studies, the binding between grafted and mutated nanobodies with PD-1 was confirmed. Also, our findings show that site-directed mutagenesis can increase the affinity of nanobodies., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

132. Porous α-Fe 2 O 3 nanocarriers: Biosynthesis and in vitro gene delivery applications.

Author

Alijani HQ, Pourseyedi S, Torkzadeh-Mahani M, and Khatami M

Abstract

Non-viral gene delivery is a new therapeutic in the treating genetic disorders. The most important challenge in nonviral gene transformation is the immunogenicity of carriers. Nowadays, The immunogenicity of nanocarriers as a deliverer of nucleic acid molecules has received significant attention. In this research, hematite green nanocarriers were prepared in one step with rosemary extract. Synthetic nanocarriers were investigated by using XRD (X-ray diffraction analysis), FESEM-EDX (field emission scanning electron microscopy with energy dispersive X-Ray spectroscopy), HR-TEM (high-resolution transmission electron microscopy), VSM (value stream mapping), TGA- DTG (thermal gravimetric analysis-differential thermal analysis), FT-IR (fourier-transform infrared spectroscopy), BET (brunauer-emmett-teller) and BJH (barrett-joyner-halenda) analyses. The cytotoxicity of synthetic nanocarriers was evaluated on HEK-293Tcell lines at concentration of 1-500 μg/ml using MTT method. Finally, targeted transfection of GFP plasmid using green porous particles was performed using an external magnetic field. Biogenic hematite nanoparticles with hexagonal crystal structures have a 3D pile flower-like morphology. The existence of rosemary phytochemicals in the construction of nanoparticles has caused minimal toxicity and high biocompatibility of nanocarriers. Also, TGA studies confirmed the stability of bionic nanoparticles. Superparamagnetic green nanocarriers at concentrations above 500 μg/ml is not toxic to HEK293T cells. The delivery efficiency of the plasmid was optimal at an N/P ratio of 3. Therefore, the porous α-Fe 2 O 3 green nanocarriers are non-viral and safe carriers with potential applications in gene therapy., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

133. Novel and deleterious nucleotide variations in the HAND1 gene probably affect miRNA target sites and protein function in pediatric patients with congenital heart disease.

Author

Tabrizi F, Khatami M, Heidari MM, Bragança J, Tatari H, Namnabat M, Hadadzadeh M, and Navabi Shirazi MA

Subjects

Child, Humans, Infant, Mutation genetics, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Heart Defects, Congenital genetics, MicroRNAs genetics

Abstract

Background: Congenital heart disease (CHD) is the most prevalent developmental defect and principal cause of infant mortality and affects cardiac and large blood vessel structures in approximately 1% of live births worldwide. To date, numerous studies have related critical genetic dysfunctions to the pathogenesis of CHDs. However, the genetic basis underlying CHD remains largely unknown. In the present study, we investigated the association of nucleotide variations in coding and noncoding regions of the HAND1 gene with the risk of CHD. The HAND1 gene, encoding a helix-loop-helix transcription factor, is particularly relevant for mechanisms underlying CHD since it plays a significant role in heart development., Methods and Results: The genomic DNA of 150 unrelated pediatric patients with CHD was screened by PCR-SSCP and direct sequencing. Four novel and heterozygous missense mutations were identified in the first exon, with three causing amino acid substitutions (p.Val149Met, p.Tyr142His, and p.Leu146Met). In-silico analysis also indicated their deleterious impact on protein structure and function. In addition, we identified five novel nucleotide variants in the 3'UTR region (c.*461, c.*342, c.*529, c.*448, c.*593), potentially altering the target sites of miRNAs. These changes include the loss of certain target sites and the acquisition of new ones., Conclusions: These findings confirm the phenotypic association between CHDs and HAND1 mutations and can pave the way for developing new preventive and therapeutic strategies., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

134. Novel nucleotide variations in the thrombomodulin (THBD) gene involved in coagulation pathways can increase the risk of recurrent pregnancy loss (RPL).

Author

Heidari MM, Mazrouei B, Tahmasebi M, Bagheri F, Khanjankhani Z, Khatami M, Dehghani M, and Khormizi FZ

Subjects

Humans, Female, Case-Control Studies, Adult, Middle Aged, DNA Mutational Analysis, Amino Acid Sequence, Abortion, Habitual genetics, Thrombomodulin chemistry, Thrombomodulin genetics

Abstract

Recurrent pregnancy loss (RPL) is a common but complex complication in fertility conditions, affecting about 15-20% of couples. Although several causes have been proposed for RPL, it occurs in about 35-60% of cases without a known explanation. A strong assumption is that genetic factors play a role in the etiology and pathophysiology of PRL. Therefore, several genes are proposed as candidates in the pathogenesis of RPL. The current study aimed to investigate the effects of nucleotide changes in the THBD (thrombomodulin) gene as an RPL-related candidate gene. This gene encodes a cell receptor for thrombin and is involved in reproductive loss in RPL cases. Its involvement in the natural anticoagulant system has been extensively studied. By genetic screening of the entire coding and noncoding regions of the THBD gene, we found twenty-seven heterozygous and homozygous nucleotide changes. Ten of them led to amino acid substitutions, seven variants were identified in the promoter region, and eight of them occurred in 3'UTR. Potentially, the pathogenicity effects of these variations on THBD protein were evaluated by several prediction tools. The numerous genomic variations prompted noticeable modifications of the protein's structural and functional properties. Furthermore, in-silico scores were consistent with deleterious effects for these mutations. The results of this study provide genetic information that will be useful in the future for clinicians, scientists, and students to understand the unknown causes of RPL better. It may also pave the way for developing diagnostic/prognostic approaches to help treat PRL patients., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Mohammad Mehdi Heidari reports was provided by Yazd University. Mohammad Mehdi Heidari reports a relationship with Yazd University that includes: non-financial support. Mohammad Mehdi Heidari has patent pending to licensee. The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

135. Development of a Monocyte Activation Test for Evaluating Recombinant Hepatitis B Vaccine: A Novel Approach for Pyrogen Assessment.

Author

Doroud D, Eftekhari Z, Daneshi M, Gheibi P, Jabbari N, Khatami M, and Hosseini M

Abstract

Background: Injectable products, particularly human vaccines, must be free from fever-inducing agents and thoroughly tested for pyrogens as part of a quality control. Consequently, manufacturing facilities are required to conduct appropriate pyrogen tests per pharmacopeial standards. This study aimed to evaluate the reliability of the MAT in quantifying pyrogenic content in the recombinant hepatitis B vaccine., Methods: We assessed pyrogen activity in the API, formulated vaccine, and aluminum hydroxide by comparing the LAL, RPT, and MAT, measuring activity in RPU as per the European Pharmacopeia. Monocytes from healthy donors were isolated and identified via flow cytometry to measure the CD14+ marker frequency., Results: The study found that the pyrogenic concentration of LTA in the MAT was 50,000 ng/mL (5.19 EEU/mL). In contrast, the same concentration in the RPT was deemed non-pyrogenic based on rectal temperature assessments. The MAT showed sensitivity to the API and adjuvant, with a detection limit of 2.5 EU/mL for IL-6, outperforming the RPT, which had a detection limit of 5 EU/mL., Conclusion: A strong IL-6 response to both LPS and LTA stimulation was observed, indicating that IL-6 could serve as a valuable marker for pyrogen testing. The MAT appears to be an effective alternative to the RPT for assessing pyrogenicity, demonstrating commendable consistency and accuracy across various testing systems allowed by the Ph. Eur. General MAT Chapter, especially given the RPT's limitations in controlling pyrogenicity in injectable products.

Published

2024

136. Enhancing flexibility and strength-to-weight ratio of polymeric stents: A new variable-thickness design approach.

Author

Khatami M, Doniavi A, Abazari AM, and Fotouhi M

Subjects

Humans, Prosthesis Design, Printing, Three-Dimensional, Finite Element Analysis, Stress, Mechanical, Stents, Polymers

Abstract

This paper presents a new design strategy to improve the flexibility and strength-to-weight ratio of polymeric stents. The proposed design introduces a variable-thickness (VT) stent that outperforms conventional polymeric stents with constant thickness (CT). While polymeric stents offer benefits like flexibility and bioabsorption, their mechanical strength is lower compared to metal stents. To address this limitation, thicker polymer stents are used, compromising flexibility and clinical performance. Leveraging advancements in 3D printing, a new design approach is introduced in this study and is manufactured by the Liquid Crystal Display (LCD) 3D printing method and PLA resin. The mechanical performance of CT and VT stents is compared using the Finite Element Method (FEM), validated by experimental tests. Results demonstrate that the VT stent offers significant improvements compared to a CT stent in bending stiffness (over 20%), reduced plastic strain distribution of expansion (over 26%), and increased radial strength (over 10%). This research showcases the potential of the VT stent design to enhance clinical outcomes and patient care., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

137. Retraction Note: Nickel oxide nanoparticles synthesis using plant extract and evaluation of their antibacterial effects on Streptococcus mutans.

Author

Moghadam NCZ, Jasim SA, Ameen F, Alotaibi DH, Nobre MAL, Sellami H, and Khatami M

Published

2024

138. Cerium Oxide Nanoparticles Synthesis using Alhagi Maurorum Leaf Extract and Evaluation of Their Cytotoxic Effect on Breast Cancer Cell Lines and Antibacterial Effects.

Author

Hosseini SA, Khatami M, Asadollahi A, and Yaghoobi H

Subjects

Humans, Cell Proliferation drug effects, Nanoparticles chemistry, Metal Nanoparticles chemistry, Antineoplastic Agents, Phytogenic pharmacology, Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic chemical synthesis, Antineoplastic Agents, Phytogenic isolation & purification, Structure-Activity Relationship, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents chemical synthesis, Cell Survival drug effects, Female, Gram-Positive Bacteria drug effects, Cell Line, Tumor, Particle Size, Cerium chemistry, Cerium pharmacology, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents chemical synthesis, Plant Leaves chemistry, Plant Extracts pharmacology, Plant Extracts chemistry, Plant Extracts isolation & purification, Microbial Sensitivity Tests, Drug Screening Assays, Antitumor, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Dose-Response Relationship, Drug

Abstract

Introduction: Green synthesis offers a fast, simple, and economical method for producing metallic nanoparticles.The basis of this method is to obtain nanoparticles using natural materials, such as plants, fungi, and bacteria, instead of harmful and expensive chemical-reducing agents. In this study, CeO2NPs were produced using Alhagi maurorum extract, and their anticancer and antibacterial activities were evaluated., Methods: Alhagi maurorum extract was prepared according to a previously described protocol, and CeO2NPs were synthesized from the salt of this extract. The resulting nanoparticles were characterized using Transmission electron microscopy (TEM), scanning electron microscope (SEM), and X-ray diffraction (XRD) techniques. The antibacterial and cytotoxic effects of the nanoparticles were measured by MIC, MBC, and MTT assays, respectively. The results were analyzed using one-way analysis of variance (ANOVA) using Prism software., Results: The MTT assay on breast cancer cell lines showed that the cytotoxic effect of CeO 2 NPs on cell lines was concentration-dependent. In addition, this nanoparticle was more effective against Gram-positive bacteria., Conclusion: These nanoparticles can be used as cancer drug delivery systems with specific targeting at low concentrations in addition to anticancer treatments. It can also have biological and medicinal applications, such as natural food preservation and wound dressing., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

139. The Effect of Biomaterials on Human Dental Pulp Stem Cell Neural Differentiation: A Scoping Review.

Author

Khatami M, Moradi Y, Rahimi Darehbagh R, Azizi D, Pooladi A, Ramezani R, and Seyedoshohadaei SA

Abstract

Neural cells are the most important components of the nervous system and have the duty of electrical signal transmission. Damage to these cells can lead to neurological disorders. Scientists have discovered different methods, such as stem cell therapy, to heal or regenerate damaged neural cells. Dental stem cells are among the different cells used in this method. This review attempts to evaluate the effect of biomaterials mentioned in the cited papers on differentiation of human dental pulp stem cells (hDPSCs) into neural cells for use in stem cell therapy of neurological disorders. We searched international databases for articles about the effect of biomaterials on neuronal differentiation of hDPSCs. The relevant articles were screened by title, abstract, and full text, followed by selection and data extraction. Totally, we identified 731 articles and chose 18 for inclusion in the study. A total of four studies employed polymeric scaffolds, four assessed chitosan scaffolds (CS), two utilised hydrogel scaffolds, one investigation utilised decellularised extracellular matrix (ECM), and six studies applied the floating sphere technique. hDPSCs could heal nerve damage in regenerative medicine. In the third iteration of nerve conduits, scaffolds, stem cells, regulated growth factor release, and ECM proteins restore major nerve damage. hDPSCs must differentiate into neural cells or neuron-like cells to regenerate nerves. Plastic-adherent cultures, floating dentosphere cultures, CS, polymeric scaffolds, hydrogels, and ECM mimics have been used to differentiate hDPSCs. According to our findings, the floating dentosphere technique and 3D-PLAS are currently the two best techniques since they result in neuroprogenitor cells, which are the starting point of differentiation and they can turn into any desired neural cell.

Published

2023

140. Biosynthesis of ternary NiCoFe 2 O 4 nanoflowers: investigating their 3D structure and potential use in gene delivery.

Author

Alijani HQ, Khatami M, Torkzadeh-Mahani M, Michalička J, Wang W, Wang D, and Heydari A

Abstract

Multicomponent nanoparticle systems are known for their varied properties and functions, and have shown potential as gene nanocarriers. This study aims to synthesize and characterize ternary nickel-cobalt-ferrite (NiCoFe 2 O 4 ) nanoparticles with the potential to serve as gene nanocarriers for cancer/gene therapy. The biogenic nanocarriers were prepared using a simple and eco-friendly method following green chemistry principles. The physicochemical properties of the nanoparticles were analyzed by X-ray diffraction, vibrating sample magnetometer, X-ray photoelectron spectroscopy, and Brunauer-Emmett-Teller. To evaluate the morphology of the nanoparticles, the field emission scanning electron microscopy with energy dispersive X-Ray spectroscopy, high-resolution transmission electron microscopy imaging, and electron tomography were conducted. Results indicate the nanoparticles have a nanoflower morphology with a mesoporous nature and a cubic spinel structure, where the rod and spherical nanoparticles became rose-like with a specific orientation. These nanoparticles were found to have minimal toxicity in human embryonic kidney 293 (HEK-293 T) cells at concentrations of 1 to 250 µg·mL -1 . We also demonstrated that the nanoparticles could be used as gene nanocarriers for delivering genes to HEK-293 T cells using an external magnetic field, with optimal transfection efficiency achieved at an N/P ratio of 2.5. The study suggests that biogenic multicomponent nanocarriers show potential for safe and efficient gene delivery in cancer/gene therapy., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

141. Response to the letter to the editor regarding the article "Weight of evidence evaluation for chemical-induced immunotoxicity for PFOA and PFOS: findings from an independent panel of experts" by Garvey et al. (2023).

Author

Garvey GJ, Anderson JK, Goodrum PP, Tyndall KH, Cox LA, Khatami M, Morales-Montor J, Schoeny RS, Seed JG, Tyagi RK, Kirman CR, and Hays SM

Subjects

Humans, Birth Weight, Fluorocarbons toxicity

Published

2023

142. Retraction Note: Biosynthesis of Zn-doped CuFe 2 O 4 nanoparticles and their cytotoxic activity.

Author

Darvish M, Nasrabadi N, Fotovat F, Khosravi S, Khatami M, Jamali S, Mousavi E, Iravani S, and Rahdar A

Published

2023

143. Apoptotic, cytotoxic, antioxidant, and antibacterial activities of biosynthesized silver nanoparticles from nettle leaf.

Author

Dağlıoğlu Y, Öztürk BY, and Khatami M

Subjects

Antioxidants pharmacology, Silver pharmacology, Silver chemistry, Plant Extracts pharmacology, Plant Extracts chemistry, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Urtica dioica, Metal Nanoparticles chemistry, Antineoplastic Agents pharmacology

Abstract

Here, we reported the biosynthesis of silver nanoparticles (AgNPs) using Urtica dioica (nettle) leaf extract as green reducing and capping agents and investigate their anticancer and antibacterial, activity. The Nettle-mediated biosynthesized AgNPs was characterized by UV-Vis a spectrophotometer. Their size, shape and elemental analysis were determined with the using of SEM and TEM. The crystal structure was determined by XRD and the biomolecules responsible for the reduction of Ag + were determined using FTIR analysis. Nettle-mediated biosynthesis AgNPs indicated strong antibacterial activity against pathogenic microorganisms. Again, the antioxidant activity of AgNPs is quite high when compared to ascorbic acid. Anticancer effect of AgNPs, IC 50 dose was determined by XTT analysis using MCF-7 cell line and the IC 50 value was found to be 0.243 ± 0.014 μg/mL (% w/v)., (© 2023 Wiley Periodicals LLC.)

Published

2023

144. Trace elements-based Auroshell gold@hematite nanostructure: Green synthesis and their hyperthermia therapy.

Author

M Alahdal H, Ayad Abdullrezzaq S, Ibrahim M Amin H, F Alanazi S, Turki Jalil A, Khatami M, and Mahmood Saleh M

Subjects

Humans, Gold chemistry, Iron, Water, Trace Elements, Magnetite Nanoparticles therapeutic use, Magnetite Nanoparticles chemistry, Hyperthermia, Induced methods

Abstract

Hyperthermia is an additional treatment method to radiation therapy/chemotherapy, which increases the survival rate of patients without side effects. Nowadays, Auroshell nanoparticles have attracted much attention due to their precise control over heat use for medical purposes. In this research, iron/gold Auroshell nanoparticles were synthesised using green nanotechnology approach. Auroshell gold@hematite nanoparticles were synthesised and characterised with rosemary extract in one step and the green synthesised nanoparticles were characterised by X-ray powder diffraction, SEM, high-resolution transmission electron microscopy, and X-ray photoelectron spectroscopy analysis. Cytotoxicity of Auroshell iron@gold nanoparticles against normal HUVEC cells and glioblastoma cancer cells was evaluated by 2,5-diphenyl-2H-tetrazolium bromide method, water bath hyperthermia, and combined method of water bath hyperthermia and nano-therapy. Auroshell gold@hematite nanoparticles with minimal toxicity are safe against normal cells. The gold shell around the magnetic core of magnetite caused the environmental and cellular biocompatibility of these Auroshell nanoparticles. These magnetic nanoparticles with targeted control and transfer to the tumour tissue led to uniform heating of malignant tumours as the most efficient therapeutic agent., (© 2022 The Authors. IET Nanobiotechnology published by John Wiley & Sons Ltd on behalf of The Institution of Engineering and Technology.)

Published

2023

145. Application of a 3D printed miniaturized hydrocyclone in biopharmaceutical industry-numerical and experimental studies of yeast separation from fermentation culture media.

Author

Abdollahzadeh L, Seyfi Mazraeno M, Hosseini SN, Fazlali A, and Khatami M

Subjects

Fermentation, Culture Media, Printing, Three-Dimensional, Saccharomyces cerevisiae, Biological Products

Abstract

Various industries ranging from water purification to pharmaceutical production have experienced multi separation steps that impose more process time and contamination possibility by batch operation. We propose a developed microfluidic particle sorter (miniaturized hydrocyclone) that adopts centrifugal force as it has ability to decline the number of separation steps and the risk of extrinsic contamination in continuous process. While biological industries have not relied on mini hydrocyclones considerably because of low efficiency and microfabrication difficulties, current work has been planned to conquer these obstacles. In this research, biomass separation from fermentation broth by 3 mm hydrocyclones was investigated. The effect of apex size, feed flow rate, hydrocyclone geometry were analyzed numerically in four mini-hydrocyclones. The most efficient mini-hydrocyclone was chosen to be made by elegant additive manufacturing technology and studied experimentally. The separation efficiency was achieved up to 90% while the concentration ratio of heavy stream (apex) to dilute stream (vortex finder) was reached more than twofold. The mini hydrocyclone performance in view of energy target was studied by Euler-Reynolds-Efficiency plots. The 4 μm cut size was achieved that is promising high throughput separation for biological particles.

Published

2023

146. Weight of evidence evaluation for chemical-induced immunotoxicity for PFOA and PFOS: findings from an independent panel of experts.

Author

Garvey GJ, Anderson JK, Goodrum PE, Tyndall KH, Cox LA, Khatami M, Morales-Montor J, Schoeny RS, Seed JG, Tyagi RK, Kirman CR, and Hays SM

Subjects

Animals, Humans, Male, Female, Caprylates toxicity, Epidemiologic Studies, Fluorocarbons toxicity, Alkanesulfonic Acids toxicity

Abstract

Immunotoxicity is the critical endpoint used by some regulatory agencies to establish toxicity values for perfluorooctanoic acid (PFOA) and perfluorooctane sulfonate (PFOS). However, the hypothesis that exposure to certain per- and polyfluoroalkyl substances (PFAS) causes immune dysregulation is subject to much debate. An independent, international expert panel was engaged utilizing methods to reduce bias and "groupthink". The panel concluded there is moderate evidence that PFOS and PFOA are immunotoxic, based primarily on evidence from animal data. However, species concordance and human relevance cannot be well established due to data limitations. The panel recommended additional testing that includes longer-term exposures, evaluates both genders, includes other species of animals, tests lower dose levels, assesses more complete measures of immune responses, and elucidates the mechanism of action. Panel members agreed that the Faroe Islands cohort data should not be used as the primary basis for deriving PFAS risk assessment values. The panel agreed that vaccine antibody titer is not useful as a stand-alone metric for risk assessment. Instead, PFOA and PFOS toxicity values should rely on multiple high-quality studies, which are currently not available for immune suppression. The panel concluded that the available PFAS immune epidemiology studies suffer from weaknesses in study design that preclude their use, whereas available animal toxicity studies provide comprehensive dataset to derive points of departure (PODs) for non-immune endpoints. The panel recommends accounting for potential PFAS immunotoxicity by applying a database uncertainty factor to POD values derived from animal studies for other more robustly supported critical effects.

Published

2023

147. Quantitative assessment of LPS-HBsAg interaction by introducing a novel application of immunoaffinity chromatography.

Author

Kavianpour A, Ashjari M, Hosseini SN, and Khatami M

Subjects

Microscopy, Electron, Transmission, Hepatitis B Vaccines chemistry, Hepatitis B Vaccines genetics, Hepatitis B Vaccines isolation & purification, Models, Chemical, Amino Acid Sequence, Dynamic Light Scattering, Lipopolysaccharides analysis, Recombinant Proteins isolation & purification, Recombinant Proteins ultrastructure, Hepatitis B Surface Antigens chemistry, Hepatitis B Surface Antigens genetics, Hepatitis B Surface Antigens isolation & purification, Hepatitis B Surface Antigens ultrastructure, Chromatography, Affinity methods

Abstract

Lipopolysaccharide (LPS), as a stubborn contamination, should be monitored and kept in an acceptable level during the pharmaceutical production process. Recombinant hepatitis B surface antigen (r-HBsAg) is one of the recombinant biological products, which is probable to suffer from extrinsic endotoxin due to its long and complex production process. This research aims to assess the potential interaction between LPS and r-HBsAg by recruiting immunoaffinity chromatography (IAC) as a novel tool to quantify the interaction. Molecular modeling was performed on the HBsAg molecule to theoretically predict its potential binding and interaction sites. Then dynamic light scattering (DLS) analysis was implemented on HBsAg, LPS, and mixtures of them to reveal the interaction. The virus-like particle (VLP) structure of HBsAg and the ribbon-like structure of LPS were visualized by transmission electron microscopy (TEM). Finally, the interaction was quantified by applying various LPS/HBsAg ratios ranging from 1.67 to 120 EU/dose in the IAC. Consequently, the LPS/HBsAg ratios in the eluate were measured from 1.67 to a maximum of 92.5 EU/dose. The results indicated that 77 to 100% of total LPS interacted with HBsAg by an inverse relationship to the incubated LPS concentration. The findings implied that the introduced procedure is remarkably practical in the quantification of LPS interaction with a target recombinant protein.

Published

2023

148. Mitochondrial mutations in protein coding genes of respiratory chain including complexes IV, V, and mt-tRNA genes are associated risk factors for congenital heart disease.

Author

Heidari MM, Khatami M, Kamalipour A, Kalantari M, Movahed M, Emmamy MH, Hadadzadeh M, Bragança J, Namnabat M, and Mazrouei B

Abstract

Most studies aiming at unraveling the molecular events associated with cardiac congenital heart disease (CHD) have focused on the effect of mutations occurring in the nuclear genome. In recent years, a significant role has been attributed to mitochondria for correct heart development and maturation of cardiomyocytes. Moreover, numerous heart defects have been associated with nucleotide variations occurring in the mitochondrial genome, affecting mitochondrial functions and cardiac energy metabolism, including genes encoding for subunits of respiratory chain complexes. Therefore, mutations in the mitochondrial genome may be a major cause of heart disease, including CHD, and their identification and characterization can shed light on pathological mechanisms occurring during heart development. Here, we have analyzed mitochondrial genetic variants in previously reported mutational genome hotspots and the flanking regions of mt-ND1, mt-ND2, mt-COXI, mt-COXII, mt-ATPase8, mt-ATPase6, mt-COXIII, and mt-tRNAs ( Ile, Gln, Met, Trp, Ala, Asn, Cys, Tyr, Ser, Asp, and Lys ) encoding genes by polymerase chain reaction-single stranded conformation polymorphism (PCR-SSCP) in 200 patients with CHD, undergoing cardiac surgery. A total of 23 mitochondrial variations (5 missense mutations, 8 synonymous variations, and 10 nucleotide changes in tRNA encoding genes) were identified and included 16 novel variants. Additionally, we showed that intracellular ATP was significantly reduced ( P =0.002) in CHD patients compared with healthy controls, suggesting that the mutations have an impact on mitochondrial energy production. Functional and structural alterations caused by the mitochondrial nucleotide variations in the gene products were studied in-silico and predicted to convey a predisposing risk factor for CHD. Further studies are necessary to better understand the mechanisms by which the alterations identified in the present study contribute to the development of CHD in patients., (Copyright © 2022 Heidari et al.)

Published

2022

149. Synthesis characterization of Zn-based MOF and their application in degradation of water contaminants.

Author

Jasim SA, Amin HIM, Rajabizadeh A, Nobre MAL, Borhani F, Jalil AT, Saleh MM, Kadhim MM, and Khatami M

Subjects

Water, Coloring Agents chemistry, Zinc, Metal-Organic Frameworks chemistry, Environmental Pollutants chemistry

Abstract

Metal-organic frameworks (MOFs) are currently popular porous materials with research and application value in various fields such as medicine and engineering. Aiming at the application of MOFs in photocatalysis, this paper mainly reviews the main synthesis methods of ZnMOFs and the latest research progress of Zn MOF-based photocatalysts to degrade organic pollutants in water, such as organic dyes. This nanomaterial is being used to treat wastewater and has proven to be very efficient because of its exceptionally large surface area and porous nature. The results show that Zn-MOFs are capable of high degradation of the above pollutants and over 90% of degradation was observed in publications. In addition, the reusability percentage was examined and studies showed that the Zn-MOF nanostructure has very good stability and can continue to degrade a high percentage of pollutants after several cycles. This review focuses on Zn-MOFs and their composites. First, the methods of synthesis and characterization of these compounds are given. Finally, the application of these composites in the process of photocatalytic degradation of dye pollutants such as methylene blue, methyl orange, crystal violet, rhodamine B, etc. is explained.

Published

2022

150. An intelligent DNA nanorobot for detection of MiRNAs cancer biomarkers using molecular programming to fabricate a logic-responsive hybrid nanostructure.

Author

Mirzaiebadizi A, Ravan H, Dabiri S, Mohammadi P, Shahba A, Ziasistani M, and Khatami M

Subjects

Humans, Biomarkers, Tumor genetics, DNA chemistry, MicroRNAs analysis, MicroRNAs genetics, Neoplasms genetics, Nanostructures chemistry

Abstract

Herein, we designed a DNA framework-based intelligent nanorobot using toehold-mediated strand displacement reaction-based molecular programming and logic gate operation for the selective and synchronous detection of miR21 and miR125b, which are known as significant cancer biomarkers. Moreover, to investigate the applicability of our design, DNA nanorobots were implemented as capping agents onto the pores of MSNs. These agents can develop a logic-responsive hybrid nanostructure capable of specific drug release in the presence of both targets. The prosperous synthesis steps were verified by FTIR, XRD, BET, UV-visible, FESEM-EDX mapping, and HRTEM analyses. Finally, the proper release of the drug in the presence of both target microRNAs was studied. This Hybrid DNA Nanostructure was designed with the possibility to respond to any target oligonucleotides with 22 nucleotides length., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022