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2. Caracterização dos compostos traços influentes no aproveitamento energético do biogás gerado em reator UASB no tratamento de esgoto doméstico

Author

ELLER, C. M., BEGHI, S. P., SA, L. M., VIEIRA, R. S., Reis Jr, N.C., and SANTOS, J. M.

Subjects
biogás, compostos traços, aproveitamento energético, reator
Abstract

Made available in DSpace on 2018-08-24T22:53:31Z (GMT). No. of bitstreams: 1 tese_7396_DCF.pdf: 1924430 bytes, checksum: 9261537271ede72f1991257c22b4b86b (MD5) Previous issue date: 2013-08-23 Com a perspectiva de aplicação do biogás como recurso energético, verifica-se um crescente interesse em relação à sua composição química específica e às possíveis implicações a respeito de sua utilização. O presente trabalho investiga os compostos traços que influenciam o aproveitamento energético do biogás, dentre eles sulfeto de hidrogênio, siloxanos e compostos halogenados. Na literatura, os trabalhos realizados a respeito de siloxanos no biogás são provenientes de estudos em digestores de lodo, e não do biogás produzido no tratamento de esgoto em si, daí a importância dessa pesquisa. Também são investigados o potencial de aproveitamento e a validação de um modelo para estimativa do balanço de massa de DQO. Foram coletadas amostras de esgoto e de biogás do sistema de tratamento de esgoto doméstico da cidade de Piaçú/ES, composto por pré-tratamento, tratamento anaeróbio (reator UASB) e tratamento aeróbio (filtros biológicos aerados submersos). Foram realizadas análises de DQO total e filtrada, sulfato, sulfeto e sólidos nos esgotos afluente e efluente, e de sólidos e sulfeto precipitado no lodo, de acordo com o Standard Methods for the Examination of Water and Wastewater (APHA, 2005). As amostras do biogás produzido no reator anaeróbio de manta de lodo (UASB) foram coletadas em sacolas de Nalophan® de 10 litros e pré-concentradas em cartuchos adsorvedores CarbopackTM. As concentrações de sulfeto de hidrogênio, siloxanos e halogenados, assim como as dos principais componentes gasosos (metano e outros), foram analisadas por meio de cromatografia gasosa acoplada aos detectores de condutividade térmica e espectrômetro de massas (TCD e MS). A quantidade de metano capturada no biogás foi de 19,7 Nm3 dia-1 (0,093 Nm3/m3 de esgoto/ 0,24 Nm3/kgDQOrem), cuja queima liberaria um potência de 8,2 kW na forma de calor (capaz de ser convertida em uma potência de 2,7 kW de energia elétrica). A recuperação de metano e a produção de biogás foram adequadamente estimadas pelo modelo proposto por Lobato, Chernicharo e Souza (2012). De modo geral, foram encontrados siloxanos e compostos halogenados em variedades e concentrações menores que as normalmente reportadas na literatura. A concentração média de sulfeto de hidrogênio foi consideravelmente elevada (2078 ppm), podendo representar uma limitação ao aproveitamento energético do biogás.

Published
2013

3. Caracterização da Emissão de Sulfeto de Hidrogênio da Lagoa Anaeróbica da Estação de Tratamento de Esgotos Domésticos de Porto Canoa, Serra - ES

Author

RODRIGUES, A. C., BEGHI, S. P., Reis Jr, N.C., VIEIRA, R. S., and SANTOS, J. M.

Abstract

Made available in DSpace on 2018-08-24T22:53:19Z (GMT). No. of bitstreams: 1 tese_5213_Dissertao final Augusto_final-25-11-2011v9.pdf: 1552251 bytes, checksum: fc3981ed6922b49f441dc754d7ea7788 (MD5) Previous issue date: 2011-08-26 O crescimento das grandes cidades vem aumentando o volume de esgotos domésticos ao longo dos anos. O processo de tratamento desses efluentes domésticos freqüentemente pode levar à produção de vários compostos causadores de mau cheiro. Um desses compostos é o gás sulfeto de hidrogênio (H2S), principal causador de odor nesse tipo de tratamento. O sulfeto de hidrogênio pode ser detectado em concentrações extremamente baixas pelo olfato e em curtos intervalos de tempo e em concentrações superiores pode causar graves danos à saúde e levar até mesmo ao óbito. Nesse contexto, torna-se de grande importância o estudo de tecnologias para predição e controle da emissão desse gás. Neste trabalho utilizou-se uma Câmara de Fluxo Dinâmica (CFD) para determinação da emissão de sulfeto de hidrogênio na lagoa anaeróbia da estação de tratamento de esgotos de Porto Canoa Serra, ES. A taxa de emissão medida pela CFD mostrou correlação com parâmetros climáticos, físicos e químicos da região: 64% com relação ao sulfeto dissolvido na fase líquida e 34% com a velocidade do vento. Os experimentos quando comparados ao modelo matemático de Springer, Lunney e Valsaraj (1984) e Mackay e Yeun (1983) superestimou as emissões em 3,4 vezes.

Published
2011

4. Local Radiation Enhances Systemic CAR T Cell Efficacy by Augmenting Antigen Cross-Presentation and T-cell Infiltration.

Author

Kostopoulos N, Costabile F, Krimitza E, Beghi S, Goia D, Perales-Linares R, Thyfronitis G, LaRiviere MJ, Chong EA, Schuster SJ, Maity A, Koumenis C, Plastaras JP, and Facciabene A

Abstract

Chimeric antigen receptor (CAR) T cell therapy targeting CD19 (CART-19) represents a significant advance in the treatment of patients with relapsed or refractory CD19-positive B-cell lymphomas. However, a significant portion of patients either relapse or fail to respond. Moreover, many patients have symptomatic disease, requiring bridging radiation therapy (RT) during the period of CAR-T cells manufacturing. To investigate the impact of 1-2 fractions of low-dose RT on CART-19 treatment response, we developed a mouse model using A20 lymphoma cells for CART-19 therapy. We found that low dose fractionated RT had a positive effect on generating abscopal systemic antitumor responses beyond the irradiated site. The combination of RT with CART-19 therapy resulted in additive effects on tumor growth in irradiated masses. Notably, a significant additional increase in antitumor effect was observed in non-irradiated tumors. Mechanistically, our results validate activation of the cGAS/STING pathway, tumor-associated antigen (TAA) cross-priming, and elicitation of epitope spreading. Collectively, our findings suggest that RT may serve as an optimal priming and bridging modality for CAR-T cell therapy overcoming treatment resistance and improving clinical outcomes in patients with CD19-positive hematologic malignancies., (Copyright © 2024 American Society of Hematology.)

Published
2024
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5. Investigation of Aberrant Basaloid Cells in a Rat Model of Lung Fibrosis.

Author

Bocchi E, Pitozzi V, Pontis S, Caruso PL, Beghi S, Caputi M, Trevisani M, and Ruscitti F

Subjects
Animals, Rats, Male, Pulmonary Fibrosis pathology, Pulmonary Fibrosis metabolism, Pulmonary Fibrosis chemically induced, Lung pathology, Lung metabolism, Idiopathic Pulmonary Fibrosis pathology, Idiopathic Pulmonary Fibrosis metabolism, Disease Models, Animal, Bleomycin toxicity
Abstract

Background: Idiopathic pulmonary fibrosis (IPF) is a chronic and progressive interstitial lung disease (ILD) whose cause and pathogenesis are not yet well understood. Until now, no animal model of lung fibrosis succeeds in recapitulating all IPF features, thus the use of different rodent models is essential for the evaluation and development of new effective pharmacological treatments. Recently, the alveolar epithelial dysfunction has been emphasized in the etiopathogenesis context of IPF. Remarkably, the role of an aberrant basaloid cell type, primarily found in humans and confirmed in mice, seems to be crucial in the establishment and progression of the disease/model. Our work aimed to characterize for the first time this cell population in a rat model of lung fibrosis induced by a double bleomycin (BLM) administration, demonstrating the translational value of the model and its potential use in the testing of effective new drugs., Methods: Rats received an intratracheal BLM administration at day 0 and 4. Animals were sacrificed 21 and 28 days post-BLM. The fibrosis evaluation was carried out through histological (Ashcroft score and automatic image analysis) and immunoenzymatic analysis. Immunofluorescence was used for the characterization of the aberrant basaloid cells markers., Results: Lung histology revealed an increase in severe grades of Ashcroft scores and areas of fibrosis, resulting in a rise of collagen deposition at both the analyzed time-points. Immunofluorescence staining indicated the presence of KRT8+ cells in bronchial epithelial cells from both controls (saline, SAL) and BLM-treated animals. Interesting, KRT8+ cells were found exclusively in the fibrotic parenchyma (confirmed by the alpha-smooth muscle actin (α-SMA) staining for myofibroblasts) of BLM-treated animals. Moreover, KRT8+ cells co-expressed markers as Prosurfactant protein C (Pro-SPC) and Vimentin, suggesting their intermediate state potentially originating from alveolar type II (AT2) cells, and participating to the abnormal epithelial-mesenchymal crosstalk., Conclusion: Previous preclinical studies demonstrated the presence of KRT8+ aberrant basaloid-like cells in murine models of lung fibrosis. This work investigated the same cell population in a different rodent (the rat) model of lung fibrosis triggered by a double administration of BLM. Our results provided a further confirmation that, in rats, the intratracheal administration of BLM induced the appearance of a population of cells compatible with the KRT8+ alveolar differentiation intermediate (ADI) cells, as described previously in the mouse. This piece of work enforces previous evidence and further support the use of a rat model of BLM resembling the alveolar epithelial dysfunction to evaluate new clinical candidates for development in IPF., Competing Interests: Francesca Ruscitti, Vanessa Pitozzi, Silvia Pontis, Paola L. Caruso, Sofia Beghi, Marcello Trevisani are employees of Chiesi Farmaceutici S.p.A, the judgments in data interpretation and writing were not influenced by this relationship. All the remaining authors have not actual and perceived conflicts of interest., (© 2024 The Author(s). Published by IMR Press.)

Published
2024
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6. Parkin Deficiency Suppresses Antigen Presentation to Promote Tumor Immune Evasion and Immunotherapy Resistance.

Author

Perales-Linares R, Leli NM, Mohei H, Beghi S, Rivera OD, Kostopoulos N, Giglio A, George SS, Uribe-Herranz M, Costabile F, Pierini S, Pustylnikov S, Skoufos G, Barash Y, Hatzigeorgiou AG, Koumenis C, Maity A, Lotze MT, and Facciabene A

Subjects
Animals, Humans, Mice, Immunotherapy, Proto-Oncogene Proteins c-akt, Tumor Escape, Ubiquitin-Protein Ligases genetics, Ubiquitin-Protein Ligases metabolism, Antigen Presentation, Neoplasms genetics, Neoplasms therapy, Neoplasms metabolism
Abstract

Parkin is an E3 ubiquitin ligase, which plays a key role in the development of Parkinson disease. Parkin defects also occur in numerous cancers, and a growing body of evidence indicates that Parkin functions as a tumor suppressor that impedes a number of cellular processes involved in tumorigenesis. Here, we generated murine and human models that closely mimic the advanced-stage tumors where Parkin deficiencies are found to provide deeper insights into the tumor suppressive functions of Parkin. Loss of Parkin expression led to aggressive tumor growth, which was associated with poor tumor antigen presentation and limited antitumor CD8+ T-cell infiltration and activation. The effect of Parkin deficiency on tumor growth was lost following depletion of CD8+ T cells. In line with previous findings, Parkin deficiency was linked with mitochondria-associated metabolic stress, PTEN degradation, and enhanced Akt activation. Increased Akt signaling led to dysregulation of antigen presentation, and treatment with the Akt inhibitor MK2206-2HCl restored antigen presentation in Parkin-deficient tumors. Analysis of data from patients with clear cell renal cell carcinoma indicated that Parkin expression was downregulated in tumors and that low expression correlated with reduced overall survival. Furthermore, low Parkin expression correlated with reduced patient response to immunotherapy. Overall, these results identify a role for Parkin deficiency in promoting tumor immune evasion that may explain the poor prognosis associated with loss of Parkin across multiple types of cancer., Significance: Parkin prevents immune evasion by regulating tumor antigen processing and presentation through the PTEN/Akt network, which has important implications for immunotherapy treatments in patients with Parkin-deficient tumors., (©2023 The Authors; Published by the American Association for Cancer Research.)

Published
2023
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7. Author Correction: Gut microbiome correlates of response and toxicity following anti-CD19 CAR T cell therapy.

Author

Smith M, Dai A, Ghilardi G, Amelsberg KV, Devlin SM, Pajarillo R, Slingerland JB, Beghi S, Herrera PS, Giardina P, Clurman A, Dwomoh E, Armijo G, Gomes ALC, Littmann ER, Schluter J, Fontana E, Taur Y, Park JH, Palomba ML, Halton E, Ruiz J, Jain T, Pennisi M, Afuye AO, Perales MA, Freyer CW, Garfall A, Gier S, Nasta S, Landsburg D, Gerson J, Svoboda J, Cross J, Chong EA, Giralt S, Gill SI, Riviere I, Porter DL, Schuster SJ, Sadelain M, Frey N, Brentjens RJ, June CH, Pamer EG, Peled JU, Facciabene A, van den Brink MRM, and Ruella M

Published
2023
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8. Modulation of the gut microbiota engages antigen cross-presentation to enhance antitumor effects of CAR T cell immunotherapy.

Author

Uribe-Herranz M, Beghi S, Ruella M, Parvathaneni K, Salaris S, Kostopoulos N, George SS, Pierini S, Krimitza E, Costabile F, Ghilardi G, Amelsberg KV, Lee YG, Pajarillo R, Markmann C, McGettigan-Croce B, Agarwal D, Frey N, Lacey SF, Scholler J, Gabunia K, Wu G, Chong E, Porter DL, June CH, Schuster SJ, Bhoj V, and Facciabene A

Subjects
Humans, Mice, Animals, Receptors, Antigen, T-Cell genetics, Cross-Priming, Vancomycin pharmacology, Immunotherapy, T-Lymphocytes, Immunotherapy, Adoptive methods, Antigens, CD19, Gastrointestinal Microbiome, Receptors, Chimeric Antigen genetics
Abstract

Several studies have shown the influence of commensal microbes on T cell function, specifically in the setting of checkpoint immunotherapy for cancer. In this study, we investigated how vancomycin-induced gut microbiota dysbiosis affects chimeric antigen receptor (CAR) T immunotherapy using multiple preclinical models as well as clinical correlates. In two murine tumor models, hematopoietic CD19 + -A20 lymphoma and CD19 + -B16 melanoma, mice receiving vancomycin in combination with CD19-directed CAR T cell (CART-19) therapy displayed increased tumor control and tumor-associated antigens (TAAs) cross-presentation compared with CART-19 alone. Fecal microbiota transplant from human healthy donors to pre-conditioned mice recapitulated the results obtained in naive gut microbiota mice. Last, B cell acute lymphoblastic leukemia patients treated with CART-19 and exposed to oral vancomycin showed higher CART-19 peak expansion compared with unexposed patients. These results substantiate the role of the gut microbiota on CAR T cell therapy and suggest that modulation of the gut microbiota using vancomycin may improve outcomes after CAR T cell therapy across tumor types., Competing Interests: Declaration of interests M.R.: BMS, BAYER, GSK, consultancy; Novartis, patents and royalties; AbClon, consultancy, research funding; Tmunity, patents and royalties; viTToria Biotherapeutics, research funding. N.F.: Sana Biotechnology, consultancy; Novartis, research funding; Kite Pharma, consultancy; Syndax Pharmaceuticals, consultancy. C.H.J.: Tmunity, DeCART, BluesphereBio, Carisma, Cellares, Celldex, Cabaletta, Poseida, Verismo, and Ziopharm, current equity holder in publicly traded company; AC Immune, DeCART, BluesphereBio, Carisma, Cellares, Celldex, Cabaletta, Poseida, Verismo, Ziopharm, consultancy; Novartis, patents and royalties. D.L.P.: American Society for Transplantation and Cellular Therapy, honoraria; ASH and DeCart, membership on the Board of Directors or advisory committee; Genentech, current employment, current equity holder in publicly traded company; Incyte and Janssen, Kite/Gilead, and National Marrow Donor Program, membership on an entity’s board of directors or advisory committee; Novartis, membership on an entity’s board of directors or advisory committee, patents and royalties, and research funding; Unity, patents and royalties; and Wiley and Sons Publishing, honoraria. S.J.S.: TG Therapeutics, research funding; Incyte, research funding; Adaptive Biotechnologies, research funding; Pharmacyclics, research funding; Merck, research funding; Genentech/Roche, consultancy, research funding; Tessa Therapeutics, consultancy; Loxo Oncology, consultancy; Juno Therapeutics, consultancy, research funding; BeiGene, consultancy; Alimera Sciences, consultancy; Acerta Pharma/AstraZeneca, consultancy; Novartis, consultancy, honoraria, patents and royalties, research funding; AbbVie, consultancy, research funding; Nordic Nanovector, consultancy; Celgene, consultancy, honoraria, research funding., (Copyright © 2023. Published by Elsevier Inc.)

Published
2023
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9. Calcium Signalling in Heart and Vessels: Role of Calmodulin and Downstream Calmodulin-Dependent Protein Kinases.

Author

Beghi S, Furmanik M, Jaminon A, Veltrop R, Rapp N, Wichapong K, Bidar E, Buschini A, and Schurgers LJ

Subjects
Humans, Calcium metabolism, Calcium-Calmodulin-Dependent Protein Kinases metabolism, Myocytes, Cardiac metabolism, Calcium-Calmodulin-Dependent Protein Kinase Type 2 metabolism, Calmodulin metabolism, Cardiovascular Diseases metabolism
Abstract

Cardiovascular disease is the major cause of death worldwide. The success of medication and other preventive measures introduced in the last century have not yet halted the epidemic of cardiovascular disease. Although the molecular mechanisms of the pathophysiology of the heart and vessels have been extensively studied, the burden of ischemic cardiovascular conditions has risen to become a top cause of morbidity and mortality. Calcium has important functions in the cardiovascular system. Calcium is involved in the mechanism of excitation-contraction coupling that regulates numerous events, ranging from the production of action potentials to the contraction of cardiomyocytes and vascular smooth muscle cells. Both in the heart and vessels, the rise of intracellular calcium is sensed by calmodulin, a protein that regulates and activates downstream kinases involved in regulating calcium signalling. Among them is the calcium calmodulin kinase family, which is involved in the regulation of cardiac functions. In this review, we present the current literature regarding the role of calcium/calmodulin pathways in the heart and vessels with the aim to summarize our mechanistic understanding of this process and to open novel avenues for research.

Published
2022
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10. Gut microbiome correlates of response and toxicity following anti-CD19 CAR T cell therapy.

Author

Smith M, Dai A, Ghilardi G, Amelsberg KV, Devlin SM, Pajarillo R, Slingerland JB, Beghi S, Herrera PS, Giardina P, Clurman A, Dwomoh E, Armijo G, Gomes ALC, Littmann ER, Schluter J, Fontana E, Taur Y, Park JH, Palomba ML, Halton E, Ruiz J, Jain T, Pennisi M, Afuye AO, Perales MA, Freyer CW, Garfall A, Gier S, Nasta S, Landsburg D, Gerson J, Svoboda J, Cross J, Chong EA, Giralt S, Gill SI, Riviere I, Porter DL, Schuster SJ, Sadelain M, Frey N, Brentjens RJ, June CH, Pamer EG, Peled JU, Facciabene A, van den Brink MRM, and Ruella M

Subjects
Antigens, CD19, Humans, Immunotherapy, Adoptive adverse effects, Prospective Studies, Retrospective Studies, Gastrointestinal Microbiome, Neurotoxicity Syndromes etiology, Receptors, Chimeric Antigen
Abstract

Anti-CD19 chimeric antigen receptor (CAR) T cell therapy has led to unprecedented responses in patients with high-risk hematologic malignancies. However, up to 60% of patients still experience disease relapse and up to 80% of patients experience CAR-mediated toxicities, such as cytokine release syndrome or immune effector cell-associated neurotoxicity syndrome. We investigated the role of the intestinal microbiome on these outcomes in a multicenter study of patients with B cell lymphoma and leukemia. We found in a retrospective cohort (n = 228) that exposure to antibiotics, in particular piperacillin/tazobactam, meropenem and imipenem/cilastatin (P-I-M), in the 4 weeks before therapy was associated with worse survival and increased neurotoxicity. In stool samples from a prospective cohort of CAR T cell recipients (n = 48), the fecal microbiome was altered at baseline compared to healthy controls. Stool sample profiling by 16S ribosomal RNA and metagenomic shotgun sequencing revealed that clinical outcomes were associated with differences in specific bacterial taxa and metabolic pathways. Through both untargeted and hypothesis-driven analysis of 16S sequencing data, we identified species within the class Clostridia that were associated with day 100 complete response. We concluded that changes in the intestinal microbiome are associated with clinical outcomes after anti-CD19 CAR T cell therapy in patients with B cell malignancies., (© 2022. This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply.)

Published
2022
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11. Unburned Tobacco Cigarette Smoke Alters Rat Ultrastructural Lung Airways and DNA.

Author

Vivarelli F, Canistro D, Cirillo S, Elias RJ, Granata S, Mussoni M, Burattini S, Falcieri E, Turrini E, Fimognari C, Buschini A, Lazzaretti M, Beghi S, Girotti S, Sangiorgi S, Bolelli L, Ghini S, Ferri EN, Fagiolino I, Franchi P, Lucarini M, Mercatante D, Rodriguez-Estrada MT, Lorenzini A, Marchionni S, Gabriele M, Longo V, and Paolini M

Subjects
Animals, DNA, Lung, Rats, Rats, Sprague-Dawley, Smoking, Nicotiana, Smoke, Tobacco Products toxicity
Abstract

Introduction: Recently, the Food and Drug Administration authorized the marketing of IQOS Tobacco Heating System as a Modified Risk Tobacco Product based on an electronic heat-not-burn technology that purports to reduce the risk., Methods: Sprague-Dawley rats were exposed in a whole-body mode to IQOS aerosol for 4 weeks. We performed the chemical characterization of IQOS mainstream and we studied the ultrastructural changes in trachea and lung parenchyma of rats exposed to IQOS stick mainstream and tissue pro-inflammatory markers. We investigated the reactive oxygen species amount along with the markers of tissue and DNA oxidative damage. Moreover, we tested the putative genotoxicity of IQOS mainstream through Ames and alkaline Comet mutagenicity assays., Results: Here, we identified irritating and carcinogenic compounds including aldehydes and polycyclic aromatic hydrocarbons in the IQOS mainstream as sign of incomplete combustion and degradation of tobacco, that lead to severe remodelling of smaller and largest rat airways. We demonstrated that IQOS mainstream induces lung enzymes that activate carcinogens, increases tissue reactive radical concentration; promotes oxidative DNA breaks and gene level DNA damage; and stimulates mitogen activated protein kinase pathway which is involved in the conventional tobacco smoke-induced cancer progression., Conclusions: Collectively, our findings reveal that IQOS causes grave lung damage and promotes factors that increase cancer risk., Implications: IQOS has been proposed as a safer alternative to conventional cigarettes, due to depressed concentration of various harmful constituents typical of traditional tobacco smoke. However, its lower health risks to consumers have yet to be determined. Our findings confirm that IQOS mainstream contains pyrolysis and thermogenic degradation by-products, the same harmful constituents of traditional cigarette smoke, and, for the first time, we show that it causes grave lung damage and promotes factors that increase cancer risk in the animal model., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Research on Nicotine and Tobacco. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
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12. Polymorphism rs7214723 in CAMKK1: a new genetic variant associated with cardiovascular diseases.

Author

Beghi S, Cavaliere F, Manfredini M, Ferrarese S, Corazzari C, Beghi C, and Buschini A

Subjects
Cardiovascular Diseases diagnosis, Cardiovascular Diseases epidemiology, Case-Control Studies, Cross-Sectional Studies, Female, Gene Frequency, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Italy epidemiology, Male, Middle Aged, Phenotype, Risk Assessment, Risk Factors, Calcium-Calmodulin-Dependent Protein Kinase Kinase genetics, Cardiovascular Diseases genetics, Polymorphism, Single Nucleotide
Abstract

Cardiovascular diseases (CVDs) are the leading cause of deaths worldwide. CVDs have a complex etiology due to the several factors underlying its development including environment, lifestyle, and genetics. Given the role of calcium signal transduction in several CVDs, we investigated via PCR-restriction fragment length polymorphism (RFLP) the single nucleotide polymorphism (SNP) rs7214723 within the calcium/calmodulin-dependent kinase kinase 1 (CAMKK1) gene coding for the Ca2+/calmodulin-dependent protein kinase kinase I. The variant rs7214723 causes E375G substitution within the kinase domain of CAMKK1. A cross-sectional study was conducted on 300 cardiac patients. RFLP-PCR technique was applied, and statistical analysis was performed to evaluate genotypic and allelic frequencies and to identify an association between SNP and risk of developing specific CVD. Genotype and allele frequencies for rs7214723 were statistically different between cardiopathic and several European reference populations. A logistic regression analysis adjusted for gender, age, diabetes, hypertension, BMI and previous history of malignancy was applied on cardiopathic genotypic data and no association was found between rs7214723 polymorphism and risk of developing specific coronary artery disease (CAD) and aortic stenosis (AS). These results suggest the potential role of rs7214723 in CVD susceptibility as a possible genetic biomarker., (© 2021 The Author(s).)

Published
2021
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13. Combination of vasculature targeting, hypofractionated radiotherapy, and immune checkpoint inhibitor elicits potent antitumor immune response and blocks tumor progression.

Author

Pierini S, Mishra A, Perales-Linares R, Uribe-Herranz M, Beghi S, Giglio A, Pustylnikov S, Costabile F, Rafail S, Amici A, Facciponte JG, Koumenis C, and Facciabene A

Subjects
Adenoviridae genetics, Animals, Cancer Vaccines administration & dosage, Cancer Vaccines pharmacology, Cell Line, Tumor, Colorectal Neoplasms diagnostic imaging, Combined Modality Therapy, Immune Checkpoint Inhibitors pharmacology, Lung Neoplasms diagnostic imaging, Mice, Radiation Dose Hypofractionation, Treatment Outcome, Ultrasonography, Doppler, Vaccines, DNA pharmacology, Xenograft Model Antitumor Assays, Antigens, CD metabolism, Colorectal Neoplasms therapy, Immune Checkpoint Inhibitors administration & dosage, Lung Neoplasms therapy, Neoplasm Proteins metabolism, Vaccines, DNA administration & dosage
Abstract

Background: Tumor endothelial marker 1 (TEM1) is a protein expressed in the tumor-associated endothelium and/or stroma of various types of cancer. We previously demonstrated that immunization with a plasmid-DNA vaccine targeting TEM1 reduced tumor progression in three murine cancer models. Radiation therapy (RT) is an established cancer modality used in more than 50% of patients with solid tumors. RT can induce tumor-associated vasculature injury, triggering immunogenic cell death and inhibition of the irradiated tumor and distant non-irradiated tumor growth (abscopal effect). Combination treatment of RT with TEM1 immunotherapy may complement and augment established immune checkpoint blockade., Methods: Mice bearing bilateral subcutaneous CT26 colorectal or TC1 lung tumors were treated with a novel heterologous TEM1-based vaccine, in combination with RT, and anti-programmed death-ligand 1 (PD-L1) antibody or combinations of these therapies, tumor growth of irradiated and abscopal tumors was subsequently assessed. Analysis of tumor blood perfusion was evaluated by CD31 staining and Doppler ultrasound imaging. Immunophenotyping of peripheral and tumor-infiltrating immune cells as well as functional analysis was analyzed by flow cytometry, ELISpot assay and adoptive cell transfer (ACT) experiments., Results: We demonstrate that addition of RT to heterologous TEM1 vaccination reduces progression of CT26 and TC1 irradiated and abscopal distant tumors as compared with either single treatment. Mechanistically, RT increased major histocompatibility complex class I molecule (MHCI) expression on endothelial cells and improved immune recognition of the endothelium by anti-TEM1 T cells with subsequent severe vascular damage as measured by reduced microvascular density and tumor blood perfusion. Heterologous TEM1 vaccine and RT combination therapy boosted tumor-associated antigen (TAA) cross-priming (ie, anti-gp70) and augmented programmed cell death protein 1 (PD-1)/PD-L1 signaling within CT26 tumor. Blocking the PD-1/PD-L1 axis in combination with dual therapy further increased the antitumor effect and gp70-specific immune responses. ACT experiments show that anti-gp70 T cells are required for the antitumor effects of the combination therapy., Conclusion: Our findings describe novel cooperative mechanisms between heterologous TEM1 vaccination and RT, highlighting the pivotal role that TAA cross-priming plays for an effective antitumor strategy. Furthermore, we provide rationale for using heterologous TEM1 vaccination and RT as an add-on to immune checkpoint blockade as triple combination therapy into early-phase clinical trials., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2021
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14. Gene polymorphisms in calcium-calmodulin pathway: Focus on cardiovascular disease.

Author

Beghi S, Cavaliere F, and Buschini A

Subjects
Calmodulin metabolism, Humans, Protein Isoforms, Signal Transduction, Calcium metabolism, Calmodulin genetics, Cardiovascular Diseases genetics, Polymorphism, Genetic
Abstract

Cardiovascular disease is the leading cause of death in industrialized countries and affects an increasing number of people. Several risk factors play an important role in the etiology of this disease, such as an unhealthy lifestyle. It is increasingly clear that genetic factors influencing the molecular basis of excitation-contraction mechanisms in the heart could contribute to modify the individual's risk. Thanks to the progress that has been made in understanding calcium signaling in the heart, it is assumed that calmodulin can play a crucial role in the excitation-contraction coupling. In fact, calmodulin (CaM) binds calcium and consequently regulates calcium channels. Several works show how some polymorphic variants can be considered predisposing factors to complex pathologies. Therefore, we hypothesize that the identification of polymorphic variants of proteins involved in the CaM pathway could be important for understanding how genetic traits can influence predisposition to myocardial infarction. This review considers each pathway of the three different isoforms of calmodulin (CaM1; CaM2; CaM3) and focuses on some common proteins involved in the three pathways, with the aim of analyzing the polymorphisms studied in the literature and understanding if they are associated with cardiovascular disease., Competing Interests: Declaration of Competing Interest On behalf of all authors, the corresponding author states that there is no conflict of interest., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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15. Gut microbiota modulate dendritic cell antigen presentation and radiotherapy-induced antitumor immune response.

Author

Uribe-Herranz M, Rafail S, Beghi S, Gil-de-Gómez L, Verginadis I, Bittinger K, Pustylnikov S, Pierini S, Perales-Linares R, Blair IA, Mesaros CA, Snyder NW, Bushman F, Koumenis C, and Facciabene A

Subjects
Animals, Antigen Presentation genetics, Antigens, Neoplasm genetics, Butyrates immunology, CD8-Positive T-Lymphocytes pathology, Dendritic Cells pathology, Female, Mice, Mice, Knockout, Antigen Presentation radiation effects, Antigens, Neoplasm immunology, CD8-Positive T-Lymphocytes immunology, Dendritic Cells immunology, Gastrointestinal Microbiome immunology, Gastrointestinal Microbiome radiation effects, Neoplasms, Experimental genetics, Neoplasms, Experimental immunology, Neoplasms, Experimental pathology, Neoplasms, Experimental radiotherapy
Abstract

Alterations in gut microbiota impact the pathophysiology of several diseases, including cancer. Radiotherapy (RT), an established curative and palliative cancer treatment, exerts potent immune modulatory effects, inducing tumor-associated antigen (TAA) cross-priming with antitumor CD8+ T cell elicitation and abscopal effects. We tested whether the gut microbiota modulates antitumor immune response following RT distal to the gut. Vancomycin, an antibiotic that acts mainly on gram-positive bacteria and is restricted to the gut, potentiated the RT-induced antitumor immune response and tumor growth inhibition. This synergy was dependent on TAA cross presentation to cytolytic CD8+ T cells and on IFN-γ. Notably, butyrate, a metabolite produced by the vancomycin-depleted gut bacteria, abrogated the vancomycin effect. In conclusion, depletion of vancomycin-sensitive bacteria enhances the antitumor activity of RT, which has important clinical ramifications.

Published
2020
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16. Targeting mitochondria in cancer: current concepts and immunotherapy approaches.

Author

Pustylnikov S, Costabile F, Beghi S, and Facciabene A

Subjects
Animals, DNA, Mitochondrial genetics, Humans, Mitochondrial Dynamics, T-Lymphocytes metabolism, Immunotherapy, Mitochondria metabolism, Neoplasms immunology, Neoplasms therapy
Abstract

An essential advantage during eukaryotic cell evolution was the acquisition of a network of mitochondria as a source of energy for cell metabolism and contrary to conventional wisdom, functional mitochondria are essential for the cancer cell. Multiple aspects of mitochondrial biology beyond bioenergetics support transformation including mitochondrial biogenesis, fission and fusion dynamics, cell death susceptibility, oxidative stress regulation, metabolism, and signaling. In cancer, the metabolism of cells is reprogrammed for energy generation from oxidative phosphorylation to aerobic glycolysis and impacts cancer mitochondrial function. Furthermore cancer cells can also modulate energy metabolism within the cancer microenvironment including immune cells and induce "metabolic anergy" of antitumor immune response. Classical approaches targeting the mitochondria of cancer cells usually aim at inducing changing energy metabolism or directly affecting functions of mitochondrial antiapoptotic proteins but most of such approaches miss the required specificity of action and carry important side effects. Several types of cancers harbor somatic mitochondrial DNA mutations and specific immune response to mutated mitochondrial proteins has been observed. An attractive alternative way to target the mitochondria in cancer cells is the induction of an adaptive immune response against mutated mitochondrial proteins. Here, we review the cancer cell-intrinsic and cell-extrinsic mechanisms through which mitochondria influence all steps of oncogenesis, with a focus on the therapeutic potential of targeting mitochondrial DNA mutations or Tumor Associated Mitochondria Antigens using the immune system., (Copyright © 2018. Published by Elsevier Inc.)

Published
2018
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17. Use of poly(ethylene terephtalate) film bag to sample and remove humidity from atmosphere containing volatile organic compounds.

Author

Beghi S and Guillot JM

Subjects
Diffusion, Drug Stability, Polyethylene Terephthalates, Polyvinyls chemistry, Volatilization, Water chemistry, Air Pollutants analysis, Environmental Monitoring methods, Humidity, Organic Chemicals analysis, Polyethylene Glycols chemistry
Abstract

Nalophan bags made from poly(ethylene terephtalate) film are often used to collect odorous gases. In this paper, the sample water removal method, based on humidity diffusion through the sample bag film, was applied using Nalophan bags and Tedlar bags to sample volatile organic compounds (VOCs) at low concentration (10 microg/m(3)). The removal of water with Nalophan bags enabled a reduction in relative humidity (RH) in a 10-L air sample from 80% to 20% in 2h at 20 degrees C. The use of Nalophan bags for the removal of water did not involve significant VOC loss among the 11 compounds studied.

Published
2008
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18. Sample water removal method in volatile organic compound analysis based on diffusion through poly(vinyl fluoride) film.

Author

Beghi S and Guillot JM

Subjects
Diffusion, Humidity, Polytetrafluoroethylene chemistry, Volatilization, Air Pollutants analysis, Environmental Monitoring methods, Organic Chemicals analysis, Polyvinyls chemistry, Water
Abstract

The humidity caught during air sampling or sample storage causes various problems during volatile organic compound (VOC) analysis and gives unreliable results. In this study, water vapour diffusion capacities through poly(vinyl fluoride) Tedlar, fluoroethylene propylene Teflon and Flex foil film were compared. A new approach to humidity removal has been tested for moderately polluted atmospheres. This approach consists in using the water vapour diffusion property of Tedlar film to remove humidity from bag samples containing a mixture of ten VOCs at 500 ppbv each in a 70% relative humidity atmosphere. The sampling bags were placed in a chamber flushed by a dry air stream at less than 5% relative humidity. After a few hours in the chamber, the samples in the Tedlar bags were dry (relative humidity <5%) and did not show significant VOC loss. This sample water removal (SWR) method is especially interesting as a pretreatment before air sampling on water sensitive adsorbents.

Published
2006
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