Your search keyword '"cellular distribution"' showing total 285 results

1. Salt tolerance in mungbean is associated with controlling Na and Cl transport across roots, regulating Na and Cl accumulation in chloroplasts and maintaining high K in root and leaf mesophyll cells.

Author

Iqbal, Md Shahin, Clode, Peta L., Malik, Al Imran, Erskine, William, and Kotula, Lukasz

Subjects

*CELL compartmentation, *SALINITY, *CHLOROPLASTS, *ROOT development, *XYLEM, *EFFECT of salt on plants

Abstract

Salinity tolerance requires coordinated responses encompassing salt exclusion in roots and tissue/cellular compartmentation of salt in leaves. We investigated the possible control points for salt ions transport in roots and tissue tolerance to Na+ and Cl– in leaves of two contrasting mungbean genotypes, salt‐tolerant Jade AU and salt‐sensitive BARI Mung‐6, grown in nonsaline and saline (75 mM NaCl) soil. Cryo‐SEM X‐ray microanalysis was used to determine concentrations of Na, Cl, K, Ca, Mg, P, and S in various cell types in roots related to the development of apoplastic barriers, and in leaves related to photosynthetic performance. Jade AU exhibited superior salt exclusion by accumulating higher [Na] in the inner cortex, endodermis, and pericycle with reduced [Na] in xylem vessels and accumulating [Cl] in cortical cell vacuoles compared to BARI Mung‐6. Jade AU maintained higher [K] in root cells than BARI Mung‐6. In leaves, Jade AU maintained lower [Na] and [Cl] in chloroplasts and preferentially accumulated [K] in mesophyll cells than BARI Mung‐6, resulting in higher photosynthetic efficiency. Salinity tolerance in Jade AU was associated with shoot Na and Cl exclusion, effective regulation of Na and Cl accumulation in chloroplasts, and maintenance of high K in root and leaf mesophyll cells. Summary statement: Salinity tolerance in mungbean is related to its ability to intercept Na and Cl in roots, thereby reducing Na and Cl transport to shoot, effectively regulate Na and Cl accumulation in chloroplasts, and maintain high K in root and leaf mesophyll cells. [ABSTRACT FROM AUTHOR]

Published

2024

2. Chemical imaging unveils mitochondria as the major site of medicinal biguanide accumulation within cells

Author

Lei Wang, Xianrong Zeng, Yanjie Li, Wanyu Hao, Zijing Yu, Luxia Yao, Yongdeng Zhang, Zhaobin Wang, and Lianfeng Wu

Subjects

Metformin, Chemical imaging, Mitochondria, Cellular distribution, Dynamics, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Metformin (MET), a commonly prescribed medication for managing type 2 diabetes, has demonstrated various beneficial effects beyond its primary anti-diabetic efficacy. However, the mechanism underlying MET activity and its distribution within organelles remain largely unknown. In this study, we integrate multiple technologies, including chemical labeling, immunostaining, and high-resolution microscopy imaging, to visualize the accumulation of MET in organelles of cultured cells. To achieve this objective, an alkynylated MET probe is developed that preserves biological activity similar to biguanide drugs. As determined by biorthogonal chemical labeling and imaging, the MET probe selectively localizes to substructures within cells, contrasting with its probe control. Furthermore, the MET probe can be competitively and efficiently washed out through biguanide administration, demonstrating the specific activity of this probe in monitoring the cellular dynamics of biguanide drugs. Our results indicate that the MET probe can reach near-saturated concentrations within 2 h and is rapidly eliminated within an additional 2 h once the exogenous source of the drug is removed. Furthermore, we reveal that the MET probe primarily accumulates in mitochondria, particularly within the mitochondrial matrix, and has a minor presence in other organelles, such as lysosomes and endosomes. Together, this study provides the first view of the subcellular localization of MET and lays the foundation for future investigations on its molecular targets and mechanisms of action in promoting human health.

Published

2024

3. Gamma-Camera Direct Imaging of the Plasma and On/Intra Cellular Distribution of the 99m Tc-DPD-Fe 3 O 4 Dual-Modality Contrast Agent in Peripheral Human Blood.

Author

Karageorgou, Maria-Argyro, Apostolopoulou, Adamantia, Tomazinaki, Mina-Ermioni, Stanković, Dragana, Stiliaris, Efstathios, Bouziotis, Penelope, and Stamopoulos, Dimosthenis

Subjects

*SINGLE-photon emission computed tomography, *IRON oxides, *CONTRAST media, *IRON oxide nanoparticles, *BLOOD plasma, *OXYGEN carriers, *MAGNETIC resonance imaging

Abstract

The radiolabeled iron oxide nanoparticles constitute an attractive choice to be used as dual-modality contrast agents (DMCAs) in nuclear medical diagnosis, due to their ability to combine the benefits of two imaging modalities, for instance single photon emission computed tomography (SPECT) with magnetic resonance imaging (MRI). Before the use of any DMCA, the investigation of its plasma extra- and on/intra cellular distribution in peripheral human blood is of paramount importance. Here, we focus on the in vitro investigation of the distribution of 99mTc-DPD-Fe3O4 DMCA in donated peripheral human blood (the ligand 2-3-dicarboxypropane-1-1-diphosphonic-acid is denoted as DPD). Initially, we described the experimental methods we performed for the radiosynthesis of the 99mTc-DPD-Fe3O4, the preparation of whole blood and blood plasma samples, and their incubation conditions with 99mTc-DPD-Fe3O4. More importantly, we employed a gamma-camera apparatus for the direct imaging of the 99mTc-DPD-Fe3O4-loaded whole blood and blood plasma samples when subjected to specialized centrifugation protocols. The direct comparison of the gamma-camera data obtained at the exact same samples before and after their centrifugation enabled us to clearly identify the distribution of the 99mTc-DPD-Fe3O4 in the two components, plasma and cells, of peripheral human blood. [ABSTRACT FROM AUTHOR]

Published

2024

4. Role and therapeutic potential of DEAD-box RNA helicase family in colorectal cancer.

Author

Bichun Zheng, Xudong Chen, Qiaoyun Ling, Quan Cheng, and Shaoshun Ye

Subjects

RNA helicase, COLORECTAL cancer, GENE expression, HELICASES, PROTEIN structure

Abstract

Colorectal cancer (CRC) is the third most commonly diagnosed and the second cancer-related death worldwide, leading to more than 0.9 million deaths every year. Unfortunately, this disease is changing rapidly to a younger age, and in a more advanced stage when diagnosed. The DEAD-box RNA helicase proteins are the largest family of RNA helicases so far. They regulate almost every aspect of RNA physiological processes, including RNA transcription, editing, splicing and transport. Aberrant expression and critical roles of the DEAD-box RNA helicase proteins have been found in CRC. In this review, we first summarize the protein structure, cellular distribution, and diverse biological functions of DEAD-box RNA helicases. Then, we discuss the distinct roles of DEAD-box RNA helicase family in CRC and describe the cellular mechanism of actions based on recent studies, with an aim to provide future strategies for the treatment of CRC. [ABSTRACT FROM AUTHOR]

Published

2023

5. Transporter-Mediated Cellular Distribution of Tyrosine Kinase Inhibitors as a Potential Resistance Mechanism in Chronic Myeloid Leukemia.

Author

Verhagen, Noor E., Koenderink, Jan B., Blijlevens, Nicole M. A., Janssen, Jeroen J. W. M., and Russel, Frans G. M.

Subjects

*CHRONIC myeloid leukemia, *PROTEIN-tyrosine kinase inhibitors, *ATP-binding cassette transporters, *HEMATOLOGIC malignancies, *LIFE expectancy, *PROTEIN-tyrosine kinases, *PROGENITOR cells

Abstract

Chronic myeloid leukemia (CML) is a hematologic neoplasm characterized by the expression of the BCR::ABL1 oncoprotein, a constitutively active tyrosine kinase, resulting in uncontrolled growth and proliferation of cells in the myeloid lineage. Targeted therapy using tyrosine kinase inhibitors (TKIs) such as imatinib, nilotinib, dasatinib, bosutinib, ponatinib and asciminib has drastically improved the life expectancy of CML patients. However, treatment resistance occurs in 10–20% of CML patients, which is a multifactorial problem that is only partially clarified by the presence of TKI inactivating BCR::ABL1 mutations. It may also be a consequence of a reduction in cytosolic TKI concentrations in the target cells due to transporter-mediated cellular distribution. This review focuses on drug-transporting proteins in stem cells and progenitor cells involved in the distribution of TKIs approved for the treatment of CML. Special attention will be given to ATP-binding cassette transporters expressed in lysosomes, which may facilitate the extracytosolic sequestration of these compounds. [ABSTRACT FROM AUTHOR]

Published

2023

6. Cellular Localization and Distribution of TGF-β1, GDNF and PDGF-BB in the Adult Primate Central Nervous System.

Author

Li, Hui, Dan, Qi-Qin, Chen, Yan-Jun, Chen, Li, Zhang, Hong-Tian, Mu, De-Zhi, and Wang, Ting-Hua

Subjects

*CENTRAL nervous system, *GLIAL cell line-derived neurotrophic factor, *DENDRITES, *SPINAL cord, *TRANSFORMING growth factors, *CEREBRAL cortex, *THETA rhythm

Abstract

The available data on the localization of transforming growth factor beta1 (TGF-β1), glial cell line-derived neurotrophic factor (GDNF), and platelet-derived growth factor-BB (PDGF-BB) in the adult primate and human central nervous system (CNS) are limited and lack comprehensive and systematic information. This study aimed to investigate the cellular localization and distribution of TGF-β1, GDNF, and PDGF-BB in the CNS of adult rhesus macaque (Macaca mulatta). Seven adult rhesus macaques were included in the study. The protein levels of TGF-β1, PDGF-BB, and GDNF in the cerebral cortex, cerebellum, hippocampus, and spinal cord were analyzed by western blotting. The expression and location of TGF-β1, PDGF-BB, and GDNF in the brain and spinal cord was examined by immunohistochemistry and immunofluorescence staining, respectively. The mRNA expression of TGF-β1, PDGF-BB, and GDNF was detected by in situ hybridization. The molecular weight of TGF-β1, PDGF-BB, and GDNF in the homogenate of spinal cord was 25 KDa, 30 KDa, and 34 KDa, respectively. Immunolabeling revealed GDNF was ubiquitously distributed in the cerebral cortex, hippocampal formation, basal nuclei, thalamus, hypothalamus, brainstem, cerebellum, and spinal cord. TGF-β1 was least distributed and found only in the medulla oblongata and spinal cord, and PDGF-BB expression was also limited and present only in the brainstem and spinal cord. Besides, TGF-β1, PDGF-BB, and GDNF were localized in the astrocytes and microglia of spinal cord and hippocampus, and their expression was mainly found in the cytoplasm and primary dendrites. The mRNA of TGF-β1, PDGF-BB, and GDNF was localized to neuronal subpopulations in the spinal cord and cerebellum. These findings suggest that TGF-β1, GDNF and PDGF-BB may be associated with neuronal survival, neural regeneration and functional recovery in the CNS of adult rhesus macaques, providing the potential insights into the development or refinement of therapies based on these factors. [ABSTRACT FROM AUTHOR]

Published

2023

7. Gamma-Camera Direct Imaging of the Plasma and On/Intra Cellular Distribution of the 99mTc-DPD-Fe3O4 Dual-Modality Contrast Agent in Peripheral Human Blood

Author

Maria-Argyro Karageorgou, Adamantia Apostolopoulou, Mina-Ermioni Tomazinaki, Dragana Stanković, Efstathios Stiliaris, Penelope Bouziotis, and Dimosthenis Stamopoulos

Subjects

iron oxide nanoparticles, technetium-99m, dual-modality contrast agent, gamma-camera imaging, peripheral human blood, cellular distribution, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The radiolabeled iron oxide nanoparticles constitute an attractive choice to be used as dual-modality contrast agents (DMCAs) in nuclear medical diagnosis, due to their ability to combine the benefits of two imaging modalities, for instance single photon emission computed tomography (SPECT) with magnetic resonance imaging (MRI). Before the use of any DMCA, the investigation of its plasma extra- and on/intra cellular distribution in peripheral human blood is of paramount importance. Here, we focus on the in vitro investigation of the distribution of 99mTc-DPD-Fe3O4 DMCA in donated peripheral human blood (the ligand 2-3-dicarboxypropane-1-1-diphosphonic-acid is denoted as DPD). Initially, we described the experimental methods we performed for the radiosynthesis of the 99mTc-DPD-Fe3O4, the preparation of whole blood and blood plasma samples, and their incubation conditions with 99mTc-DPD-Fe3O4. More importantly, we employed a gamma-camera apparatus for the direct imaging of the 99mTc-DPD-Fe3O4-loaded whole blood and blood plasma samples when subjected to specialized centrifugation protocols. The direct comparison of the gamma-camera data obtained at the exact same samples before and after their centrifugation enabled us to clearly identify the distribution of the 99mTc-DPD-Fe3O4 in the two components, plasma and cells, of peripheral human blood.

Published

2024

8. Transporter-Mediated Cellular Distribution of Tyrosine Kinase Inhibitors as a Potential Resistance Mechanism in Chronic Myeloid Leukemia

Author

Noor E. Verhagen, Jan B. Koenderink, Nicole M. A. Blijlevens, Jeroen J. W. M. Janssen, and Frans G. M. Russel

Subjects

tyrosine kinase inhibitor, drug transporting proteins, ABC transporters, cellular distribution, chronic myeloid leukemia, treatment resistance, Pharmacy and materia medica, RS1-441

Abstract

Chronic myeloid leukemia (CML) is a hematologic neoplasm characterized by the expression of the BCR::ABL1 oncoprotein, a constitutively active tyrosine kinase, resulting in uncontrolled growth and proliferation of cells in the myeloid lineage. Targeted therapy using tyrosine kinase inhibitors (TKIs) such as imatinib, nilotinib, dasatinib, bosutinib, ponatinib and asciminib has drastically improved the life expectancy of CML patients. However, treatment resistance occurs in 10–20% of CML patients, which is a multifactorial problem that is only partially clarified by the presence of TKI inactivating BCR::ABL1 mutations. It may also be a consequence of a reduction in cytosolic TKI concentrations in the target cells due to transporter-mediated cellular distribution. This review focuses on drug-transporting proteins in stem cells and progenitor cells involved in the distribution of TKIs approved for the treatment of CML. Special attention will be given to ATP-binding cassette transporters expressed in lysosomes, which may facilitate the extracytosolic sequestration of these compounds.

Published

2023

9. Regulation of MRI contrast and cellular retention time by cellular interfacial distribution of Gd agents: Implications for stem cell tracking

Author

Yanhui Zhang, Binbin Li, Bo Tan, Hailu Zhang, and Zongwu Deng

Subjects

MRI, Gd agent, Cellular distribution, Relaxation rate, Intracellular retention time, Physical and theoretical chemistry, QD450-801, Analytical chemistry, QD71-142

Abstract

Human mesenchymal stem cells (hMSCs) were labeled with Dotarem or (Gd-DOTA)2- EM7 (EM7Gd2) via electroporation (EP). Cellular transmission electron microscopy (TEM) reveals free distribution of Gd agents and formation of EM7Gd2 clusters in the cytosol. Cellular magnetic resonance imaging (MRI) reveals that the free Gd agents induce MRI signal enhancement effect due to its fast exocytosis and subsequent interaction with intercellular water molecules. The EM7Gd2 clusters exhibits a longer intracellular retention time and induce a persistent MRI signal reduction effect. The cellular MRI results are interpreted by taking into account both T1 and T2 relaxation rates and their correlation with cellular binding structures of Dotarem and EM7Gd2.

Published

2022

10. Elastic Fiber-Reinforced Silk Fibroin Scaffold with A Double-Crosslinking Network for Human Ear-Shaped Cartilage Regeneration

Author

Wang, Qianyi, Ran, Xinyue, Wang, Jian, Wang, Sinan, Zhang, Peiling, Gao, Erji, Bai, Baoshuai, Zhang, Junfeng, Zhou, Guangdong, and Lei, Dong

Published

2023

11. Salt tolerance in relation to elemental concentrations in leaf cell vacuoles and chloroplasts of a C4 monocotyledonous halophyte.

Author

Oi, Takao, Clode, Peta L, Taniguchi, Mitsutaka, Colmer, Timothy D, and Kotula, Lukasz

Subjects

*XYLEM, *X-ray microanalysis, *CELL compartmentation, *X-ray microscopy, *PLANT performance, *SALT

Abstract

Halophytes accumulate and sequester high concentrations of salt in vacuoles while maintaining lower levels of salt in the cytoplasm. The current data on cellular and subcellular partitioning of salt in halophytes are, however, limited to only a few dicotyledonous C3 species. Using cryo‐scanning electron microscopy X‐ray microanalysis, we assessed the concentrations of Na, Cl, K, Ca, Mg, P and S in various cell types within the leaf‐blades of a monocotyledonous C4 halophyte, Rhodes grass (Chloris gayana). We also linked, for the first time, elemental concentrations in chloroplasts of mesophyll and bundle sheath cells to their ultrastructure and photosynthetic performance of plants grown in nonsaline and saline (200 mM NaCl) conditions. Na and Cl accumulated to the highest levels in xylem parenchyma and epidermal cells, but were maintained at lower concentrations in photosynthetically active mesophyll and bundle sheath cells. Concentrations of Na and Cl in chloroplasts of mesophyll and bundle sheath cells were lower than in their respective vacuoles. No ultrastructural changes were observed in either mesophyll or bundle sheath chloroplasts, and photosynthetic activity was maintained in saline conditions. Salinity tolerance in Rhodes grass is related to specific cellular Na and Cl distributions in leaf tissues, and the ability to regulate Na and Cl concentrations in chloroplasts. [ABSTRACT FROM AUTHOR]

Published

2022

12. The N-terminal intrinsically disordered region mediates intracellular localization and self-oligomerization of ALS2.

Author

Shimakura, Kento, Sato, Kai, Mitsui, Shun, Ono, Suzuka, Otomo, Asako, and Hadano, Shinji

Subjects

*AMINO acid residues, *PHOSPHORYLATION, *MOLECULAR weights, *HELA cells, *PHENOTYPES, *AMYOTROPHIC lateral sclerosis, *GENETIC regulation

Abstract

ALS2, a product of the causative gene for familial amyotrophic lateral sclerosis (ALS) type 2, plays a pivotal role in the regulation of endosome dynamics by activating small GTPase Rab5 via its intrinsic guanine nucleotide-exchange factor activity. Previously, we have reported that the N -terminal region of ALS2 has crucial roles in its endosomal localization and self-oligomerization, both of which are indispensable for the cellular function of ALS2. The N -terminus of ALS2 contains the regulator of chromosome condensation 1-like domain (RLD), which is predicted to form a seven-bladed β-propeller structure. Interestingly, the RLD is interrupted by the intrinsically disordered region (IDR), within which there are several amino acid residues which undergo phosphorylation. In this study, we sought to investigate as to whether and how the IDR as well as phosphorylation at either Ser483, Ser492 or Thr510 affect the intracellular localization and self-oligomerization of ALS2. All phospho- and dephospho-mimetic ALS2 mutants that were transiently expressed in HeLa cells were diffusely distributed throughout the cytosol with a partial localization to early endosomes. When expressed under Rac1-activating conditions, these mutants were localized to membrane ruffles as well as enlarged endosomes. Further, gel-filtration analysis revealed that these mutants primarily existed as a tetramer in cells. However, all these phenotypes were indistinguishable from those of wild-type ALS2. On the other hand, IDR-deleted ALS2 mutant was exclusively present in perinuclear aggregates colocalizing with the autophagy-related protein SQSTM1. Moreover, IDR-deleted ALS2 mutant formed an abnormally high molecular weight complex compared to wild-type ALS2. These results indicate that the IDR of ALS2 plays a crucial role not only in the regulation of intracellular localization but also in the self-oligomerization of ALS2 in cells, whereas phosphorylation of certain residues within the IDR exerts limited effects on such phenotypes. • Phosphorylation of ALS2 has no effect on the intracellular localization of ALS2. • Phosphorylation of ALS2 has no effect on the self-oligomerization of ALS2. • Lack of intrinsically disordered region alters the intracellular localization of ALS2. • Lack of intrinsically disordered region distorts the formation of the ALS2 complex. • The intrinsically disordered region plays crucial roles in the ALS2 function in cells. [ABSTRACT FROM AUTHOR]

Published

2021

13. Fluorescent- and tagged-protoxin II peptides: potent markers of the Nav 1.7 channel pain target.

Author

Montnach, Jérôme, De Waard, Stephan, Nicolas, Sébastien, Burel, Sophie, Osorio, Nancy, Zoukimian, Claude, Mantegazza, Massimo, Boukaiba, Rachid, Béroud, Rémy, Partiseti, Michel, Delmas, Patrick, Marionneau, Céline, and De Waard, Michel

Subjects

*VOLTAGE-gated ion channels, *PAIN management, *NOCICEPTORS, *PEPTIDES, *SODIUM channels, *SENSORIMOTOR integration, *RESEARCH, *PAIN, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *ARTHROPOD venom, *MEMBRANE transport proteins, *RESEARCH funding

Abstract

Background and Purpose: Protoxin II (ProTx II) is a high affinity gating modifier that is thought to selectively block the Nav 1.7 voltage-dependent Na+ channel, a major therapeutic target for the control of pain. We aimed at producing ProTx II analogues entitled with novel functionalities for cell distribution studies and biochemical characterization of its Nav channel targets.Experimental Approach: We took advantage of the high affinity properties of the peptide, combined to its slow off rate, to design a number of new tagged analogues useful for imaging and biochemistry purposes. We used high-throughput automated patch-clamp to identify the analogues best matching the native properties of ProTx II and validated them on various Nav -expressing cells in pull-down and cell distribution studies.Key Results: Two of the produced ProTx II analogues, Biot-ProTx II and ATTO488-ProTx II, best emulate the pharmacological properties of unlabelled ProTx II, whereas other analogues remain high affinity blockers of Nav 1.7. The biotinylated version of ProTx II efficiently works for the pull-down of several Nav isoforms tested in a concentration-dependent manner, whereas the fluorescent ATTO488-ProTx II specifically labels the Nav 1.7 channel over other Nav isoforms tested in various experimental conditions.Conclusions and Implications: The properties of these ProTx II analogues as tools for Nav channel purification and cell distribution studies pave the way for a better understanding of ProTx II channel receptors in pain and their pathophysiological implications in sensory neuronal processing. The new fluorescent ProTx II should also be useful in the design of new drug screening strategies. [ABSTRACT FROM AUTHOR]

Published

2021

14. Role of roots in adaptation of soil-indifferent Proteaceae to calcareous soils in south-western Australia.

Author

Kotula, Lukasz, Clode, Peta L, Ranathunge, Kosala, and Lambers, Hans

Subjects

*PROTEACEAE, *X-ray microanalysis, *ACID soils, *CALCAREOUS soils, *PLANT nutrients

Abstract

Very few of the >650 Proteaceae species in south-western Australia cope with the high calcium (Ca) levels in young, calcareous soils (soil indifferent); most are Ca sensitive and occur on nutrient-impoverished, acidic soils (calcifuge). We assessed possible control points for Ca transport across roots of two soil-indifferent (Hakea prostrata and Banksia prionotes) and two calcifuge (H. incrassata and B. menziesii) Proteaceae. Using quantitative X-ray microanalysis, we investigated cell-specific elemental Ca concentrations at two positions behind the apex in relation to development of apoplastic barriers in roots of plants grown in nutrient solution with low or high Ca supply. In H. prostrata , Ca accumulated in outer cortical cells at 20 mm behind the apex, but [Ca] was low in other cell types. In H. incrassata , [Ca] was low in all cells. Accumulation of Ca in roots of H. prostrata corresponded to development of apoplastic barriers in the endodermis. We found similar [Ca] profiles in roots and similar [Ca] in leaves of two contrasting Banksia species. Soil-indifferent Hakea and Banksia species show different strategies to inhabit calcareous soils: H. prostrata intercepts Ca in roots, reducing transport to shoots, whereas B. prionotes allocates Ca to specific leaf cells. [ABSTRACT FROM AUTHOR]

Published

2021

15. Characterization of the monoclonal antibody specific to the ORF72 protein of koi herpesvirus and cellular distribution analysis of the viral protein.

Author

Wu, Ching‐Wei, Wu, Ting‐Yun, Kuo, Chih‐Jung, Lu, Yi‐Ping, Chien, Maw‐Sheng, and Huang, Chienjin

Subjects

*VIRAL proteins, *MONOCLONAL antibodies, *CELL analysis, *FISH kills, *AMINO acid residues, *PROTEIN analysis

Abstract

Koi herpesvirus (KHV) is an emerging pathogen of koi and common carp that causes a severe disease and mass mortality of infected fish. The KHV ORF72 protein is an important capsid protein that has been suggested to be a candidate for the development of diagnostic reagents and KHV vaccines. The purpose of this study was to clone and express the KHV ORF72 gene for further preparation of a specific monoclonal antibody (mAb) and to analyse cellular distribution of the viral protein. The mAb 3E1 could specifically recognize the expressed ORF72 protein of transfected cells by indirect immunofluorescence, and the antigenic site recognized by the mAb 3E1 was mapped to the region of N‐terminal 124 residues of KHV ORF72. This mAb was further demonstrated to specifically detect the KHV‐infected fish tissue by immunohistochemistry, thereby suggesting its high diagnostic potential. In addition, the cellular distribution analysis of the KHV ORF72 protein revealed that the region of amino acid residues 125–247 was related to mitochondrial localization and proliferation. Furthermore, a putative nuclear export signal (NES) of ORF72 at the residues 201–212 was confirmed on the basis of its function associated with NES activity. [ABSTRACT FROM AUTHOR]

Published

2020

16. Identification of a novel RIG-I isoform and its truncating variant in Japanese eel, Anguilla japonica.

Author

Huang, B., Wang, Z.X., Zhang, C., Zhai, S.W., Han, Y.S., Huang, W.S., and Nie, P.

Subjects

*ANGUILLA japonica, *RNA helicase, *LASER microscopy, *CONFOCAL microscopy, *VIRUS diseases

Abstract

Retinoic acid-inducible gene-I (RIG-I) is a cytoplasmic viral RNA sensor that triggers the production of type I interferons (IFNs) and proinflammatory cytokines during viral infection. RIG-I gene has been identified previously in Japanese eel, Anguilla japonica. In the present study, we have characterized a novel isoform of RIG-I (designated as AjRIG-Ib) and its truncated variant (AjRIG-Ibv). The AjRIG-Ib encodes 940 amino acids (aa) consisting of two N-terminal caspase activation and recruitment domains (CARDs), a DEX(D/H) box RNA helicase domain, and a C-terminal regulatory domain (CTD). The AjRIG-Ibv encodes a protein of 843 aa, that shares similar structural organization with AjRIG-Ib, but lacking CTD. The gene expression analyses showed that AjRIG-Ib and AjRIG-Ibv were detectable in all tissues/organs examined, and AjRIG-Ib was the predominant form. The mRNA level of AjRIG-Ibv was upregulated rapidly at 8 h after the Poly I:C injection, and the significant increase of AjRIG-Ib was observed at 16 and 24 h post-injection (hpi). Laser confocal microscopy showed that AjRIG-Ib and AjRIG-Ibv were both located in cytoplasm. In addition, the overexpression of AjRIG-Ib or AjRIG-Ibv led to the increased activity of IFN promoter in transient transfection assay. Taken together, our results indicated that AjRIG-Ib and AjRIG-Ibv may play cooperative or somewhat complementary roles in coordinating the antiviral response in fish. • A novel isoform of RIG-I and its truncated variant lacking the C-terminal domain were identified in Japanese eel. • The two variants share similar sub-cellular localization and IFN promoter inducibility. • The expression of truncated RIG-I variant increased rapidly upon Poly I:C stimulation. • The two RIG-I variants may play cooperative or complementary roles in antiviral response. [ABSTRACT FROM AUTHOR]

Published

2019

17. Salinity tolerance in chickpea is associated with the ability to 'exclude' Na from leaf mesophyll cells.

Author

Kotula, Lukasz, Clode, Peta L, Jimenez, Juan De La Cruz, and Colmer, Timothy D

Subjects

*CHICKPEA, *X-ray microanalysis, *SALINITY, *PHOTOSYNTHETIC rates, *CELLS

Abstract

Salinity tolerance is associated with Na 'exclusion' from, or 'tissue tolerance' in, leaves. We investigated whether two contrasting chickpea genotypes, salt-tolerant Genesis836 and salt-sensitive Rupali, differ in leaf tissue tolerance to NaCl. We used X-ray microanalysis to evaluate cellular Na, Cl, and K concentrations in various cell types within leaflets and also in secretory trichomes of the two chickpea genotypes in relation to photosynthesis in control and saline conditions. TEM was used to assess the effects of salinity on the ultrastructure of chloroplasts. Genesis836 maintained net photosynthetic rates (A) for the 21 d of salinity treatment (60 mM NaCl), whereas A in Rupali substantially decreased after 11 d. Leaflet tissue [Na] was low in Genesis836 but had increased markedly in Rupali. In Genesis836, Na was accumulated in epidermal cells but was low in mesophyll cells, whereas in Rupali cellular [Na] was high in both cell types. The excessive accumulation of Na in mesophyll cells of Rupali corresponded to structural damage to the chloroplasts. Maintenance of photosynthesis and thus salinity tolerance in Genesis836 was associated with an ability to 'exclude' Na from leaflets and in particular from the photosynthetically active mesophyll cells, and to compartmentalize Na in epidermal cells. [ABSTRACT FROM AUTHOR]

Published

2019

18. Biochar reduced soil extractable Cd but increased its accumulation in rice (Oryza sativa L.) cultivated on contaminated soils.

Author

Li, Honghong, Yu, Yong, Chen, Yanhui, Li, Yunyun, Wang, Mingkuang, and Wang, Guo

Subjects

RICE, BIOCHAR, SOIL pollution

Abstract

Purpose: This study focused on the effects and mechanisms of biochar amendment to Cd-contaminated soil on the uptake and translocation of Cd by rice under flooding conditions.Materials and methods: Pot and batch experiments were conducted using Cd-contaminated soil collected from a field near an ore mining area and a cultivar of Oryza sativa ssp. indica. Biochar derived from rice straw under anaerobic conditions at 500 °C for 2 h was mixed with the soil at the rate of 0, 2.5, and 5%.Results and discussion: The application of 5% biochar reduced CaCl2-extractable soil Cd by 34% but increased Cd concentration in brown rice by 451%. Biochar amendment decreased water-soluble Fe2+ in soils and formation of Fe plaques on roots and weakened the Fe2+-Cd2+ competition at adsorption sites on the root surface. Biochar increased water-soluble Cd in the soil and consequently Cd uptake by rice roots by releasing water-soluble Cl−. Biochar application also reduced the proportion of cell wall-bound Cd in the root, which caused easier Cd translocation from the cortex to the stele in the root and up to the shoot.Conclusions: Rice straw biochar (with high concentration of water-soluble Cl−) reduced CaCl2-extractable soil Cd but increased Cd concentration in rice under flooding condition. [ABSTRACT FROM AUTHOR]

Published

2019

19. Cytotoxicity and Bioimaging Study for NHDF and HeLa Cell Lines by Using Graphene Quantum Pins

Author

Seong-Beom Jeon, Monica Samal, Saravanan Govindaraju, Rupasree Ragini Das, and Kyusik Yun

Subjects

graphene quantum pins, photoluminescence, cytotoxicity, cellular response, cellular distribution, Chemistry, QD1-999

Abstract

Herein, we report the synthesis of an interesting graphene quantum material called “graphene quantum pins (GQPs)”. Morphological analysis revealed the interesting pin shape (width: ~10 nm, length: 50–100 nm) and spectral analysis elucidated the surface functional groups, structural features, energy levels, and photoluminescence properties (blue emission under 365 nm). The difference between the GQPs and graphene quantum dos (GQDs) isolated from the same reaction mixture as regards to their morphological, structural, and photoluminescence properties are also discussed along with the suggestion of a growth mechanism. Cytotoxicity and cellular responses including changes in biophysical and biomechanical properties were evaluated for possible biomedical applications of GQPs. The studies demonstrated the biocompatibility of GQPs even at a high concentration of 512 μg/mL. Our results suggest GQPs can be used as a potential bio-imaging agent with desired photoluminescence property and low cytotoxicity.

Published

2020

20. Changes in the histopathology and in the proteins related to the MAPK pathway in the brains of rats exposed to pre and postnatal radiofrequency radiation over four generations

Author

Burak Tan, Fazile Canturk Tan, Betul Yalcin, Suleyman Dasdag, Korkut Yegin, and Arzu Hanim Yay

Subjects

mitogen activated protein kinase p38, Male, hippocampus, Radio Waves, adverse event, pia mater, brain development, electromagnetism, prenatal exposure, radiation exposure, MAPK signaling, Western blotting, Rats, Sprague-Dawley, Pregnancy, rat, animal, cellular distribution, ERK1/2, Sprague Dawley rat, mitogen activated protein kinase, adult, Brain, Continuous wave, beta actin, fetus, female, brain hemorrhage, cytoplasm, histopathology, Pre and postnatal exposure, radiofrequency radiation, animal experiment, perinatal exposure, progeny, tau protein, Article, animal tissue, brain cortex, Cellular and Molecular Neuroscience, Electromagnetic Fields, gestation period, Animals, glia cell, protein expression, nonhuman, 2450 MHz RF, MAPK, general anesthesia, protein phosphorylation, Rats, mitogen activated protein kinase 3, mitogen activated protein kinase 1, fetus development, pathology, fetus brain, Janus kinase

Abstract

The development of new technologies and industry increases the number and variety of electromagnetic field (EMF) sources. Researcher are increasingly interested in the effects of EMF on brain health. The brain's function is largely dependent on electrical excitability, so it would be expected to be vulnerable to EMF. We therefore investigated the effects of brain development in the fetus, histopathological changes in female rats and the hippocampal level of MAPK proteins in male rats after exposed to pre and postnatal 2450 MHz continuous wave (CW) radiofrequency radiation (RFR) over four generations. Four groups; sham, irradiated female, irradiated male, irradiated male and female, with each consisting of four rats (one male and three females) were created. Rats in the exposure groups were whole-body exposed to 2450 MHz CW-RFR for 12 h/day during the experiment. Irradiation started one month before fertilization in the experimental group. On the 18th day of the gestational period, one pregnant rat from each group was decapitated under general anesthesia and the fetuses were taken. The remaining two pregnant rats completed the normal gestation period. When the offspring were two months old, four rats, one male and three female, were allocated for the second generation study. Next generation animals were also experienced the same processes as the first generation rats. This study were evaluated development of brain in fetuses and histopathological changes in brain of female rats using haematoxylin eosin staining, and the hippocampal level of MAPK proteins in brain of male rats by Western Bloting. We observed hemorrhagic areas, irregular cellular localization and vascular structures in the brain of fetal and adult female rat of exposed groups in the all generations. pERK, ptau, pJNK and pP38 were increased in the brain of adult male rat of exposed groups in the all generations (p < 0.005). Pre and postnatal 2450 MHz continuous wave radiofrequency radiation exposure may cause changes in the function of the MAPK pathway affecting cognitive processes such as learning and memory and may cause damage to both the fetus and adult brain tissue. Also, EMF may have potential to affect brain of future generations. © 2022 Elsevier B.V., TYL-2017-7110, The authors acknowledge the financial support from Erciyes University-The Scientific Research Projects of Turkey (ERUBAP); Project number: TYL-2017-7110 .

Published

2022

21. In silico analyses of dystrophin Dp40 cellular distribution, nuclear export signals and structure modeling

Author

Alejandro Martínez-Herrera, Jorge Aragón, Rosa Ma. Bermúdez-Cruz, Ma. Luisa Bazán, Gabriela Soid-Raggi, Víctor Ceja, Andrea Santos Coy-Arechavaleta, Víctor Alemán, Francisco Depardón, and Cecilia Montañez

Subjects

In silico, Dystrophin Dp40, Cellular distribution, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

Dystrophin Dp40 is the shortest protein encoded by the DMD (Duchenne muscular dystrophy) gene. This protein is unique since it lacks the C-terminal end of dystrophins. In this data article, we describe the subcellular localization, nuclear export signals and the three-dimensional structure modeling of putative Dp40 proteins using bioinformatics tools. The Dp40 wild type protein was predicted as a cytoplasmic protein while the Dp40n4 was predicted to be nuclear. Changes L93P and L170P are involved in the nuclear localization of Dp40n4 protein. A close analysis of Dp40 protein scored that amino acids 93LEQEHNNLV101 and 168LLLHDSIQI176 could function as NES sequences and the scores are lost in Dp40n4. In addition, the changes L93/170P modify the tertiary structure of putative Dp40 mutants. The analysis showed that changes of residues 93 and 170 from leucine to proline allow the nuclear localization of Dp40 proteins. The data described here are related to the research article entitled “EF-hand domains are involved in the differential cellular distribution of dystrophin Dp40” (J. Aragón et al. Neurosci. Lett. 600 (2015) 115–120) [1].

Published

2015

22. Role and therapeutic potential of DEAD-box RNA helicase family in colorectal cancer.

Author

Zheng B, Chen X, Ling Q, Cheng Q, and Ye S

Abstract

Colorectal cancer (CRC) is the third most commonly diagnosed and the second cancer-related death worldwide, leading to more than 0.9 million deaths every year. Unfortunately, this disease is changing rapidly to a younger age, and in a more advanced stage when diagnosed. The DEAD-box RNA helicase proteins are the largest family of RNA helicases so far. They regulate almost every aspect of RNA physiological processes, including RNA transcription, editing, splicing and transport. Aberrant expression and critical roles of the DEAD-box RNA helicase proteins have been found in CRC. In this review, we first summarize the protein structure, cellular distribution, and diverse biological functions of DEAD-box RNA helicases. Then, we discuss the distinct roles of DEAD-box RNA helicase family in CRC and describe the cellular mechanism of actions based on recent studies, with an aim to provide future strategies for the treatment of CRC., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Zheng, Chen, Ling, Cheng and Ye.)

Published

2023

23. Characterization of MyD88 in Japanese eel, Anguilla japonica.

Author

Huang, W.S., Wang, Z.X., Liang, Y., Nie, P., and Huang, B.

Subjects

*MYELOID differentiation factor 88, *INTERLEUKIN-6, *ANGUILLA japonica, *LUCIFERASES, *EDWARDSIELLA tarda

Abstract

Myeloid differentiation factor 88 (MyD88) is a key adaptor protein required for the signaling of all Toll-like receptors except TLR3, which results to the interaction of activated TLR complexes via C-terminal TIR domain and the binding of downstream kinase via N-terminal death domain. In this study, the MyD88 gene from the Japanese eel ( Anguilla japonica ) was identified. The open reading frame of AjMyD88 was 918 bp in length, encoding a protein composed of conserved N-terminal death domain and C-terminal TIR domain, respectively. Multiple alignment revealed highly conserved sites across all examined vertebrate lineages in death and TIR domains. Site-directed mutagenesis and luciferase analysis revealed that the W78A, L91A and L95A mutations in death domain had modest impairment of their ability in activating NF-κB promoter. The expression level of AjMyD88 was investigated by real-time PCR in response to poly I:C stimulation and Edwardsiella tarda infection. Significantly increased MyD88 expression was observed at early phase in all tested tissues/organs in response to E. tarda infection and slight increase was detected in intestine and gill at 16 hpi and in head kidney, spleen and liver at 24 hpi after poly I:C stimulation. Immunofluorescence staining revealed that AjMyD88 is present as condensed forms in the cytoplasm. Taken together, sequence characterization, gene expression and cellular distribution data obtained in this study suggest that AjMyD88, similar to its mammalian ortholog, plays an important role in eel immune response against bacteria. [ABSTRACT FROM AUTHOR]

Published

2018

24. Molecular and Structural Traits of Insulin Receptor Substrate 1/LC3 Nuclear Structures and Their Role in Autophagy Control and Tumor Cell Survival.

Author

Lassak, Adam, Dean, Mathew, Wyczechowska, Dorota, Wilk, Anna, Marrero, Luis, Trillo-Tinoco, Jimena, Boulares, A. Hamid, Sarkaria, Jann N., Del Valle, Luis, Peruzzi, Francesca, Ochoa, Augusto, and Reiss, Krzysztof

Subjects

*INSULIN receptors, *AUTOPHAGY, *INSULIN-like growth factor receptors, *NUCLEOPLASM, *RAPAMYCIN

Abstract

Insulin receptor substrate 1 (IRS-1) is a common cytosolic adaptor molecule involved in signal transduction from insulin and insulin-like growth factor I (IGF-I) receptors. IRS-1 can also be found in the nucleus. We report here a new finding of unique IRS-1 nuclear structures, which we observed initially in glioblastoma biopsy specimens and glioblastoma xenografts. These nuclear structures can be reproduced in vitro by the ectopic expression of IRS-1 cDNA cloned in frame with the nuclear localization signal (NLS-11;IRS-1). In these structures, IRS-1 localizes at the periphery, while the center harbors a key autophagy protein, LC3. These new nuclear structures are highly dynamic, rapidly exchange IRS-1 molecules with the surrounding nucleoplasm, disassemble during mitosis, and require a growth stimulus for their reassembly and maintenance. In tumor cells engineered to express NLS-11;IRS-1, the IRS-1/LC3 nuclear structures repress autophagy induced by either amino acid starvation or rapamycin treatment. In this process, IRS-1 nuclear structures sequester LC3 inside the nucleus, possibly preventing its cytosolic translocation and the formation of new autophagosomes. This novel mechanism provides a quick and reversible way of inhibiting autophagy, which could counteract autophagy-induced cancer cell death under severe stress, including anticancer therapies. [ABSTRACT FROM AUTHOR]

Published

2018

25. Evaluation of physico-mechanical properties in NHDF and HeLa cell with treatment of graphene quantum dots using atomic force microscopy.

Author

Jeon, Seong-Beom, Yi, Se Won, Samal, Monica, Park, Keun-Hong, and Yun, Kyusik

Subjects

*QUANTUM dot synthesis, *HELA cells, *FIBROBLASTS, *BIOCOMPATIBILITY, *ATOMIC force microscopy

Abstract

We investigated the biocompatibility of GQDs in terms of the cellular response, an aspect often overlooked. Herein, we synthesized two types of GQDs – Glu-GQDs (GQDs which are derived from glucose) and Gr-GQDs (GQDs which are derived from graphite) – with different functional groups on their surfaces. Both types of GQDs shared similar morphological features (shape and size distribution); the size distribution varied between 1.5 nm to 9.5 nm in both cases. Spectral analysis confirmed the difference in their chemical composition. The presence of nitrogen and chlorine in the Glu-GQDs is the major distinction between the two types of GQDs. Fluorescence emission of the obtained GQDs was observed at 480 nm for the Glu-GQDs, and at 550 nm for the Gr-GQDs. The cytotoxicity in NHDF and HeLa cell line was evaluated by a CCK-8 assay, and it confirmed that the cell viability was above 80% despite the high concentration (1024 μg/mL) in both cases. Cellular response after GQDs treatment was different from the control, but it was not lethal in the cell viability aspect. Furthermore, the potential of the GQDs as bio-imaging agents was examined using a fluorescence microscope and a laser scanning confocal microscope. The Glu-GQDs dispersed throughout the cells in NHDF and HeLa cell line, while the Gr-GQDs dispersed in the cytoplasm of the NHDF cells, and were distributed throughout the cell in HeLa. This study demonstrates that GQDs have potential in biomedical applications, even though their functionalities may be different. [ABSTRACT FROM AUTHOR]

Published

2018

26. A fluorescent oxaliplatin derivative for investigation of oxaliplatin resistance using imaging techniques.

Author

Kalayda, Ganna, Kullmann, Maximilian, Galanski, Markus, and Gollos, Sabrina

Subjects

*OXALIPLATIN, *COLON cancer treatment, *DRUG resistance in cancer cells, *ANTINEOPLASTIC agents, *CANCER chemotherapy, *CONFOCAL microscopy

Abstract

Oxaliplatin is the backbone of chemotherapy for advanced colorectal cancer and undergoes clinical trials for treatment of other tumour entities. However, acquired resistance is a major hurdle. Confocal microscopy is a useful tool to get an insight into the mechanisms of resistance but it requires fluorescent compounds. This work describes the synthesis of the novel oxaliplatin derivative (CFDA-oxPt) featuring 5(6)-carboxyfluorescein diacetate and evaluation of its applicability for the investigation of oxaliplatin resistance using imaging techniques. CFDA-oxPt was somewhat less cytotoxic than oxaliplatin in sensitive colorectal cancer cells, with EC values of 26 and 5.8 µM, respectively. Nevertheless, the potency of the novel complex was significantly decreased to the EC of 711.2 µM in oxaliplatin-resistant cells, as was the case for oxaliplatin (EC = 81 µM). After incubation, both nuclear and cytosolic localisation was observed. Over time CFDA-oxPt concentrated near the cell membrane and in the vesicular structures, in contrast to the platinum-free label, which was rapidly excreted. These findings suggest that CFDA-oxPt can be used to study oxaliplatin resistance and open the route to new fluorophore-tethered oxaliplatin derivatives. [ABSTRACT FROM AUTHOR]

Published

2017

27. Cellular distribution and warpage deformation in double-sided in-mold decoration combined with microcellular injection molding process.

Author

Yu, Shengrui, Kong, Weijiang, Xu, Lei, Zou, Jiayong, Han, Wen, Liu, Zhihuan, Luo, Jie, Xie, Zhixiang, Wu, Huiting, and Zhou, Huamin

Subjects

*INJECTION molding, *DEFORMATIONS (Mechanics), *THERMAL stresses, *PLASTICS, *TEMPERATURE distribution, *SPLINES

Abstract

A single-sided in-mold decoration combined with microcellular injection molding (S-IMD/MIM) process uses one decorative film to cover apparent defects of light-weight plastic products. The S-IMD/MIM process results in unbalanced temperature and uneven cellular distribution, and consequently large warpage deformation. In order to reduce the warpage, an innovative method is proposed by utilizing double-sided in-mold decoration combined with microcellular injection molding (D -IMD/MIM) process. The method sticks two decorative films to both inner walls of mold cavity for injection molding. This work takes a spline as a sample for numerical simulation and molding experiment. The results show that D -IMD/MIM process brings about balanced temperature distribution inside melts such that cells inside splines are stratified and symmetrically distributed. In such a case, there is less thermal stress inside spline as well as small warpage deformation of spline. By comparison with S-IMD/MIM spline, D -IMD/MIM spline has the warpage with a 71.68 % of reduction. It indicated that D -IMD/MIM process may effectively suppress warpage deformation of molded products. [ABSTRACT FROM AUTHOR]

Published

2023

28. Surface-Enhanced Raman Spectroscopy (SERS) Tracking of Chelerythrine, a Na+/K+ Pump Inhibitor, into Cytosol and Plasma Membrane Fractions of Human Lens Epithelial Cell Cultures

Author

Kevin M. Dorney, Ioana E.P. Sizemore, Tariq Alqahtani, Norma C. Adragna, and Peter K. Lauf

Subjects

Chelerythrine, Human Lens Epithelia, Surface-Enhanced Raman Spectroscopy, Cellular Distribution, Na+/K+ Pump, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: The quaternary benzo-phenanthridine alkaloid (QBA) chelerythrine (CET) is a pro-apoptotic drug and Na+/K+ pump (NKP) inhibitor in human lens epithelial cells (HLECs). In order to obtain further insight into the mechanism of NKP inhibition by CET, its sub-cellular distribution was quantified in cytosolic and membrane fractions of HLEC cultures by surface-enhanced Raman spectroscopy (SERS). Methods: Silver nanoparticles (AgNPs) prepared by the Creighton method were concentrated, and size-selected using a one-step tangential flow filtration approach. HLECs cultures were exposed to 50 μM CET in 300 mOsM phosphate-buffered NaCl for 30 min. A variety of cytosolic extracts, crude and purified membranes, prepared in lysing solutions in the presence and absence of a non-ionic detergent, were incubated with AgNPs and subjected to SERS analysis. Determinations of CET were based on a linear calibration plot of the integrated CET SERS intensity at its 659 cm-1 marker band as a function of CET concentration. Results: SERS detected chemically unaltered CET in both cytosol and plasma membrane fractions. Normalized for protein, the CET content was some 100 fold higher in the crude and purified plasma membrane fraction than in the soluble cytosolic extract. The total free CET concentration in the cytosol, free of membranes or containing detergent-solubilized membrane material, approached that of the incubation medium of HLECs. Conclusion: Given a negative membrane potential of HLECs the data suggest, but do not prove, that CET may traverse the plasma membrane as a positively charged monomer (CET+) accumulating near or above passive equilibrium distribution. These findings may contribute to a recently proposed hypothesis that CET binds to and inhibits the NKP through its cytosolic aspect.

Published

2013

29. Iron quantification with susceptibility.

Author

Ropele, Stefan and Langkammer, Christian

Abstract

Iron is an essential trace element involved in a variety of biological mechanisms in the human body. Disturbances of iron homeostasis have been observed in several inflammatory and degenerative diseases, which have raised strong interest in non-invasive iron mapping techniques. Numerous MRI techniques have been proposed so far, mostly based on the field changes induced by the magnetic properties of iron. Each of these approaches has a specific sensitivity for iron and its microstructural environment. Quantitative susceptibility mapping is the latest development and provides a direct measure of bulk susceptibility. However, field changes induced by iron are not always directly related to the concentration of iron, but rather reflect the structure of iron compounds and its cellular distribution. This review provides an overview of the most relevant iron compounds in the human body, their magnetic properties and their cellular distribution. In addition, MRI methods based on direct or indirect susceptibility changes are presented and discussed with respect to technical aspects and clinical applicability. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2017

30. Differential Cadmium Distribution and Translocation in Roots and Shoots Related to Hyper-Tolerance between Tall Fescue and Kentucky Bluegrass.

Author

Qin Dong, PeiXian Xu, and ZhaoLong Wang

Subjects

CADMIUM, PHYTOREMEDIATION, BLUEGRASSES (Plants)

Abstract

Phytoremediation efficiency mainly depends upon mechanisms in the uptake and translocation of soil contaminants. Cadmium (Cd) distribution and translocation in roots and shoots of tall fescue (Festuca arundinacea) and Kentucky bluegrass (Poa pratensis) were observed using fluorescence spectroscopy with a laser confocal scanning microscope. No difference in root Cd accumulations was detected between these two turfgrass species. Kentucky bluegrass transported more Cd into the stele for root-to-shoot translocation and resulted in significantly higher Cd concentration in leaves. In tall fescue, less Cd was transported into the stele in roots and more Cd was excreted to the cuticle layer in leaves. These results suggested that both turfgrass species were hypertolerant to Cd through distinct distribution patterns in leaves and roots. [ABSTRACT FROM AUTHOR]

Published

2017

31. A Brief History of Charcot-Leyden Crystal Protein/Galectin-10 Research

Author

Jiyong Su

Subjects

Charcot-Leyden crystal protein, Galectin-10, history, cellular distribution, diseases marker, crystal structure, ligand binding specificity, Organic chemistry, QD241-441

Abstract

Eosinophils are present in tissues, such as the respiratory tract, spleen, lymph nodes and blood vessels. The significant presence of eosinophils in these tissues are associated with various diseases, including asthma, allergies, acute myeloid leukemia, etc. Charcot-Leyden crystal protein/galectin-10 is overexpressed in eosinophils and has also been identified in basophils and macrophages. In human body, this protein could spontaneously form Charcot-Leyden crystal in lymphocytes or in the lysates of lymphocytes. At present, the role of Charcot-Leyden crystal protein/galectin-10 in lymphocytes is not fully understood. This review summarizes research progress on Charcot-Leyden crystal protein/galectin-10, with emphasis on its history, cellular distributions, relations to diseases, structures and ligand binding specificity.

Published

2018

32. Cellular distribution of IDH mutations in AML during morphologic remission.

Author

Ramanan, Radha, Tiong, Ing Soo, Ivey, Adam, Ong, Doen Ming, Brown, Fiona C., Chua, Chyn, Das, Tongted, and Curtis, David J.

Subjects

*CANCER remission, *ACUTE myeloid leukemia, *GENETIC mutation, *PRELEUKEMIA

Abstract

Limited information exists about the cellular distribution of mutations which persist in remission in acute myeloid leukemia (AML) (variably considered pre-leukemic mutations). We hypothesized that mutations detectable in all cell compartments may be less pathogenic than those that are myeloid-restricted. Here, we describe the cellular compartments that have IDH mutations in five patients with IDH-mutated AML in morphologic remission. Unlike pre-leukemic clones harboring the more common DNMT3A, TET2 and ASXL1 (DTA) mutations, we show that IDH mutations are myeloid-restricted. This finding provides an explanation for the reports that IDH mutations carry a higher risk for relapse than DTA mutations. Detailed analysis of one case also shows acquisition of additional mutations in distinct cellular compartments, illustrating subclonal complexity associated with therapeutics. [ABSTRACT FROM AUTHOR]

Published

2023

33. Uptake, Translocation, and Distribution of Cyantraniliprole in a Wheat Planting System.

Author

Cao D, Zhang Y, Fu X, Wang F, Wei H, Zhou Q, Huang Y, and Peng W

Subjects

Pyrazoles metabolism, ortho-Aminobenzoates metabolism, Soil, Triticum metabolism, Soil Pollutants metabolism

Abstract

Cyantraniliprole uptake, translocation, and distribution in wheat plants grown in hydroponics and soil conditions were investigated. The hydroponics experiment indicated that cyantraniliprole was prone to be absorbed by wheat roots mainly through the apoplastic pathway and predominately distributed in the cell-soluble fraction (81.4-83.6%) and ultimately transferred upward to leaves (TF leave/stem = 4.84 > TF stem/root = 0.67). In wheat-soil systems, the uptake of cyantraniliprole was similar to that in hydroponics. The accumulation of cyantraniliprole in wheat tissues was mainly affected by the content of soil organic matter and clay, resulting in the increased adsorption of cyantraniliprole onto soils ( R 2 > 0.991, P < 0.01), and was positively related to the concentration of cyantraniliprole in soil pore water ( R 2 > 0.991, P < 0.001). Besides, the absorption of cyantraniliprole by wheat was predicted well by the partition-limited model. These results increased our understanding of the absorption and accumulation of cyantraniliprole in wheat and were also helpful for guiding the practical application and risk evaluation of cyantraniliprole.

Published

2023

34. Distribution and viability of fetal and adult human bone marrow stromal cells in a biaxial rotating vessel bioreactor after seeding on polymeric 3D additive manufactured scaffolds

Author

Anne eLeferink, Yhee-Cheng eChng, Clemens evan Blitterswijk, and Lorenzo eMoroni

Subjects

scaffolds, Bone marrow stromal cells, Cellular distribution, convection-flow bioreactor, perfusion-flow bioreactor, Biotechnology, TP248.13-248.65

Abstract

One of the conventional approaches in tissue engineering is the use of scaffolds in combination with cells to obtain mechanically stable tissue constructs in vitro prior to implantation. Additive manufacturing by fused deposition modeling is a widely used technique to produce porous scaffolds with defined pore network, geometry, and therewith defined mechanical properties. Bone marrow derived mesenchymal stromal cells (MSCs) are promising candidates for tissue engineering based cell therapies due to their multipotent character. One of the hurdles to overcome when combining additive manufactured scaffolds with MSCs is the resulting heterogeneous cell distribution and limited cell proliferation capacity. In this study, we show that the use of a biaxial rotating bioreactor, after static culture of human fetal MSCs (hfMSCs) seeded on synthetic polymeric scaffolds, improved the homogeneity of cell and extracellular matrix (ECM) distribution and increased the total cell number. Furthermore, we show that the relative mRNA expression levels of indicators for stemness and differentiation are not significantly changed upon this bioreactor culture, whereas static culture shows variations of several indicators for stemness and differentiation. The biaxial rotating bioreactor presented here offers a homogeneous distribution of hfMSCs, enabling studies on MSCs fate in additive manufactured scaffolds without inducing undesired differentiation.

Published

2015

35. Foucauldian Docile Body in Dennis Lehane's Shutter Island.

Author

Beheshti, Robab and Shafieyan, Mahdi

Subjects

PSYCHOSES, NORMALIZATION (Sociology), DISCIPLINE, HEALTH facilities, PATIENTS

Abstract

This article presents a Foucauldian reading of Dennis Lehane's Shutter Island. Depicting modern medical facilities, the book demonstrates disciplinary system and power manipulation on psychotic patients who are confined to cellular spaces, and are subjugated under medical gaze. Despite the patients' resistance to the power, they are ultimately expected to be dominated and normalized. The ideas presented in the novel are in line with Foucault's notion of "docile body", discussed in his Discipline and Punish, which are considered as the key concepts of the research and are explored within the designated novels. Power as a penetrating force transforms the individual into a docile being which refers to a submissive and dynamic body; surveillance acts as physics of power and holds a constant gaze on the individual in a way that he is subjugated by the invisible observing power; confinement along with cellular distribution turns the individual to an analytical body. This research aims to explore the docilizing elements and achieved level of normalization within the novel of the study; it tries to investigate the extent to which the gaze held on the patients performs a positive result as discussed by Foucault. The study inspects the response of the body to disciplinary techniques and reveals that in Lehane's novel, the effect of power manipulation is displayed as possibly counter-productive and repressive in docilizing the body which is contradictory to Foucault's positive view of power. [ABSTRACT FROM AUTHOR]

Published

2016

36. The Internalization, Distribution, and Ultrastructure Damage of Silica Nanoparticles in Human Hepatic L-02 Cells.

Author

Li, Yang, Yu, Yang, Duan, Junchao, Li, Zhuolin, Geng, Weijia, Jiang, Lizhen, Wang, Ji, Jin, Minghua, Liu, Xiaomei, and Sun, Zhiwei

Subjects

*ULTRASTRUCTURE (Biology), *SILICA nanoparticles, *LIVER cells, *CELL-mediated cytotoxicity, *ENDOCYTOSIS, *ENDOPLASMIC reticulum, *LYSOSOMES

Abstract

Nowadays, due to the wide use of amorphous silica nanoparticles (SiNPs), their adverse effects on human beings are attracting more attention. Understanding the interaction between SiNPs and cells is a fundamental step for toxicity assessment. Therefore, the current study is aimed at elaborating the internalization process, subcellular distribution, ultrastructure damage, and cytotoxicity of two different sizes of SiNPs (Nano-Si64 and Nano-Si46) in L-02 cells. The results indicate that the smaller-sized SiNPs, Nano-Si46, accumulate in cells more efficiently and produce a stronger cytotoxic effect than Nano-Si64. Both types of nanoparticles can accumulate in L-02 cells through the active endocytotic pathway and passive diffusion, and distribute within endocytotic vesicles or freely in cytoplasma and organelles. Microvillus fracture, membrane injury, mitochondria damage, degranulation of the rough endoplasmic reticulum, lamellar-like structure, lysosome destruction, autophagosomes, and autophagy-lysosomes are found in L-02 cells. Oxidative damage and direct interaction between SiNPs and subcellular structure are responsible for the toxicity. [ABSTRACT FROM AUTHOR]

Published

2016

37. Importin α: a key molecule in nuclear transport and non-transport functions.

Author

Yoichi Miyamoto, Kohji Yamada, and Yoshihiro Yoneda

Subjects

*CELL membranes, *NUCLEOCYTOPLASMIC interactions, *CELL nuclei, *CELLS, *ORGANISMS

Abstract

Importin α performs the indispensable role of ferrying proteins from the cytoplasm into the nucleus with a transport carrier, importin β1. Mammalian cells from mouse or human contain either six or seven importin α subtypes, respectively, each with a tightly regulated expression. Therefore, the combination of subtype expression in a cell defines distinct signaling pathways to achieve progressive changes in gene expression essential for cellular events, such as differentiation. Recent studies reveal that, in addition to nucleocytoplasmic transport, importin αs also serve non-transport functions. In this review, we first discuss the physiological significance of importin α as a nuclear transport regulator, and then focus on the functional diversities of importin αs based on their specific subcellular and cellular localizations, such as the nucleus and plasma membrane. These findings enrich our knowledge of how importin αs actively contribute to various cellular events. [ABSTRACT FROM AUTHOR]

Published

2016

38. Loss of spatial organization and destruction of the pericellular matrix in early osteoarthritis in vivo and in a novel in vitro methodology.

Author

Felka, T., Rothdiener, M., Bast, S., Uynuk-Ool, T., Zouhair, S., Ochs, B.G., De Zwart, P., Stoeckle, U., Aicher, W.K., Hart, M.L., Shiozawa, T., Grodzinsky, A.J., Schenke-Layland, K., Venkatesan, J.K., Cucchiarini, M., Madry, H., Kurz, B., and Rolauffs, B.

Abstract

Objectives: Current repair procedures for articular cartilage (AC) cannot restore the tissue's original form and function because neither changes in its architectural blueprint throughout life nor the respective biological understanding is fully available. We asked whether two unique elements of human cartilage architecture, the chondrocyte-surrounding pericellular matrix (PCM) and the superficial chondrocyte spatial organization (SCSO) beneath the articular surface (AS) are congenital, stable or dynamic throughout life. We hypothesized that inducing chondrocyte proliferation in vitro impairs organization and PCM and induces an advanced osteoarthritis (OA)-like structural phenotype of human cartilage.Methods: We recorded propidium-iodine-stained fetal and adult cartilage explants, arranged stages of organization into a sequence, and created a lifetime-summarizing SCSO model. To replicate the OA-associated dynamics revealed by our model, and to test our hypothesis, we transduced specifically early OA-explants with hFGF-2 for inducing proliferation. The PCM was examined using immuno- and auto-fluorescence, multiphoton second-harmonic-generation (SHG), and scanning electron microscopy (SEM).Results: Spatial organization evolved from fetal homogeneity, peaked with adult string-like arrangements, but was completely lost in OA. Loss of organization included PCM perforation (local micro-fibrillar collagen intensity decrease) and destruction [regional collagen type VI (CollVI) signal weakness or absence]. Importantly, both loss of organization and PCM destruction were successfully recapitulated in FGF-2-transduced explants.Conclusion: Induced proliferation of spatially characterized early OA-chondrocytes within standardized explants recapitulated the full range of loss of SCSO and PCM destruction, introducing a novel in vitro methodology. This methodology induces a structural phenotype of human cartilage that is similar to advanced OA and potentially of significance and utility. [ABSTRACT FROM AUTHOR]

Published

2016

39. Imaging cellular distribution of fluorescent supramolecular nanofibers.

Author

Wang, Jingyu, Zheng, Jing, Cai, Yanbin, Zheng, Jinxin, Gao, Jie, Gong, Qingqiu, and Yang, Zhimou

Abstract

In this study, we used the 4-nitro-2,1,3-benzoxadiazole (NBD) as an aromatic capping group for a peptide to construct the supramolecular nanofibers. Taking the advantage of the fluorescence property of NBD, we could directly observe the cellular distribution of the self-assembled nanofibers. We found that the distributions of the nanofibers of NBD-FFETIGGY are different in four mammalian cells and two plant cells. The nanofibers are mainly located at the surface of two mammalian cells and one plant cell, while in the intracellular space of other cells. Different distributions of nanofibers lead to different protein binding patterns of the nanofibers in two different cell lines. We believe that a useful and versatile platform has been offered to the image cellular distribution of nanofibers, which can provide useful information to the biological functions of the self-assembled nanostructures. [ABSTRACT FROM AUTHOR]

Published

2016

40. Clustering and cellular distribution characteristics of virus particles of Tomato spotted wilt virus and Tomato zonate spot virus in different plant hosts.

Author

Zhongkai Zhang, Kuanyu Zheng, Jiahong Dong, Qi Fang, Jian Hong, and Xifeng Wang

Subjects

*TOMATO disease & pest resistance, *CELL analysis, *PROTEIN analysis, *IMMUNOGLOBULIN analysis, *ELECTRON microscopy

Abstract

Background: Tomato spotted wilt virus (TSWV) and Tomato zonate spot virus (TZSV) are the two dominant species of thrip-transmitted tospoviruses, cause significant losses in crop yield in Yunnan and its neighboring provinces in China. TSWV and TZSV belong to different serogroup of tospoviruses but induce similar symptoms in the same host plant species, which makes diagnostic difficult. We used different electron microscopy preparing methods to investigate clustering and cellular distribution of TSWV and TZSV in the host plant species. Results: Negative staining of samples infected with TSWV and TZSV revealed that particles usually clustered in the vesicles, including single particle (SP), double particles clustering (DPC), triple particles clustering (TPC). In the immunogold labeling negative staining against proteins of TZSV, the antibodies against Gn protein were stained more strongly than the N protein. Ultrathin section and high pressure freeze (HPF)-electron microscopy preparations revealed that TSWV particles were distributed in the cisternae of endoplasmic reticulum (ER), filamentous inclusions (FI) and Golgi bodies in the mesophyll cells. The TSWV particles clustered as multiple particles clustering (MPC) and distributed in globular viroplasm or cisternae of ER in the top leaf cell. TZSV particles were distributed more abundantly in the swollen membrane of ER in the mesophyll cell than those in the phloem parenchyma cells and were not observed in the top leaf cell. However, TZSV virions were mainly present as single particle in the cytoplasm, with few clustering as MPC. Conclusion: In this study, we identified TSWV and TZSV particles had the distinct cellular distribution patterns in the cytoplasm from different tissues and host plants. This is the first report of specific clustering characteristics of tospoviruses particles as well as the cellular distribution of TSWV particles in the FI and globular viroplasm where as TZSV particles inside the membrane of ER. These results indicated that tospoviruses particles possessed specific and similar clustering in the saps of diseased plants. Furthermore, the results of this study will also provide a basis for further study on the tospoviruses assembling, maturation and movement. [ABSTRACT FROM AUTHOR]

Published

2016

41. Methods to Determine and Analyze the Cellular Spatial Distribution Extracted From Multiplex Immunofluorescence Data to Understand the Tumor Microenvironment

Author

Edwin R. Parra

Subjects

Tumor microenvironment, correlation functions, medicine.diagnostic_test, nearest neighbor, QH301-705.5, Spatial interaction, Cell, multiplex immunofluorescence, cellular spatial distribution, Computational biology, Review, Biology, Immunofluorescence, Spatial distribution, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, Phenotype, medicine.anatomical_structure, Cellular distribution, medicine, Multiplex, Molecular Biosciences, matrix construction, Biology (General), Molecular Biology

Abstract

Image analysis using multiplex immunofluorescence (mIF) to detect different proteins in a single tissue section has revolutionized immunohistochemical methods in recent years. With mIF, individual cell phenotypes, as well as different cell subpopulations and even rare cell populations, can be identified with extraordinary fidelity according to the expression of antibodies in an mIF panel. This technology therefore has an important role in translational oncology studies and probably will be incorporated in the clinic. The expression of different biomarkers of interest can be examined at the tissue or individual cell level using mIF, providing information about cell phenotypes, distribution of cells, and cell biological processes in tumor samples. At present, the main challenge in spatial analysis is choosing the most appropriate method for extracting meaningful information about cell distribution from mIF images for analysis. Thus, knowing how the spatial interaction between cells in the tumor encodes clinical information is important. Exploratory analysis of the location of the cell phenotypes using point patterns of distribution is used to calculate metrics summarizing the distances at which cells are processed and the interpretation of those distances. Various methods can be used to analyze cellular distribution in an mIF image, and several mathematical functions can be applied to identify the most elemental relationships between the spatial analysis of cells in the image and established patterns of cellular distribution in tumor samples. The aim of this review is to describe the characteristics of mIF image analysis at different levels, including spatial distribution of cell populations and cellular distribution patterns, that can increase understanding of the tumor microenvironment.

Published

2021

42. Intracellular accumulation, dissolution, and distribution of AIEgen-coated silver nanoparticles in hemocyte subpopulations of oysters.

Author

Luo, Yali, He, Xuewen, and Wang, Wen-Xiong

Subjects

*OYSTERS, *CELL transformation, *BLOOD cells, *LYSOSOMES, *PHAGOSOMES, *MARINE organisms, *GRANULOCYTES

Abstract

Bivalve hemocytes act as the first line of defense against foreign particles and are composed of several subpopulations with different immune functions. In order to elucidate the processes of cellular internalization and transformation of AgNPs in bivalve hemocyte subpopulations, we employed two aggregated-induced emission (AIE) fluorogens AgNPs and Ag+ to study the intracellular behavior of AgNPs in oyster hemocyte subpopulations composed of agranulocytes, semigranulocytes, and granulocytes. Our study demonstrated that the accumulation ability of AIE-AgNPs differed by 4.2-fold, with an order of agranulocytes < semigranulocytes < granulocytes, whereas the dissolution ability differed by 2.4-fold, with an order of agranulocytes > semigranulocytes > granulocytes. Internalized AgNPs caused lysosomal alkalization, which then resulted in the inhibition of AgNP dissolution. Dissolution rate of AIE-AgNPs was 22.5% in the total oyster hemocytes combined, and the dissolved Ag+ was mainly located in lysosomes (71.8%) of granulocytes. During accumulation, 32% of AgNPs were distributed in lysosomes of granulocytes, but increased to 76.7% during the depuration period. Small AgNPs could rapidly enter and dissolve in lysosomes, while large aggregates of AgNPs were first phagocytosed to form phagosomes in the cytoplasm, then fused with lysosomes as time passed. Our results provided important information to understand the intracellular behavior of AgNPs in marine organisms. [Display omitted] • Accumulation of AgNPs increased from agranulocytes, semigranulocytes, and granulocytes. • Dissolution of AgNPs decreased from agranulocytes, semigranulocytes, and granulocytes. • Lysosome alkalization due to AgNPs increased from agranulocytes, semigranulocytes, and granulocytes. • Dissolution rate of AIE-AgNPs was 22.5% in all oyster hemocytes. • More AgNPs was distributed in lysosomes of granulocytes during the depuration period. [ABSTRACT FROM AUTHOR]

Published

2022

43. Gomphrena claussenii, a novel metal-hypertolerant bioindicator species, sequesters cadmium, but not zinc, in vacuolar oxalate crystals.

Author

Villafort Carvalho, Mina T., Pongrac, Paula, Mumm, Roland, Arkel, Jeroen, Aelst, Adriaan, Jeromel, Luka, Vavpetič, Primož, Pelicon, Primož, and Aarts, Mark G. M.

Subjects

*PHYSIOLOGICAL effects of zinc, *ZINC compounds, *SYMPATRIC speciation, *TRANSITION metals, *OXALATES

Abstract

Gomphrena claussenii is a recently described zinc (Zn)- and cadmium (Cd)-hypertolerant Amaranthaceae species displaying a metal bioindicator Zn/Cd accumulation response. We investigated the Zn and Cd distribution in stem and leaf tissues of G. claussenii at the cellular level, and determined metabolite profiles to investigate metabolite involvement in Zn and Cd sequestration., Gomphrena claussenii plants exposed to high Zn and Cd supply were analysed by scanning electron microscopy with energy-dispersive X-ray ( SEM- EDX) and micro-proton-induced X-ray emission (micro- PIXE). In addition, gas chromatography-time of flight-mass spectrometry ( GC- TOF- MS) was used to determine metabolite profiles on high Zn and Cd exposure., Stem and leaf tissues of G. claussenii plants exposed to control and high Cd conditions showed the abundant presence of calcium oxalate (CaOx) crystals, but on high Zn exposure, their abundance was strongly reduced. Ca and Cd co-localized to the CaOx crystals in Cd-exposed plants. Citrate, malate and oxalate levels were all higher in shoot tissues of metal-exposed plants, with oxalate levels induced 2.6-fold on Zn exposure and 6.4-fold on Cd exposure., Sequestration of Cd in vacuolar CaOx crystals of G. claussenii is found to be a novel mechanism to deal with Cd accumulation and tolerance. [ABSTRACT FROM AUTHOR]

Published

2015

44. Alternative Splicing, Expression and Cellular Localization of Calneuron-1 in the Rat and Human Brain.

Author

Hradsky, Johannes, Bernstein, Hans-Gert, Marunde, Monika, Mikhaylova, Marina, and Kreutz, Michael R.

Subjects

ALTERNATIVE RNA splicing, CEREBELLUM, CELL membranes, NEUROGLIA, IMMUNOBLOTTING

Abstract

Calneuron-1 and -2 are members of the neuronal calcium-binding protein family (nCaBP). They are transmembrane Calmodulin-like EF-hand Ca2+-sensors, and a function in the control of Golgi-to-plasma membrane vesicle trafficking has been assigned to both proteins. In this paper, we describe the distribution of Calneuron-1 in rat and human brains. We show that Calneuron-1 is ubiquitously expressed in all brain regions examined. The protein is most abundant in Purkinje cells of the cerebellum and principal neurons of the cortex and limbic brain whereas no expression in glial cells is apparent. In addition, we identify two novel splice isoforms of Calneuron-1 with extended N-termini. These isoforms are particular abundant in the cerebellum. Taken together, these data set grounds for a better understanding of the cellular function of Calneurons. [ABSTRACT FROM AUTHOR]

Published

2015

45. The Biological Activity of Zeise's Salt and its Derivatives.

Author

Meieranz, Sandra, Stefanopoulou, Maria, Rubner, Gerhard, Bensdorf, Kerstin, Kubutat, Dominic, Sheldrick, William S., and Gust, Ronald

Subjects

*CYCLOOXYGENASES, *CISPLATIN, *CHEMICAL synthesis, *BINDING sites, *PHARMACOLOGY

Abstract

With the aim to design new biologically active bioinorganic drugs of aspirin, whose mode of action is based on the inhibition of the cyclooxygenase(COX) enzymes, derivatives of Zeise's salt were synthesized in this structure-activity relationship study. Surprisingly, not only these Zeise-aspirin compounds but also Zeise's salt itself showed high inhibitory potency against COX enzymes in in vitro assays. In contrast, potassium tetrachloroplatinate and cisplatin did not influence the enzyme activity at equimolar concentrations. It was demonstrated by LC-ESI tandem-mass spectrometry that Zeise's salt platinates the essential amino acids Tyr385 (active site of the enzyme) and Ser516 (will be acetylated by aspirin) of COX-1, thereby strongly impairing the function of the enzyme. This finding demonstrates for the first time that Zeise's salt is pharmacologically active and is a potent enzyme inhibitor. [ABSTRACT FROM AUTHOR]

Published

2015

46. Monofunctional Platinum(II) Anticancer Agents

Author

Suxing Jin, Xiaoyong Wang, Zijian Guo, and Yan Guo

Subjects

drug design, Pharmaceutical Science, chemistry.chemical_element, lcsh:Medicine, lcsh:RS1-441, Review, 010402 general chemistry, 01 natural sciences, lcsh:Pharmacy and materia medica, Drug Discovery, Tumor selectivity, medicine, metal-based drug, anticancer drug, monofunctional platinum complex, Cisplatin, 010405 organic chemistry, lcsh:R, Anticancer drug, Combinatorial chemistry, 0104 chemical sciences, chemistry, Cellular distribution, Cancer cell, Molecular Medicine, Platinum, medicine.drug

Abstract

Platinum-based anticancer drugs represented by cisplatin play important roles in the treatment of various solid tumors. However, their applications are largely compromised by drug resistance and side effects. Much effort has been made to circumvent the drug resistance and general toxicity of these drugs. Among multifarious designs, monofunctional platinum(II) complexes with a general formula of [Pt(3A)Cl]+ (A: Ammonia or amine) stand out as a class of “non-traditional” anticancer agents hopeful to overcome the defects of current platinum drugs. This review aims to summarize the development of monofunctional platinum(II) complexes in recent years. They are classified into four categories: fluorescent complexes, photoactive complexes, targeted complexes, and miscellaneous complexes. The intention behind the designs is either to visualize the cellular distribution, or to reduce the side effects, or to improve the tumor selectivity, or inhibit the cancer cells through non-DNA targets. The information provided by this review may inspire researchers to conceive more innovative complexes with potent efficacy to shake off the drawbacks of platinum anticancer drugs.

Published

2021

47. Cytotoxicity and Bioimaging Study for NHDF and HeLa Cell Lines by Using Graphene Quantum Pins

Author

Rupasree Ragini Das, Saravanan Govindaraju, Monica Samal, Kyusik Yun, and Seong-Beom Jeon

Subjects

Photoluminescence, Materials science, biology, Biocompatibility, Graphene, General Chemical Engineering, Nanotechnology, biology.organism_classification, graphene quantum pins, cellular response, Article, law.invention, HeLa, lcsh:Chemistry, lcsh:QD1-999, law, Cell culture, cytotoxicity, General Materials Science, Spectral analysis, photoluminescence, Cytotoxicity, Quantum, cellular distribution

Abstract

Herein, we report the synthesis of an interesting graphene quantum material called &ldquo, graphene quantum pins (GQPs)&rdquo, Morphological analysis revealed the interesting pin shape (width: ~10 nm, length: 50&ndash, 100 nm) and spectral analysis elucidated the surface functional groups, structural features, energy levels, and photoluminescence properties (blue emission under 365 nm). The difference between the GQPs and graphene quantum dos (GQDs) isolated from the same reaction mixture as regards to their morphological, structural, and photoluminescence properties are also discussed along with the suggestion of a growth mechanism. Cytotoxicity and cellular responses including changes in biophysical and biomechanical properties were evaluated for possible biomedical applications of GQPs. The studies demonstrated the biocompatibility of GQPs even at a high concentration of 512 &mu, g/mL. Our results suggest GQPs can be used as a potential bio-imaging agent with desired photoluminescence property and low cytotoxicity.

Published

2020

48. Speciation and localization of Zn in the hyperaccumulator Sedum alfredii by extended X-ray absorption fine structure and micro-X-ray fluorescence.

Author

Lu, Lingli, Liao, Xingcheng, Labavitch, John, Yang, Xiaoe, Nelson, Erik, Du, Yonghua, Brown, Patrick H., and Tian, Shengke

Subjects

*ZINC content of plants, *HYPERACCUMULATOR plants, *SEDUM, *X-ray absorption, *X-ray fluorescence

Abstract

Differences in metal homeostasis among related plant species can give important information of metal hyperaccumulation mechanisms. Speciation and distribution of Zn were investigated in a hyperaccumulating population of Sedum alfredii by using extended X-ray absorption fine structure and micro-synchrotron X-ray fluorescence ( μ -XRF), respectively. The hyperaccumulator uses complexation with oxygen donor ligands for Zn storage in leaves and stems, and variations in the Zn speciation was noted in different tissues. The dominant chemical form of Zn in leaves was most probably a complex with malate, the most prevalent organic acid in S. alfredii leaves. In stems, Zn was mainly associated with malate and cell walls, while Zn–citrate and Zn–cell wall complexes dominated in the roots. Two-dimensional μ -XRF images revealed age-dependent differences in Zn localization in S. alfredii stems and leaves. In old leaves of S. alfredii , Zn was high in the midrib, margin regions and the petiole, whereas distribution of Zn was essentially uniform in young leaves. Zinc was preferentially sequestered by cells near vascular bundles in young stems, but was highly localized to vascular bundles and the outer cortex layer of old stems. The results suggest that tissue- and age-dependent variations of Zn speciation and distribution occurred in the hyperaccumulator S. alfredii , with most of the Zn complexed with malate in the leaves, but a shift to cell wall– and citric acid–Zn complexes during transportation and storage in stems and roots. This implies that biotransformation in Zn complexation occurred during transportation and storage processes in the plants of S. alfredii . [ABSTRACT FROM AUTHOR]

Published

2014

49. Synthesis, antiproliferative activity and DNA binding properties of novel 5-Aminobenzimidazo[1,2-a]quinoline-6-carbonitriles.

Author

Perin, Nataša, Nhili, Raja, Ester, Katja, Laine, William, Karminski-Zamola, Grace, Kralj, Marijeta, David-Cordonnier, Marie-Hélène, and Hranjec, Marijana

Subjects

*ANTINEOPLASTIC agents, *DNA-binding proteins, *BENZIMIDAZOLES, *QUINOLINE, *CARBONITRILES, *CHEMICAL synthesis

Abstract

Abstract: The synthesis of 5-amino substituted benzimidazo[1,2-a]quinolines prepared by microwave assisted amination from halogeno substituted precursor was described. The majority of compounds were active at micromolar concentrations against colon, lung and breast carcinoma cell lines in vitro. The N,N-dimethylaminopropyl 9 and piperazinyl substituted derivative 19 showed the most pronounced activity towards all of the three tested tumor cell lines, which could be correlated to the presence of another N heteroatom and its potential interactions with biological targets. The DNA binding studies, consisting of UV/Visible absorbency, melting temperature studies, and fluorescence and circular dichroism titrations, revealed that compounds 9, 19 and 20 bind to DNA as strong intercalators. The cellular distribution analysis, based on compounds’ intrinsic fluorescence, showed that compound 20 does not enter the cell, while compounds 9 and 19 do, which is in agreement with their cytotoxic effects. Compound 9 efficiently targets the nucleus whereas 19, which also showed DNA intercalating properties in vitro, was mostly localised in the cytoplasm suggesting that the antitumor mechanism of action is DNA-independent. [Copyright &y& Elsevier]

Published

2014

50. Single-walled carbon nanohorns decorated with semiconductor quantum dots to evaluate intracellular transport.

Author

Zimmermann, Kristen, Inglefield, David, Zhang, Jianfei, Dorn, Harry, Long, Timothy, Rylander, Christopher, and Rylander, M.

Subjects

*SINGLE walled carbon nanotubes, *SEMICONDUCTOR quantum dots, *CANCER chemotherapy, *CANCER treatment, *NANOMEDICINE, *FLUORESCENCE, *OPTICAL properties of nanostructured materials

Abstract

Single-walled carbon nanohorns (SWNHs) have great potential to enhance thermal and chemotherapeutic drug efficiencies for cancer therapies. Despite their diverse capabilities, minimal research has been conducted so far to study nanoparticle intracellular transport, which is an important step in designing efficient therapies. SWNHs, like many other carbon nanomaterials, do not have inherent fluorescence properties making intracellular transport information difficult to obtain. The goals of this project were to (1) develop a simple reaction scheme to decorate the exohedral surface of SWNHs with fluorescent quantum dots (QDs) and improve conjugate stability, and (2) evaluate SWNH-QD conjugate cellular uptake kinetics and localization in various cancer cell lines of differing origins and morphologies. In this study, SWNHs were conjugated to CdSe/ZnS core/shell QDs using a unique approach to carbodiimide chemistry. Transmission electron microscopy and electron dispersive spectroscopy verified the conjugation of SWNHs and QDs. Cellular uptake kinetics and efficiency were characterized in three malignant cell lines: U-87 MG (glioblastoma), MDA-MB-231 (breast cancer), and AY-27 (bladder transitional cell carcinoma) using flow cytometry. Cellular distribution was verified by confocal microscopy, and cytotoxicity was also evaluated using an alamarBlue assay. Results indicate that cellular uptake kinetics and efficiency are highly dependent on cell type, highlighting the significance of studying nanoparticle transport at the cellular level. Nanoparticle intracellular transport investigations may provide information to optimize treatment parameters (e.g., SWNH concentration, treatment time, etc.) depending on tumor etiology. [ABSTRACT FROM AUTHOR]

Published

2014