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1. Mesenchymal stem cells show functional defect and decreased anti-cancer effect after exposure to chemotherapeutic drugs

Author

Chinnapaka Somaiah, Atul Kumar, Renu Sharma, Amit Sharma, Trishna Anand, Jina Bhattacharyya, Damodar Das, Sewali Deka Talukdar, and Bithiah Grace Jaganathan

Subjects
Bone marrow stroma, Chemotherapy, Chemoprotection, Leukemia, Osteoblasts, IL6, Medicine
Abstract

Abstract Background Mesenchymal stem cells (MSC) are used for several therapeutic applications to improve the functions of bone, cardiac, nervous tissue as well as to facilitate the repopulation of hematopoietic stem cells. MSC give rise to the non-hematopoietic stromal cells of the bone marrow and are important for the maintenance of normal hematopoiesis. Chemotherapeutic drugs used for treatment of leukemia extensively damage the stromal cells and alter their gene expression profiles. Methods We determined the changes in adipogenic, osteogenic differentiation, phenotypic and gene expression in MSC during treatment with chemotherapeutic drugs cytarabine, daunorubicin and vincristine. We also tested anti-cancer effects of drug treated MSC on leukemia cells. Results Treatment with the chemotherapeutic drugs resulted in functional defects in MSC, leading to reduced proliferation, osteogenic and adipogenic differentiation. The drug treated MSC also showed decreased expression of cell surface receptors, and the changes in proliferation, phenotype and differentiation defect was partially reversible after withdrawing the drugs from the cells. The drug treated MSC showed increased expression of cytokines, IL6, FGF2 and TNFA but reduced levels of differentiation markers SOX9 and ACTC1. Drug treated MSC also contributed to reduced anti-cancer effects in leukemia cells. Conclusions Chemotherapeutic drug treatment altered the phenotype, osteogenic and adipogenic differentiation potential of MSC and modified the gene expression profile of the cells to render them more chemoprotective of the leukemic cells. Thus, additional therapeutic efforts to target the stromal cell population will help in preventing chemoresistance, disease relapse in leukemia and to maintain a healthy bone marrow stroma.

Published
2018
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3. Collagen Promotes Higher Adhesion, Survival and Proliferation of Mesenchymal Stem Cells.

Author

Chinnapaka Somaiah, Atul Kumar, Darilang Mawrie, Amit Sharma, Suraj Dasharath Patil, Jina Bhattacharyya, Rajaram Swaminathan, and Bithiah Grace Jaganathan

Subjects
Medicine, Science
Abstract

Mesenchymal stem cells (MSC) can differentiate into several cell types and are desirable candidates for cell therapy and tissue engineering. However, due to poor cell survival, proliferation and differentiation in the patient, the therapy outcomes have not been satisfactory. Although several studies have been done to understand the conditions that promote proliferation, differentiation and migration of MSC in vitro and in vivo, still there is no clear understanding on the effect of non-cellular bio molecules. Of the many factors that influence the cell behavior, the immediate cell microenvironment plays a major role. In this context, we studied the effect of extracellular matrix (ECM) proteins in controlling cell survival, proliferation, migration and directed MSC differentiation. We found that collagen promoted cell proliferation, cell survival under stress and promoted high cell adhesion to the cell culture surface. Increased osteogenic differentiation accompanied by high active RHOA (Ras homology gene family member A) levels was exhibited by MSC cultured on collagen. In conclusion, our study shows that collagen will be a suitable matrix for large scale production of MSC with high survival rate and to obtain high osteogenic differentiation for therapy.

Published
2015
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5. Vitamin K3 derivative inhibits androgen receptor signaling in targeting aggressive prostate cancer cells.

Author

Chinnapaka, Somaiah, Bakthavachalam, Velavan, Dasari, Subramanyam, Kannan, Jhishnuraj, Sapkota, Sworaj, Kumar, Raj, and Munirathinam, Gnanasekar

Subjects
*AFRICAN American men, *ANTIGEN receptors, *MENADIONE, *WESTERN immunoblotting, *VITAMIN K
Abstract

Prostate cancer (PCa) is the second critical cause of cancer‐related deaths, with African Americans dying at higher rates in the U.S. The main reasons for the higher mortality rate are ethnic differences and lack of understanding of prostate cancer biology and affordable treatments, as well as the financial burden of African American men to obtain the most effective and safe treatments. The effect of micronutrients, including Vitamin K, on various cancer cell lines has been widely studied, but the potential anticancer effect of VK3‐OCH3, an analog of vitamin K3 (Menadione), on African American prostate cancer has not been evaluated. In this study, we compared the anticancer effect of VK3‐OCH3 on targeting African American derived PCa cell lines namely RC77‐T and MDA‐PCa‐2b. Our results show that VK3‐OCH3 significantly inhibits the proliferation of both RC77‐T and MDA‐PCa‐2b African American PCa cells and promotes apoptosis, and the underlying mechanism of cell death appears to be similar in both the cell lines. Notably, VK3‐OCH3 inhibits colony‐forming ability and induces apoptosis by blocking the cell cycle at G0 in African American PCa cells. VK3‐OCH3 also acts as an anti‐metastatic agent by inhibiting the migration ability of the metastatic properties of African American PCa cells. The cell death of African American PCa cells mediated by VK3‐OCH3 is associated with the production of free radicals, such as intracellular and mitochondrial reactive oxygen species (ROS). Interestingly, antioxidants such as N‐Acetylcysteine (NAC) and Glutathione (GSH) effectively negated the oxidative stress induced by VK3‐OCH3 on PCa cell lines derived from African American patients. Of note, VK3‐OCH3 reduces androgen receptor and prostate‐specific antigen expression in these PCa cells. Furthermore, molecular dynamic studies reiterated that VK3‐OCH3 strongly binds to the androgen receptor, suggesting that the androgen receptor is the potential molecular target of VK3‐OCH3. In addition, Western blot analysis showed that VK3‐OCH3 reduces the expression of androgen receptor, TRX2, and anti‐apoptotic signaling molecules such as Bcl‐2 and TCTP in the MDA‐PCa‐2b metastatic PCa cellular model. In conclusion, our results suggested that VK3‐OCH3 is a promising anticancer agent that could potentially reduce the mortality rates of African American PCa patients, warranting further preclinical and translational studies. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Mesenchymal stem cells show functional defect and decreased anti-cancer effect after exposure to chemotherapeutic drugs

Author

Amit Sharma, Damodar Das, Jina Bhattacharyya, Bithiah Grace Jaganathan, Renu Sharma, Atul Kumar, Trishna Anand, Sewali Deka Talukdar, and Chinnapaka Somaiah

Subjects
0301 basic medicine, Vincristine, Stromal cell, FGF2, Daunorubicin, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, lcsh:Medicine, Antineoplastic Agents, 03 medical and health sciences, 0302 clinical medicine, medicine, Chemotherapy, Pharmacology (medical), Chemoprotection, Molecular Biology, Cell Proliferation, Leukemia, Osteoblasts, business.industry, Research, lcsh:R, Biochemistry (medical), Mesenchymal stem cell, Cytarabine, Cell Differentiation, Mesenchymal Stem Cells, Cell Biology, General Medicine, medicine.disease, IL6, Haematopoiesis, 030104 developmental biology, medicine.anatomical_structure, Bone marrow stroma, 030220 oncology & carcinogenesis, Antigens, Surface, Cancer research, Bone marrow, Stem cell, Transcriptome, business, medicine.drug
Abstract

Background Mesenchymal stem cells (MSC) are used for several therapeutic applications to improve the functions of bone, cardiac, nervous tissue as well as to facilitate the repopulation of hematopoietic stem cells. MSC give rise to the non-hematopoietic stromal cells of the bone marrow and are important for the maintenance of normal hematopoiesis. Chemotherapeutic drugs used for treatment of leukemia extensively damage the stromal cells and alter their gene expression profiles. Methods We determined the changes in adipogenic, osteogenic differentiation, phenotypic and gene expression in MSC during treatment with chemotherapeutic drugs cytarabine, daunorubicin and vincristine. We also tested anti-cancer effects of drug treated MSC on leukemia cells. Results Treatment with the chemotherapeutic drugs resulted in functional defects in MSC, leading to reduced proliferation, osteogenic and adipogenic differentiation. The drug treated MSC also showed decreased expression of cell surface receptors, and the changes in proliferation, phenotype and differentiation defect was partially reversible after withdrawing the drugs from the cells. The drug treated MSC showed increased expression of cytokines, IL6, FGF2 and TNFA but reduced levels of differentiation markers SOX9 and ACTC1. Drug treated MSC also contributed to reduced anti-cancer effects in leukemia cells. Conclusions Chemotherapeutic drug treatment altered the phenotype, osteogenic and adipogenic differentiation potential of MSC and modified the gene expression profile of the cells to render them more chemoprotective of the leukemic cells. Thus, additional therapeutic efforts to target the stromal cell population will help in preventing chemoresistance, disease relapse in leukemia and to maintain a healthy bone marrow stroma. Electronic supplementary material The online version of this article (10.1186/s12929-018-0407-7) contains supplementary material, which is available to authorized users.

Published
2018
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25. Additional file 2: Figure S1. of Mesenchymal stem cells show functional defect and decreased anti-cancer effect after exposure to chemotherapeutic drugs

Author

Chinnapaka Somaiah, Kumar, Atul, Sharma, Renu, Sharma, Amit, Trishna Anand, Jina Bhattacharyya, Damodar Das, Sewali Deka Talukdar, and Bithiah Jaganathan

Abstract

Dose response curve and chemoprotection of leukemia cells by MSC. a-c Dose response curve showing percentage of live cells after treatment with indicated concentrations of CYT, DAU and VIN after 48 h. d THP1 leukemia cells were cultured for 48 h in the absence of MSC (CON) or in the presence of MSC (+MSC) or in the presence of drug pre-treated MSC (+PRE-TR MSC). The cells were treated with CYT (10mM), DAU (0.1mM) for 48 h and apoptosis percentage was analyzed flow cytometrically. Values are mean+SD, n=3 samples. *p

Published
2018
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26. Additional file 1: Table S1. of Mesenchymal stem cells show functional defect and decreased anti-cancer effect after exposure to chemotherapeutic drugs

Author

Chinnapaka Somaiah, Kumar, Atul, Sharma, Renu, Sharma, Amit, Trishna Anand, Jina Bhattacharyya, Damodar Das, Sewali Deka Talukdar, and Bithiah Jaganathan

Abstract

Dose response curve and chemoprotection of leukemia cells by MSC. a-c Dose response curve showing percentage of live cells after treatment with indicated concentrations of CYT, DAU and VIN after 48 h. d THP1 leukemia cells were cultured for 48 h in the absence of MSC (CON) or in the presence of MSC (+MSC) or in the presence of drug pre-treated MSC (+PRE-TR MSC). The cells were treated with CYT (10mM), DAU (0.1mM) for 48 h and apoptosis percentage was analyzed flow cytometrically. Values are mean+SD, n=3 samples. *p

Published
2018
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30. Repurposing antidepressant sertraline as a pharmacological drug to target prostate cancer stem cells: dual activation of apoptosis and autophagy signaling by deregulating redox balance.

Author

Chinnapaka S, Bakthavachalam V, and Munirathinam G

Abstract

Cancer stem cells play a major role in tumor initiation, progression, and tumor relapse of prostate cancer (PCa). Recent studies suggest that Translationally Controlled Tumor Protein (TCTP) is a critical survival factor of stem cells including cancer stem cells. Here, we aimed to determine whether the TCTP inhibitor sertraline (STL) could target prostate cancer stem cells (PCSC). In colony formation, spheroidogenesis, angiogenesis, and wound healing assays STL showed a robust inhibition of tumorigenic (colony growth), angiogenic (endothelial tube formation) and metastatic (wound healing and migration) potential of PCSC. Interestingly, antioxidants such as N-acetyl cysteine (NAC), Glutathione (GSH) and catalase effectively blocked the cytotoxicity effect of STL on PCSC implicating oxidative stress as the underlying anti-PCSC targeting mechanism. Cell cycle analysis showed a robust G 0 arrest in PCSC exposed to STL. Notably, STL induced both apoptosis and autophagy by activating free radical generation, hydrogen peroxide formation (H 2 O 2 ), lipid peroxidation (LPO) and depleted the levels of glutathione (GSH). Moreover, surface marker expression analysis using confocal revealed that STL significantly down regulates the expression levels of aldehyde dehydrogenase 1 (ALDH1) and cluster of differentiation 44 (CD44) stem cell markers. Furthermore, in western blot analysis, STL treatment applied in a dose-dependent manner, caused a marked decrease in TCTP, phospho TCTP, anti-apoptotic markers survivin and cellular inhibitor of apoptosis protein 1 (cIAP1) expression as well as a significant increase in cleaved caspase3 and cleaved Poly [ADP-ribose] polymerase 1 (PARP-1) expression. Of note, STL also significantly down regulated the stem cell markers (ALDH1 and CD44) and epithelial to mesenchymal transition (EMT) markers such as transcription factor 8 (TCF8) and lymphoid enhancer-binding factor-1 (LEF1) expression levels. Concurrently, STL increased the levels of autophagy markers such as light chain (LC3), Beclin1 and autophagy-related gene (ATG5). Taken together, our study suggests that STL could be an effective therapeutic agent in eliminating prostate cancer stem cells., Competing Interests: None., (AJCR Copyright © 2020.)

Published
2020

31. Nitro aspirin (NCX4040) induces apoptosis in PC3 metastatic prostate cancer cells via hydrogen peroxide (H 2 O 2 )-mediated oxidative stress.

Author

Chinnapaka S, Zheng G, Chen A, and Munirathinam G

Subjects
Aspirin pharmacology, Cell Movement drug effects, Cell Proliferation drug effects, Humans, Male, Oxidants pharmacology, Prostatic Neoplasms drug therapy, Prostatic Neoplasms metabolism, Tumor Cells, Cultured, Wound Healing, Apoptosis drug effects, Aspirin analogs & derivatives, Hydrogen Peroxide pharmacology, Nitro Compounds pharmacology, Oxidative Stress drug effects, Prostatic Neoplasms pathology
Abstract

Non-steroidal anti-inflammatory drugs (NSAID) have shown promise as anticancer agents by inducing cell death apart from their antipyretic, anti-inflammatory and anti-thrombogenic effects. In our current study, we investigated the oxidative stress mediated cell death mechanism of a NSAID derivative NCX4040 (a nitric oxide (NO) releasing form of aspirin) in castration-resistant prostate cancer (CRPC) PC3 cell line. Our data revealed that NCX4040 is more potent than its parent compound aspirin or NO releasing compound DETA NONOate. NCX4040 significantly induced hydrogen peroxide formation with ensuing oxidative stress and mitochondrial depolarization resulting in lipid peroxidation, cell cycle arrest, inhibition of colony growth and induction of apoptosis in PC3 cells. Moreover, NCX4040 inhibited migration potential of PC3 cells by depolymerizing F-actin and promoting anoikis. Interestingly, elevated levels of NADPH oxidase 1 (NOX1), superoxide dismutase (SOD) 1 and 2 were observed upon NCX4040 treatment. However, down regulation of anti-apoptotic markers B-cell lymphoma 2 (Bcl2) and anti-oxidant thioredoxin reductase 1 (TXNRD1) expression were observed. In addition, NCX4040 down regulated cyclin D1 expression in PC3 cells further supporting the anticancer effect of NCX4040. Western blot analysis revealed that significant down regulation of key anti-apoptotic markers such as cellular inhibitor of apoptosis protein-1 (cIAP1), X-linked inhibitor of apoptosis (XIAP), survivin, and Cellular-Myc (c-Myc). On the other hand, NCX4040-treated cells showed upregulation of phosho histone H2AX (pH2AX), cleaved caspase3 and cleaved Poly [ADP-ribose] polymerase 1 (PARP1). Taken together, our data demonstrate that NCX4040 treatment enhances free radical formation which in turn induces oxidative stress leading to mitochondrial mediated cell death in metastatic PC3 cells., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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