Project description:Withaferin A (WA) is a lactone extracted from Withania somnifera commonly known as Ashwagandha. WA has several therapeutic benefits. The current study was aimed to identify biomarkers that could be targeted by WA in prostate cancer (PCA) cells. We have used SILAC approach to identify WA-regulated proteins at 4 h and 24 time points in three PCA cell lines such as LNCaP, 22Rv1 and DU-145. Ontology prediction suggested that WA treatment can upregulate stress-responsive pathways and shutdown translation and cell metabolism to conserve energy. The cytoprotective stress granule (SG) protein G3BP1 showed upregulation in all the three tested cell lines in response to WA treatment, and subsequently, SGs formed at a higher rate in the WA treated cells. Knockdown (KD) of G3BP1 blocked WA-induced SG formation and reduced the cell survival. We speculate that the activation of G3BP1 and the formation of SGs might constitute a mechanism by which PCA cells induce cell protection after WA- treatment. Knock down of SG proteins such as G3BP1 could help to evade the cytoprotective effects of WA and to assist in the sensitization of cells.

Project description:Withaferin A (WA), a major chemical component of an Indian herb Withania somnifera, induces cell death (apoptosis/necrosis) in a variety of tumor cells, but its molecular mechanism remains elusive. We report that WA induces cell death selectively in high-grade prostate (PC-3 and DU-145) and tongue (SAS) cancer cells but not in normal human fibroblast (TIG-1) and low-grade prostate cancer (LNCaP) cells.

Project description:Withaferin A (WA), a major chemical component of an Indian herb Withania somnifera, induces cell death (apoptosis/necrosis) in a variety of tumor cells, but its molecular mechanism remains elusive. We report that WA induces cell death selectively in high-grade prostate (PC-3 and DU-145) and tongue (SAS) cancer cells but not in normal human fibroblast (TIG-1) and low-grade prostate cancer (LNCaP) cells. To identify genes whose expression levels were up- or down-regulated in prostate cancer cells following WA treatment, we examined the transcriptome profiles of mRNA prepared from TIG-1, LNCaP, PC-3 and DU-145 cells using Agilent’s Whole Human Genome Microarray.

Project description:Multiple myeloma (MM) is an incurable hematological malignancy characterized by the uncontrolled growth of plasma cells in the bone marrow. The major barrier in treating MM is the occurrence of primary and acquired therapy resistance to multiple existing anti-cancer drugs. Often, this therapy resistance is associated with constitutive activation of Bruton tyrosine kinase (BTK) dependent B-cell receptor (BCR) signaling. Novel kinase inhibitors covalently targeting BCR signaling, including the clinically approved BTK inhibitor ibrutinib (IBR) and the preclinical phytochemical Withaferin A (WA), have therefore gained pharmaceutical interest. Remarkably, glucocorticoid (GC)-resistant MM cells overexpressing BTK are more sensitive to WA then to IBR. To further characterize the kinase inhibitor profiles of WA and IBR in GC-resistant MM cells, we applied phosphopeptidome- and transcriptome-specific tyrosine kinome profiling. Our results demonstrate that WA treatment triggers dual inhibition of BCR signaling by transcriptional downregulation and covalent cysteine-dependent kinase inhibition of BTK. Covalent interaction between WA and BTK could further be confirmed by biotin-based affinity purification and confocal imaging microscopy. Altogether, we show that covalent BCR-BTK kinase inhibition by WA represents an attractive strategy to treat GC-resistant MM.

Project description:This study was amied to identify the diffenetiall expressed miRNAs in Withaferin A (WA) treated breast normal cells (MCF10A) in comparision to non-treated cells

Project description:Triple negative breast cancer (TNBC) is characterized by poor prognosis and a DNA hypomethylation profile. Withaferin A (WA) is a plant derived steroidal lactone which holds promise as a therapeutic agent for treatment of breast cancer (BC). We determined genome-wide DNA methylation changes in weakly-metastatic and aggressive, metastatic BC cell lines, following 72h treatment to a subcytotoxic concentration of WA. In contrast to the DNA demethylating agent 5-aza-2’- deoxycytidine (DAC), WA treatment of MDA-MB-231 cells rather tackles an epigenetic cancer network through gene-specific DNA hypermethylation of tumor promoting genes including ADAM metallopeptidase domain 8 (ADAM8), urokinase-type plasminogen activator (PLAU), tumor necrosis factor (ligand) superfamily, member 12 (TNFSF12), and genes related to detoxification (glutathione S-transferase mu 1, GSTM1), or mitochondrial metabolism (malic enzyme 3, ME3). Gene expression and pathway enrichment analysis further reveals epigenetic suppression of multiple cancer hallmarks associated with cell cycle regulation, cell death, cancer cell metabolism, cell motility and metastasis. Remarkably, DNA hypermethylation of corresponding CpG sites in PLAU, ADAM8, TNSF12, GSTM1 and ME3 genes correlates with receptor tyrosine-protein kinase erbB-2 amplification (HER2)/estrogen receptor (ESR)/ progesterone receptor (PR) status in primary BC tumors. Moreover, upon comparing differentially methylated WA responsive target genes with DNA methylation changes in different clinical subtypes of breast cancer patients in the cancer genome atlas (TCGA), we found that WA silences HER2/PR/ESR-dependent gene expression programs to suppress aggressive TNBC characteristics in favor of luminal BC hallmarks, with an improved therapeutic sensitivity. In this respect, WA may represent a novel and attractive phyto-pharmaceutical for TNBC treatment.

Project description:Withaferin A isolated from Withania somnifera (Ashwagandha) has recently become an attractive phytochemical under investigation in various preclinical studies for treatment of different cancer types. In the present study, a comparative pathway-based transcriptome analysis was applied in epithelial-like MCF-7 and triple negative mesenchymal MDA-MB-231 breast cancer cells exposed to concentrations of Withaferin A (WA) which can be detected systemically in in vivo experiments. Whereas WA revealed attenuation of multiple cancer hallmarks the withanolide analogue Withanone (WN), did not exert any of the described effects in these cells at comparable concentrations. Pathway enrichment analysis identified that WA targeted relevant cancer programs related to cell death, cell cycle and proliferation, which could functionally be validated flow cytometrically and by real-time proliferation xCELLigence assay. With respect to cell motility, invasion and metastasis processes, WA was found to strongly decrease MDA-MB-231 invasion as determined by single-cell collagen invasion assay. This is further supported by gene expression changes which demonstrate increased expression of a validated breast cancer metastasis suppressor gene (BRMS1) and concomitant decreased expression of extracellular matrix-degrading proteases (PLAU, PLAT, ADAM8), cell adhesion molecules (integrins, laminins) as well as pro-inflammatory mediators of the metastasis-promoting tumor microenvironment (TNFSF12, IL6, ANGPTL2, CSF1R). Subsequent in silico network analysis listed key node transcription factors regulating these processes (p53, E2F1, CDKN2A, NRF2) and revealed the role of chromatin modifying enzymes (p300, JARID1B) as central master switches, linking multiple anticancer activities of WA. Furthermore, hierarchical clustering analysis of 84 chromatin writer-reader-eraser enzymes revealed that WA treatment of invasive mesenchymal MDA-MB-231 cells reprogrammed their transcription levels more similarly towards the pattern observed in non-invasive MCF-7 cells. In conclusion, taking in account that sub-cytotoxic concentrations of WA target multiple metastatic effectors in therapy resistant triple negative breast cancer, WA based therapeutic strategies hold promise for further (pre)clinical development to defeat aggressive metastatic breast cancer. Total RNA from 2 different cell lines treated with WA, are compared to their untreated states

Project description:Withaferin A isolated from Withania somnifera (Ashwagandha) has recently become an attractive phytochemical under investigation in various preclinical studies for treatment of different cancer types. In the present study, a comparative pathway-based transcriptome analysis was applied in epithelial-like MCF-7 and triple negative mesenchymal MDA-MB-231 breast cancer cells exposed to concentrations of Withaferin A (WA) which can be detected systemically in in vivo experiments. Whereas WA revealed attenuation of multiple cancer hallmarks the withanolide analogue Withanone (WN), did not exert any of the described effects in these cells at comparable concentrations. Pathway enrichment analysis identified that WA targeted relevant cancer programs related to cell death, cell cycle and proliferation, which could functionally be validated flow cytometrically and by real-time proliferation xCELLigence assay. With respect to cell motility, invasion and metastasis processes, WA was found to strongly decrease MDA-MB-231 invasion as determined by single-cell collagen invasion assay. This is further supported by gene expression changes which demonstrate increased expression of a validated breast cancer metastasis suppressor gene (BRMS1) and concomitant decreased expression of extracellular matrix-degrading proteases (PLAU, PLAT, ADAM8), cell adhesion molecules (integrins, laminins) as well as pro-inflammatory mediators of the metastasis-promoting tumor microenvironment (TNFSF12, IL6, ANGPTL2, CSF1R). Subsequent in silico network analysis listed key node transcription factors regulating these processes (p53, E2F1, CDKN2A, NRF2) and revealed the role of chromatin modifying enzymes (p300, JARID1B) as central master switches, linking multiple anticancer activities of WA. Furthermore, hierarchical clustering analysis of 84 chromatin writer-reader-eraser enzymes revealed that WA treatment of invasive mesenchymal MDA-MB-231 cells reprogrammed their transcription levels more similarly towards the pattern observed in non-invasive MCF-7 cells. In conclusion, taking in account that sub-cytotoxic concentrations of WA target multiple metastatic effectors in therapy resistant triple negative breast cancer, WA based therapeutic strategies hold promise for further (pre)clinical development to defeat aggressive metastatic breast cancer.

Project description:RNA-Seq reveals novel mechanistic targets of withaferin A (WA) in prostate cancer cells

Project description:TMT-MS of whole cell lysate collected from 22Rv1 castration-resistant prostate cancer cells treated with 5 µM JG-98 for 4 hours.