Molecular Insights Into Withaferin-A-Induced Senescence: Bioinformatics and Experimental Evidence to the Role of NFκB and CARF

Priyanshu Bhargava, Vidhi Malik, Ye Liu, Jihoon Ryu, Sunil C Kaul, Durai Sundar, Renu Wadhwa
2018 The journals of gerontology. Series A, Biological sciences and medical sciences  
Withaferin-A (Wi-A) has been shown to possess anticancer activity. Molecular mechanism(s) of its action has not been fully resolved. We recruited low dose of Wi-A that caused slow growth arrest in cancer cells and was relatively safe for normal cells. Consistently, we detected nuclear translocation of nuclear factor kappa B (NFκB) and activation of p38MAPK selectively in cancer cells. Bioinformatics analyses revealed that Wi-A did not disrupt IKKα/IKKβ-Nemo complex that regulates NFκB activity.
more » ... However, it caused moderate change in the conformation of IKKβ-Nemo interacting domain. Experimental data revealed increased level of phosphorylated IκBα in Wi-A-treated cells, suggesting an activation of IKK complex that was supported by nuclear translocation of NFκB. Molecular docking analysis showed that Wi-A did not disrupt; however, decreased the stability of the NFκB-DNA complex. It was supported by downregulation of DNA-binding and transcriptional activities of NFκB. Further analysis revealed that Wi-A caused upregulation of CARF (collaborator of ARF) demonstrating an activation of DNA damage oxidative stress response in both cancer and normal cells. In line with this, upregulation of p21 WAF1 , p16 INK4A , and hypophosphorylated pRB and induction of senescence were observed demonstrating that Wi-A-induced senescence is mediated by multiple pathways in which CARF-mediated DNA damage and oxidative stress play a major role.
doi:10.1093/gerona/gly107 pmid:29718136 fatcat:56fkmmb6xfbazel2wmmhff7q5e