Compromise in mRNA processing machinery in senescent human fibroblasts: implications for a novel potential role of Phospho-ATR (ser428)

Abstract

Ataxia-Telangiectasia and Rad3 related kinase (ATR) is a major gatekeeper of genomic stability and has been the subject of exhaustive study in the context of cell cycle progression and senescence as a DNA damage-induced response. Conditional knockout of the kinase in adult mice results in accelerated aging phenomena, such as such hair graying, alopecia, kyphosis, osteoporosis, thymic involution, fibrosis, and other abnormalities. In addition to that, recent reports strongly implicate signaling mediated by this kinase in the regulation of alternative splicing of certain, mostly cancer-associated transcripts. Interest to the function of mRNA synthesis and processing is constantly increasing as severe degenerative diseases, such as cancer, cystic fibrosis and Hutchinson-Gilford progeria syndrome are at least partly attributed to these abnormalities. In light of the above, we investigate the RNA processing machinery in senescent fibroblasts as opposed to young, either exponentially proliferating or quiescent, further focusing on the distribution and localization of active, phosphorylated ATR at ser428. This study implicates the spatiotemporal presence of the phosphorylated kinase in the regulation of mRNA splicing and polyadenylation. This function appears perturbed in senescent cells, accompanied by a distinct pattern of phospho-ATR in the senescent nucleus.