P53-driven replication stress in nucleoli of malignant epithelial ovarian cancer

Abstract

Malignancies including ovarian cancer (OvCa) are genetically unstable. Genomic integrity is maintained by tumor suppressor p53 and DNA damage response network, which crosstalk to each other via not well characterized mechanisms. In this work, we characterize features of damage-related signals in cultured epithelial OvCa cells and tumor biopsies. We found that endogenous burden of DNA damage in OvCa tissues were ubiquitously accumulated in high-grade malignancies than lower grade of cancer that cannot be obviously explained by disturbed function of in DNA damage response (DDR). In contrast, CHK1 phosphorylation (CHK1-pS345) marking the checkpoint activation in nucleolar compartments are prevalent in high-grade OvCa, coincident to the elevated DNA damage in nucleoplasm. Generation of CHK1-pS345 requires the presence of p53 protein in addition to the well-known activities of ATM/ATR kinases. Apparently, mutant forms of p53 possess higher activity in triggering CHK1 phosphorylation than wild type, implying a potential role of p53 in maintaining rDNA integrity. Loss of p53 function would cause replication stress in nucleoli. Altogether, our study reveals endogenous nucleoli stress in OvCa that is coupled to perturbed function of p53 in DNA repair.