Impact of the interplay between stemness features, p53 and pol iota on replication pathway choices.

Using human embryonic, adult and cancer stem cells/stem cell-like cells (SCs), we demonstrate that DNA replication speed differs in SCs and their differentiated counterparts. While SCs decelerate DNA replication, differentiated cells synthesize DNA faster and accumulate DNA damage. Notably, both replication phenotypes depend on p53 and polymerase iota (POL?). By ...
exploring protein interactions and newly synthesized DNA, we show that SCs promote complex formation of p53 and POL? at replication sites. Intriguingly, in SCs the translocase ZRANB3 is recruited to POL? and required for slow-down of DNA replication. The known role of ZRANB3 in fork reversal suggests that the p53-POL? complex mediates slow but safe bypass of replication barriers in SCs. In differentiated cells, POL? localizes more transiently to sites of DNA synthesis and no longer interacts with p53 facilitating fast POL?-dependent DNA replication. In this alternative scenario, POL? associates with the p53 target p21, which antagonizes PCNA poly-ubiquitination and, thereby potentially disfavors the recruitment of translocases. Altogether, we provide evidence for diametrically opposed DNA replication phenotypes in SCs and their differentiated counterparts putting DNA replication-based strategies in the spotlight for the creation of therapeutic opportunities targeting SCs.
Mesh Terms:
Cell Differentiation, Cells, Cultured, DNA Helicases, DNA Replication, DNA-Directed DNA Polymerase, Embryonic Stem Cells, Humans, Neoplastic Stem Cells, Stem Cells, Stress, Physiological, Tumor Suppressor Protein p53
Nucleic Acids Res
Date: Dec. 21, 2020
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