Oocyte DNA Damage Quality Control Requires Consecutive Interplay of CHK2 and CK1 to Activate P63

Overview

Journal Nat Struct Mol Biol

Specialties Cell Biology
Molecular Biology

Date 2018 Feb 28

PMID 29483652

Citations 80

Authors

Marcel Tuppi

Sebastian Kehrloesser

Daniel W Coutandin

Valerio Rossi

Laura M Luh

Alexander Strubel

Katharina Hotte

Meike Hoffmeister

Birgit Schafer

Tiago De Oliveira

Florian Greten

Ernst H K Stelzer

Stefan Knapp

Massimo De Felici

Christian Behrends

Francesca Gioia Klinger

Volker Dotsch

Affiliations

Soon will be listed here.

Abstract

The survival rate of cancer patients is steadily increasing, owing to more efficient therapies. Understanding the molecular mechanisms of chemotherapy-induced premature ovarian insufficiency (POI) could identify targets for prevention of POI. Loss of the primordial follicle reserve is the most important cause of POI, with the p53 family member p63 being responsible for DNA-damage-induced apoptosis of resting oocytes. Here, we provide the first detailed mechanistic insight into the activation of p63, a process that requires phosphorylation by both the priming kinase CHK2 and the executioner kinase CK1 in mouse primordial follicles. We further describe the structural changes induced by phosphorylation that enable p63 to adopt its active tetrameric conformation and demonstrate that previously discussed phosphorylation by c-Abl is not involved in this process. Inhibition of CK1 rescues primary oocytes from doxorubicin and cisplatin-induced apoptosis, thus uncovering a new target for the development of fertoprotective therapies.

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