Litcius/Paper detail

Release of CHK-2 from PPM-1.D anchorage schedules meiotic entry

Antoine Baudrimont, Dimitra Paouneskou, Ariz Mohammad, Raffael Lichtenberger, Joshua Blundon, Yumi Kim, Markus Hartl, Sebastian Falk, Tim Schedl, Verena Jantsch

2022Science Advances17 citationsDOIOpen Access PDF

Abstract

Transition from the stem/progenitor cell fate to meiosis is mediated by several redundant posttranscriptional regulatory pathways in Caenorhabditis elegans . Interfering with all three branches causes tumorous germ lines. SCF PROM-1 comprises one branch and mediates a scheduled degradation step at entry into meiosis. prom-1 mutants show defects in the timely initiation of meiotic prophase I events, resulting in high rates of embryonic lethality. Here, we identify the phosphatase PPM-1.D/Wip1 as crucial substrate for PROM-1. We report that PPM-1.D antagonizes CHK-2 kinase, a key regulator for meiotic prophase initiation, including DNA double-strand breaks, chromosome pairing, and synaptonemal complex formation. We propose that PPM-1.D controls the amount of active CHK-2 via both catalytic and noncatalytic activities; notably, noncatalytic regulation seems to be crucial at meiotic entry. PPM-1.D sequesters CHK-2 at the nuclear periphery, and programmed SCF PROM-1 –mediated degradation of PPM-1.D liberates the kinase and promotes meiotic entry.

Topics & Concepts

Cell biologyMeiosisCaenorhabditis elegansProphaseBiologyMaturation promoting factorChemistryGeneticsCellCell cycleCyclin-dependent kinase 1GeneDNA Repair MechanismsMicrotubule and mitosis dynamicsGenetics, Aging, and Longevity in Model Organisms