Litcius/Paper detail

RNA binding proteins control the G <sub>2</sub> -M checkpoint of the germinal center B cell

Fiamma Salerno, Alex Whale, Louise S. Matheson, Davide Vespasiani, William S. Foster, Twm J. Mitchell, Michael Screen, Melanie Stammers, Sarah E. Bell, Daniel J. Hodson, Hamish W. King, Michelle A. Linterman, Jonathan Houseley, Martin Turner

2025Science Immunology7 citationsDOI

Abstract

The germinal center (GC) reaction drives the production of high-affinity antibodies by iterative cycles of B cell somatic hypermutation, selection, and proliferation. How GC B cells undergo rapid cell division while maintaining genome stability is poorly understood. Here, we show that the RNA binding proteins ZFP36L1 and ZFP36L2 act downstream of antigen sensing and protect GC B cells from replication stress by controlling a cell cycle–related posttranscriptional regulon. They safeguard the successful completion of mitosis by balancing CDK1 and p21-mediated regulation of cell-cycle progression. In their absence, GC B cells are prone to arrest in the G 2 -M phase and die by apoptosis, resulting in curtailed GC responses. DNA replication forks stalled at active replication initiation zones, causing replication stress and increased activity of the ATR-CHK1 DNA damage response. Thus, RNA binding proteins guide posttranscriptional gene regulation and maintain a functional G 2 -M checkpoint in GC B cells.

Topics & Concepts

Germinal centerCell biologyDNA replicationBiologyCell cycleB cellMolecular biologyDDB1ChemistryMitosisRNAControl of chromosome duplicationRNA-binding proteinGeneCell cycle checkpointSomatic cellCyclin-dependent kinase 1CHEK1Replication factor CDNACell divisionDNA-binding proteinS phaseOrigin recognition complexLicensing factorSomatic hypermutationProtein biosynthesisSeqA protein domainEukaryotic DNA replicationT-cell and B-cell ImmunologyDNA Repair MechanismsUbiquitin and proteasome pathways