Literature DB >> 28270450

Ssb1 and Ssb2 cooperate to regulate mouse hematopoietic stem and progenitor cells by resolving replicative stress.

Wei Shi1, Therese Vu1,2, Didier Boucher1, Anna Biernacka3, Jules Nde4, Raj K Pandita5, Jasmin Straube1, Glen M Boyle1, Fares Al-Ejeh1, Purba Nag1,6, Jessie Jeffery1, Janelle L Harris1, Amanda L Bain1, Marta Grzelak3, Magdalena Skrzypczak3, Abhishek Mitra4, Norbert Dojer4, Nicola Crosetto7, Nicole Cloonan1, Olivier J Becherel2,8, John Finnie9, Jeffrey R Skaar10, Carl R Walkley11, Tej K Pandita5, Maga Rowicka4, Krzysztof Ginalski3, Steven W Lane1,2,12, Kum Kum Khanna1.   

Abstract

Hematopoietic stem and progenitor cells (HSPCs) are vulnerable to endogenous damage and defects in DNA repair can limit their function. The 2 single-stranded DNA (ssDNA) binding proteins SSB1 and SSB2 are crucial regulators of the DNA damage response; however, their overlapping roles during normal physiology are incompletely understood. We generated mice in which both Ssb1 and Ssb2 were constitutively or conditionally deleted. Constitutive Ssb1/Ssb2 double knockout (DKO) caused early embryonic lethality, whereas conditional Ssb1/Ssb2 double knockout (cDKO) in adult mice resulted in acute lethality due to bone marrow failure and intestinal atrophy featuring stem and progenitor cell depletion, a phenotype unexpected from the previously reported single knockout models of Ssb1 or Ssb2 Mechanistically, cDKO HSPCs showed altered replication fork dynamics, massive accumulation of DNA damage, genome-wide double-strand breaks enriched at Ssb-binding regions and CpG islands, together with the accumulation of R-loops and cytosolic ssDNA. Transcriptional profiling of cDKO HSPCs revealed the activation of p53 and interferon (IFN) pathways, which enforced cell cycling in quiescent HSPCs, resulting in their apoptotic death. The rapid cell death phenotype was reproducible in in vitro cultured cDKO-hematopoietic stem cells, which were significantly rescued by nucleotide supplementation or after depletion of p53. Collectively, Ssb1 and Ssb2 control crucial aspects of HSPC function, including proliferation and survival in vivo by resolving replicative stress to maintain genomic stability.
© 2017 by The American Society of Hematology.

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Year:  2017        PMID: 28270450      PMCID: PMC5418634          DOI: 10.1182/blood-2016-06-725093

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  67 in total

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