A Differentiation Checkpoint Limits Hematopoietic Stem Cell Self-renewal in Response to DNA Damage

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2012 Mar 6

PMID 22385964

Citations 181

Authors

Jianwei Wang

Qian Sun

Yohei Morita

Hong Jiang

Alexander Gross

Andre Lechel

Kai Hildner

Luis Miguel Guachalla

Anne Gompf

Daniel Hartmann

Axel Schambach

Torsten Wuestefeld

Daniel Dauch

Hubert Schrezenmeier

Wolf-Karsten Hofmann

Hiromitsu Nakauchi

Zhenyu Ju

Hans A Kestler

Lars Zender

K Lenhard Rudolph

Affiliations

Soon will be listed here.

Abstract

Checkpoints that limit stem cell self-renewal in response to DNA damage can contribute to cancer protection but may also promote tissue aging. Molecular components that control stem cell responses to DNA damage remain to be delineated. Using in vivo RNAi screens, we identified basic leucine zipper transcription factor, ATF-like (BATF) as a major component limiting self-renewal of hematopoietic stem cells (HSCs) in response to telomere dysfunction and γ-irradiation. DNA damage induces BATF in a G-CSF/STAT3-dependent manner resulting in lymphoid differentiation of HSCs. BATF deletion improves HSC self-renewal and function in response to γ-irradiation or telomere shortening but results in accumulation of DNA damage in HSCs. Analysis of bone marrow from patients with myelodysplastic syndrome supports the conclusion that DNA damage-dependent induction of BATF is conserved in human HSCs. Together, these results provide experimental evidence that a BATF-dependent differentiation checkpoint limits self-renewal of HSCs in response to DNA damage.

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