Induction of tissue-specific premature stem cell aging via Lef1 deficiency promotes senescence-like deterioration in remote organs

Author:

Ikuno Yasuaki1,Watanabe Koichiro1,Kakeya Yumi1,Ikeno Shinsuke1,Nakabo Toshimasa1,Narumoto Ayano1,Kande Yukie1,Hayashi Tomoki1,Minami Kahori1,Nobuhiro Kasumi1,Mabuchi Yo2,Nakamura Shiho3,Okano Hideyuki3ORCID,Ihara Dai1,Katsuyama Yu1,Naka-Kaneda Hayato1ORCID

Affiliation:

1. Shiga University of Medical Science

2. Juntendo University School of Medicine

3. Keio University School of Medicine

Abstract

Abstract Molecular mechanisms of aging specific to each stem cell (SC) are being elucidated. However, the common molecular basis for senescence in various SCs remains largely unexplored. Here, we have shown that the dysregulation of DNA damage response (DDR) modulated by lymphoid enhancer-binding factor 1 (Lef1) and DDR-microRNAs (DDR-miRs) is the common molecular basis for aging in SCs. We identified Lef1as the most repressed transcription factor with aging in common between mesenchymal stem/stromal cells (MSCs) and hematopoietic stem/progenitor cells. Like the expression profiles of aged MSCs, Lef1 knockdown reduced broad microRNAs and loss of induction of DDR-miRs in young MSCs. DDR capacity was also diminished in aged SCs in vivo. Moreover, Lef1 deficiency in intestinal stem cells induced precocious dysregulation of DDR and inflammation and senescence in the remote brain. This study demonstrates that the Lef1/DDR-miR axis is the common molecular basis underlying SC aging.

Publisher

Research Square Platform LLC

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