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Merck
  • Deacetylation of FOXP1 by HDAC7 potentiates self-renewal of mesenchymal stem cells.

Deacetylation of FOXP1 by HDAC7 potentiates self-renewal of mesenchymal stem cells.

Stem cell research & therapy (2023-07-29)
Shifeng Ling, Tienan Chen, Shaojiao Wang, Wei Zhang, Rujiang Zhou, Xuechun Xia, Zhengju Yao, Ying Fan, Song Ning, Jiayin Liu, Lianju Qin, Haley O Tucker, Niansong Wang, Xizhi Guo
摘要

Mesenchymal stem cells (MSCs) are widely used in a variety of tissue regeneration and clinical trials due to their multiple differentiation potency. However, it remains challenging to maintain their replicative capability during in vitro passaging while preventing their premature cellular senescence. Forkhead Box P1 (FOXP1), a FOX family transcription factor, has been revealed to regulate MSC cell fate commitment and self-renewal capacity in our previous study. Mass spectra analysis was performed to identify acetylation sites in FOXP1 protein. Single and double knockout mice of FOXP1 and HDAC7 were generated and analyzed with bone marrow MSCs properties. Gene engineering in human embryonic stem cell (hESC)-derived MSCs was obtained to evaluate the impact of FOXP1 key modification on MSC self-renewal potency. FOXP1 is deacetylated and potentiated by histone deacetylase 7 (HDAC7) in MSCs. FOXP1 and HDAC7 cooperatively sustain bone marrow MSC self-renewal potency while attenuating their cellular senescence. A mutation within human FOXP1 at acetylation site (T176G) homologous to murine FOXP1 T172G profoundly augmented MSC expansion capacity during early passages. These findings reveal a heretofore unanticipated mechanism by which deacetylation of FOXP1 potentiates self-renewal of MSC and protects them from cellular senescence. Acetylation of FOXP1 residue T172 as a critical modification underlying MSC proliferative capacity. We suggest that in vivo gene editing of FOXP1 may provide a novel avenue for manipulating MSC capability during large-scale expansion in clinical trials.

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Sigma-Aldrich
抗-FoxP1抗体, serum, from rabbit