Literature DB >> 32396938

MDH1-mediated malate-aspartate NADH shuttle maintains the activity levels of fetal liver hematopoietic stem cells.

Hao Gu1, Chiqi Chen1, Xiaoxin Hao1, Ni Su2, Dan Huang1, Yejun Zou2, Shu-Hai Lin3, Xianjun Chen2, Denghao Zheng1, Ligen Liu1, Zhuo Yu1, Li Xie1, Yaping Zhang1, Xiaoxiao He1, Xiaoyun Lai1, Xiaocui Zhang1, Guo-Qiang Chen1, Yuzheng Zhao2, Yi Yang2,4, Joseph Loscalzo5, Junke Zheng1,6.   

Abstract

The connections between energy metabolism and stemness of hematopoietic stem cells (HSCs) at different developmental stages remain largely unknown. We generated a transgenic mouse line for the genetically encoded NADH/NAD+ sensor (SoNar) and demonstrate that there are 3 distinct fetal liver hematopoietic cell populations according to the ratios of SoNar fluorescence. SoNar-low cells had an enhanced level of mitochondrial respiration but a glycolytic level similar to that of SoNar-high cells. Interestingly, 10% of SoNar-low cells were enriched for 65% of total immunophenotypic fetal liver HSCs (FL-HSCs) and contained approximately fivefold more functional HSCs than their SoNar-high counterparts. SoNar was able to monitor sensitively the dynamic changes of energy metabolism in HSCs both in vitro and in vivo. Mechanistically, STAT3 transactivated MDH1 to sustain the malate-aspartate NADH shuttle activity and HSC self-renewal and differentiation. We reveal an unexpected metabolic program of FL-HSCs and provide a powerful genetic tool for metabolic studies of HSCs or other types of stem cells.
© 2020 by The American Society of Hematology.

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Year:  2020        PMID: 32396938      PMCID: PMC7393259          DOI: 10.1182/blood.2019003940

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


  55 in total

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