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. 2024 Oct;4(10):1477-1492.
doi: 10.1038/s43587-024-00669-1. Epub 2024 Jul 17.

A metabolic atlas of blood cells in young and aged mice identifies uridine as a metabolite to rejuvenate aged hematopoietic stem cells

Xiangjun Zeng #  1   2   3 Ce Shi #  1   2   3 Yingli Han #  1   2   3 Kejia Hu #  1   2   3 Xiaoqing Li #  1   2   3 Cong Wei #  1   2   3 Lijuan Ding  4 Jiazhen Cui  1   2   3 Simao Huang  1   2   3 Yulin Xu  1   2   3 Meng Zhang  1   2   3 Wei Shan  1   2   3 Qian Luo  1   2   3 Jian Yu  1   2   3 Zhongzheng Zheng  5 Xia Li  6   7   8 Pengxu Qian  9   10   11   12 He Huang  13   14   15
Affiliations

A metabolic atlas of blood cells in young and aged mice identifies uridine as a metabolite to rejuvenate aged hematopoietic stem cells

Xiangjun Zeng et al. Nat Aging. 2024 Oct.

Abstract

Aging of hematopoietic stem cells (HSCs) is accompanied by impaired self-renewal ability, myeloid skewing, immunodeficiencies and increased susceptibility to malignancies. Although previous studies highlighted the pivotal roles of individual metabolites in hematopoiesis, comprehensive and high-resolution metabolomic profiles of different hematopoietic cells across ages are still lacking. In this study, we created a metabolome atlas of different blood cells across ages in mice. We reveal here that purine, pyrimidine and retinol metabolism are enriched in young hematopoietic stem and progenitor cells (HSPCs), whereas glutamate and sphingolipid metabolism are concentrated in aged HSPCs. Through metabolic screening, we identified uridine as a potential regulator to rejuvenate aged HSPCs. Mechanistically, uridine treatment upregulates the FoxO signaling pathway and enhances self-renewal while suppressing inflammation in aged HSCs. Finally, we constructed an open-source platform for public easy access and metabolomic analysis in blood cells. Collectively, we provide a resource for metabolic studies in hematopoiesis that can contribute to future anti-aging metabolite screening.

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