Abstract

Hematopoietic stem cells (HSCs) are considered to originate from the aorta-gonad-mesonephros, migrate into fetal liver for a rapid expansion, and eventually reside into a unique hypoxic bone marrow niche, where they maintain their homeostasis throughout their life span. HSCs have been widely used for the treatment of many begin or malignant hematopoietic disorders. However, the unavailability of sufficient amount of HSCs still impedes their applications in the clinic. It is urgent to understand how HSC stemness or cell fates are determined at different developmental stages. Although many intrinsic and extrinsic factors (niche components) have been identified in the regulation of HSC origination, expansion, migration, and localization, the underlying mechanisms remain largely unknown. In this article, we summarize current views on the metabolic profiles of HSCs and related regulatory networks, which shows that intrinsic metabolic regulation may be critical for the cell fate determinations of HSCs: HSCs utilize glycolysis as their major energy sources; mitochondrial respiration is also required for the homeostasis of HSCs; amino acids, lipids, or other nutrient metabolisms also have unique roles in sustaining HSC activities. Mechanistically, many important regulatory pathways, such as MEIS1/HIF1A, MYC, PPM1K/CDC20, and ROS signals, are identified to fine-tune the nutrient metabolisms and cell fate commitments in HSCs. Nevertheless, more effort is required for the optimization or establishment of sensitive and specific metabolic techniques/systems for the metabolism studies in HSCs with limited cell numbers and exploring the metabolic profiles and fundamental regulatory mechanisms of different types of nutrients at each developmental stage of HSCs.

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