[HTML][HTML] Glucose and glutamine metabolism regulate human hematopoietic stem cell lineage specification

L Oburoglu, S Tardito, V Fritz, SC De Barros, P Merida… - Cell stem cell, 2014 - cell.com
L Oburoglu, S Tardito, V Fritz, SC De Barros, P Merida, M Craveiro, J Mamede, G Cretenet…
Cell stem cell, 2014cell.com
The metabolic state of quiescent hematopoietic stem cells (HSCs) is an important regulator
of self-renewal, but it is unclear whether or how metabolic parameters contribute to HSC
lineage specification and commitment. Here, we show that the commitment of human and
murine HSCs to the erythroid lineage is dependent upon glutamine metabolism. HSCs
require the ASCT2 glutamine transporter and active glutamine metabolism for erythroid
specification. Blocking this pathway diverts EPO-stimulated HSCs to differentiate into …
Summary
The metabolic state of quiescent hematopoietic stem cells (HSCs) is an important regulator of self-renewal, but it is unclear whether or how metabolic parameters contribute to HSC lineage specification and commitment. Here, we show that the commitment of human and murine HSCs to the erythroid lineage is dependent upon glutamine metabolism. HSCs require the ASCT2 glutamine transporter and active glutamine metabolism for erythroid specification. Blocking this pathway diverts EPO-stimulated HSCs to differentiate into myelomonocytic fates, altering in vivo HSC responses and erythroid commitment under stress conditions such as hemolytic anemia. Mechanistically, erythroid specification of HSCs requires glutamine-dependent de novo nucleotide biosynthesis. Exogenous nucleosides rescue erythroid commitment of human HSCs under conditions of limited glutamine catabolism, and glucose-stimulated nucleotide biosynthesis further enhances erythroid specification. Thus, the availability of glutamine and glucose to provide fuel for nucleotide biosynthesis regulates HSC lineage commitment under conditions of metabolic stress.
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