Bmi-1 Regulates Extensive Erythroid Self-Renewal

Kim, Ah Ram
Olsen, Jayme L.
England, Samantha J.
Huang, Yu-Shan
Fegan, Katherine H.
Delgadillo, Luis F.
McGrath, Kathleen E.
Kingsley, Paul D.
Waugh, Richard E.
Palis, James

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Publication date

June 2015

DOI

10.1016/j.stemcr.2015.05.003

Publisher

The Authors. Published by Elsevier Inc.

Abstract

SummaryRed blood cells (RBCs), responsible for oxygen delivery and carbon dioxide exchange, are essential for our well-being. Alternative RBC sources are needed to meet the increased demand for RBC transfusions projected to occur as our population ages. We previously have discovered that erythroblasts derived from the early mouse embryo can self-renew extensively ex vivo for many months. To better understand the mechanisms regulating extensive erythroid self-renewal, global gene expression data sets from self-renewing and differentiating erythroblasts were analyzed and revealed the differential expression of Bmi-1. Bmi-1 overexpression conferred extensive self-renewal capacity upon adult bone-marrow-derived self-renewing erythroblasts, whic...