Author
Listed:
- Daniel Hidalgo
(University of Massachusetts Chan Medical School)
- Jacob Bejder
(University of Copenhagen)
- Ramona Pop
(University of Massachusetts Chan Medical School
Harvard University)
- Kyle Gellatly
(University of Massachusetts Chan Medical School)
- Yung Hwang
(University of Massachusetts Chan Medical School)
- S. Maxwell Scalf
(Yale University)
- Anna E. Eastman
(Yale University)
- Jane-Jane Chen
(Institute for Medical Engineering & Science, MIT)
- Lihua Julie Zhu
(University of Massachusetts Chan Medical School
University of Massachusetts Chan Medical School
University of Massachusetts Chan Medical School)
- Jules A. A. C. Heuberger
(Centre for Human Drug Research)
- Shangqin Guo
(Yale University)
- Mark J. Koury
(Vanderbilt University Medical Center)
- Nikolai Baastrup Nordsborg
(University of Copenhagen)
- Merav Socolovsky
(University of Massachusetts Chan Medical School)
Abstract
The erythroid terminal differentiation program couples sequential cell divisions with progressive reductions in cell size. The erythropoietin receptor (EpoR) is essential for erythroblast survival, but its other functions are not well characterized. Here we use Epor−/− mouse erythroblasts endowed with survival signaling to identify novel non-redundant EpoR functions. We find that, paradoxically, EpoR signaling increases red cell size while also increasing the number and speed of erythroblast cell cycles. EpoR-regulation of cell size is independent of established red cell size regulation by iron. High erythropoietin (Epo) increases red cell size in wild-type mice and in human volunteers. The increase in mean corpuscular volume (MCV) outlasts the duration of Epo treatment and is not the result of increased reticulocyte number. Our work shows that EpoR signaling alters the relationship between cycling and cell size. Further, diagnostic interpretations of increased MCV should now include high Epo levels and hypoxic stress.
Suggested Citation
Daniel Hidalgo & Jacob Bejder & Ramona Pop & Kyle Gellatly & Yung Hwang & S. Maxwell Scalf & Anna E. Eastman & Jane-Jane Chen & Lihua Julie Zhu & Jules A. A. C. Heuberger & Shangqin Guo & Mark J. Kour, 2021.
"EpoR stimulates rapid cycling and larger red cells during mouse and human erythropoiesis,"
Nature Communications, Nature, vol. 12(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-27562-4
DOI: 10.1038/s41467-021-27562-4
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