Dataset: Transcription profiling of mouse CD71+/Ter-119+ bone marrow erythroid progenitors from Rb-null animals and controls reveals Rb intrinsically promotes erythropoiesis by coupling cell cycle exit with mitochondrial biogenesis
Regulation of the cell cycle is intimately linked to erythroid differentiation, yet how these processes are coupled is not well...
Regulation of the cell cycle is intimately linked to erythroid differentiation, yet how these processes are coupled is not well understood. To gain insight into this coordinate regulation, we examined the role that the retinoblastoma protein (Rb), a central regulator of the cell cycle, plays in erythropoiesis. We found that Rb serves a cell-intrinsic role and its absence causes ineffective erythropoiesis, with a differentiation block at the transition from early to late erythroblasts. Unexpectedly, in addition to a failure to properly exit the cell cycle, mitochondrial biogenesis fails to be upregulated concomitantly, contributing to this differentiation block. The link between erythropoiesis and mitochondrial function was validated by inhibition of mitochondrial biogenesis. Erythropoiesis in the absence of Rb resembles the human myelodysplastic syndromes, where defects in cell cycle regulation and mitochondrial function frequently occur. Our work demonstrates how these seemingly disparate pathways play a role in coordinately regulating cellular differentiation. Experiment Overall Design: Microarray expression analysis from sorted CD71+/Ter-119+ bone marrow erythroid progenitors of Rb-null animals and controls. The Rb-null genotype was EpoR-GFPcre/+; Rb fl/fl and the control genotype was EpoR-GFPcre/+; Rb fl/+. We have analyzed 3 Rb-null datasets and 3 control datasets.
- Species:
- mouse
- Samples:
- 6
- Source:
- E-GEOD-9717
- Updated:
- Dec.12, 2014
- Registered:
- Nov.21, 2014
Sample |
---|
GSE9717GSM245463 |
GSE9717GSM245464 |
GSE9717GSM245465 |
GSE9717GSM245460 |
GSE9717GSM245461 |
GSE9717GSM245462 |