Control of Erythroid Differentiation: Asynchronous Expression of the Anion Transporter and the Peripheral Components of the Membrane Skeleton in AEV- and S13-Transformed Cells

Chicken erythroblasts transformed with avian erythroblastosis virus or S13 virus provide suitable model systems with which to analyze the maturation of immature erythroblasts into erythrocytes. The transformed cells are blocked in differentiation at around the colony-forming unit-erythroid stage of...

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Bibliographic Details
Published in:The Journal of cell biology 1986-11, Vol.103 (5), p.1789-1798
Main Authors: Woods, Catherine M., Boyer, Brigitte, Vogt, Peter K., Lazarides, Elias
Format: Article
Language:English
Subjects:
Alpharetrovirus
Animals
Anion Exchange Protein 1, Erythrocyte - metabolism
Anion transport proteins
anions
Ankyrins
avian erythroblastosis virus
Biological and medical sciences
Blood Proteins - metabolism
Cell Differentiation
Cell differentiation, maturation, development, hematopoiesis
Cell Membrane - metabolism
Cell physiology
Cell Transformation, Viral
Cells
Cellular differentiation
Chickens
Cytoskeletal Proteins
cytoskeleton
Erythroblasts
Erythroblasts - cytology
Erythroblasts - metabolism
Erythrocytes
Erythroid cells
Erythroid progenitor cells
Erythropoiesis
Fundamental and applied biological sciences. Psychology
Membrane Proteins - metabolism
Molecular and cellular biology
Neuropeptides
Retroviridae
S13 virus
Skeleton
Spectrin - metabolism
Stem cells
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Description
Summary:Chicken erythroblasts transformed with avian erythroblastosis virus or S13 virus provide suitable model systems with which to analyze the maturation of immature erythroblasts into erythrocytes. The transformed cells are blocked in differentiation at around the colony-forming unit-erythroid stage of development but can be induced to differentiate in vitro. Analysis of the expression and assembly of components of the membrane skeleton indicates that these cells simultaneously synthesize α-spectrin, β-spectrin, ankyrin, and protein 4.1 at levels that are comparable to those of mature erythroblasts. However, they do not express any detectable amounts of anion transporter. The peripheral membrane skeleton components assemble transiently and are subsequently rapidly catabolized, resulting in 20-40-fold lower steady-state levels than are found in maturing erythrocytes. Upon spontaneous or chemically induced terminal differentiation of these cells expression of the anion transporter is initiated with a concommitant increase in the steady-state levels of the peripheral membrane-skeletal components. These results suggest that during erythropoiesis, expression of the peripheral components of the membrane skeleton is initiated earlier than that of the anion transporter. Furthermore, they point a key role for the anion transporter in conferring long-term stability to the assembled erythroid membrane skeleton during terminal differentiation.
ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.103.5.1789