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A role for CK2 upon interkinetic nuclear migration in the cell cycle of retinal progenitor cells
Author(s) -
Carneiro Ana Carolina Dudenhoeffer,
FragelMadeira Lucianne,
SilvaNeto Mario Alberto,
Linden Rafael
Publication year - 2008
Publication title -
developmental neurobiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.716
H-Index - 129
eISSN - 1932-846X
pISSN - 1932-8451
DOI - 10.1002/dneu.20613
Subject(s) - biology , progenitor , progenitor cell , microbiology and biotechnology , retinal , cell cycle , neuroscience , cell , stem cell , genetics , biochemistry
In developing retina, the nucleus of the elongated neuroepithelial cells undergoes interkinetic nuclear migration (INM), that is it migrates back and forth across the proliferative layer during the cell cycle. S‐phase occurs at the basal side, while M‐phase occurs at the apical margin of the retinal progenitors. G1 and G2‐phases occur along the nuclear migration pathway. We tested whether this feature of the retinal cell cycle is controlled by CK2, which, among its many substrates, phosphorylates both molecular motors and cytoskeletal components. Double immunolabeling showed that CK2 is contained in BrdU‐labeled retinal progenitors. INM was examined after pulse labeling the retina of newborn rats with BrdU, by plotting nuclear movement from basal to apical sides of the retinal progenitors during G2. The CK2 specific inhibitor 4,5,6,7‐tetrabromobenzotriazole inhibited the activity of rat retinal CK2, and blocked nuclear movement proper in a dose‐dependent way. No apoptosis was detected, and total numbers of BrdU‐labeled nuclei remained constant following treatment. Immunohistochemistry showed that, following inhibition of CK2, the tubulin cytoskeleton is disorganized, with reduced acetylated and increased tyrosinated tubulin. This indicates a reduction in stable microtubules, with accumulation of free tubulin dimers. The results show that CK2 activity is required for INM in retinal progenitor cells. © 2008 Wiley Periodicals, Inc. Develop Neurobiol 2008