SGK regulates pH increase and cyclin B-Cdk1 activation to resume meiosis in starfish ovarian oocytes
Tight regulation of intracellular pH (pH ) is essential for biological processes. Fully grown oocytes, having a large nucleus called the germinal vesicle, arrest at meiotic prophase I. Upon hormonal stimulus, oocytes resume meiosis to become fertilizable. At this time, the pH increases via Na /H exc...
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Veröffentlicht in: | The Journal of cell biology 2019-11, Vol.218 (11), p.3612-3629 |
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Sprache: | eng |
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Zusammenfassung: | Tight regulation of intracellular pH (pH
) is essential for biological processes. Fully grown oocytes, having a large nucleus called the germinal vesicle, arrest at meiotic prophase I. Upon hormonal stimulus, oocytes resume meiosis to become fertilizable. At this time, the pH
increases via Na
/H
exchanger activity, although the regulation and function of this change remain obscure. Here, we show that in starfish oocytes, serum- and glucocorticoid-regulated kinase (SGK) is activated via PI3K/TORC2/PDK1 signaling after hormonal stimulus and that SGK is required for this pH
increase and cyclin B-Cdk1 activation. When we clamped the pH
at 6.7, corresponding to the pH
of unstimulated ovarian oocytes, hormonal stimulation induced cyclin B-Cdk1 activation; thereafter, oocytes failed in actin-dependent chromosome transport and spindle assembly after germinal vesicle breakdown. Thus, this SGK-dependent pH
increase is likely a prerequisite for these events in ovarian oocytes. We propose a model that SGK drives meiotic resumption via concomitant regulation of the pH
and cell cycle machinery. |
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ISSN: | 0021-9525 1540-8140 |
DOI: | 10.1083/jcb.201812133 |