Protein accumulation upstream of Cdk1 activation regulates the competence and the timing of meiosis resumption
Protein accumulation upstream of Cdk1 activation regulates the competence and the timing of meiosis resumption
Gachechiladze, M.;Eivers, S.;Poulhe, R.;Sonnett, M.;Peshkin, L.;Jessus, C.;Daldello, E.
AbstractThe capacity to resume meiosis is progressively acquired during oogenesis and is ultimately restricted to fully grown oocytes. Meiotic resumption is triggered by hormonal stimulation and requires activation of Cdk1, the universal driver of M-phase entry. Cdk1 activation occurs in two steps: an initial activation of Cdk1, followed by an amplification phase that drives cell cycle re-entry. The first step depends on the accumulation of proteins that promote Cdk1 activation, while the second step involves a regulatory network of kinases and phosphatases. Using TMT-based quantitative proteomics, we reveal that growing oocytes first acquire the ability to regulate protein homeostasis in response to hormonal stimulation, and only later gain the competence to amplify initial Cdk1 activity and enter meiosis. Notably, protein accumulation, occurring independently of Cdk1 activation, is controlled by both translational and non-translational mechanisms. Together, our findings show that the molecular competence to trigger Cdk1 activation is acquired in a stepwise manner during oocyte growth. The earliest regulatory layer is the acquisition of the ability to respond to hormonal stimulation by accumulating proteins that are required for efficient Cdk1 activation and meiotic resumption.