AGC-kinases 的化学遗传学研究揭示了 Ypk1、蛋白激酶 A 和 Sch9 的共同靶标。

Chemical Genetics of AGC-kinases Reveals Shared Targets of Ypk1, Protein Kinase A and Sch9.

机构信息

Department of Molecular Biology, University of Geneva, CH-1211, Geneva, Switzerland; National Centre of Competence in Research - Chemical Biology, University of Geneva, CH-1211, Geneva, Switzerland.

Department of Molecular Biology, University of Geneva, CH-1211, Geneva, Switzerland.

出版信息

Mol Cell Proteomics. 2020 Apr;19(4):655-671. doi: 10.1074/mcp.RA120.001955. Epub 2020 Feb 26.

DOI:10.1074/mcp.RA120.001955

PMID:32102971

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7124472/

Abstract

Protein phosphorylation cascades play a central role in the regulation of cell growth and protein kinases PKA, Sch9 and Ypk1 take center stage in regulating this process in To understand how these kinases co-ordinately regulate cellular functions we compared the phospho-proteome of exponentially growing cells without and with acute chemical inhibition of PKA, Sch9 and Ypk1. Sites hypo-phosphorylated upon PKA and Sch9 inhibition were preferentially located in RRxS/T-motifs suggesting that many are directly phosphorylated by these enzymes. Interestingly, when inhibiting Ypk1 we not only detected several hypo-phosphorylated sites in the previously reported RxRxxS/T-, but also in an RRxS/T-motif. Validation experiments revealed that neutral trehalase Nth1, a known PKA target, is additionally phosphorylated and activated downstream of Ypk1. Signaling through Ypk1 is therefore more closely related to PKA- and Sch9-signaling than previously appreciated and may perform functions previously only attributed to the latter kinases.

摘要

蛋白磷酸化级联在细胞生长的调控中起着核心作用，蛋白激酶 PKA、Sch9 和 Ypk1 在调节这一过程中处于中心地位。为了了解这些激酶如何协调调节细胞功能，我们比较了在急性化学抑制 PKA、Sch9 和 Ypk1 的情况下，指数生长期细胞的磷酸化蛋白质组。在 PKA 和 Sch9 抑制时呈低磷酸化状态的位点优先位于 RRxS/T-基序中，表明许多位点是由这些酶直接磷酸化的。有趣的是，当抑制 Ypk1 时，我们不仅在以前报道的 RxRxxS/T-中检测到几个低磷酸化位点，而且在 RRxS/T-基序中也检测到了。验证实验表明，中性海藻糖酶 Nth1，一种已知的 PKA 靶标，在 Ypk1 下游被额外磷酸化和激活。因此，Ypk1 的信号转导与 PKA 和 Sch9 信号转导的关系比以前认识到的更为密切，并且可能执行以前仅归因于后两种激酶的功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1bc9/7124472/ea1ca82e2e30/zjw0042061080010.jpg

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AGC-kinases 的化学遗传学研究揭示了 Ypk1、蛋白激酶 A 和 Sch9 的共同靶标。

Chemical Genetics of AGC-kinases Reveals Shared Targets of Ypk1, Protein Kinase A and Sch9.

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