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- Title
APC/C<sup>CDH1</sup> synchronizes ribose-5-phosphate levels and DNA synthesis to cell cycle progression.
- Authors
Li, Yang; Yao, Cui-Fang; Xu, Fu-Jiang; Qu, Yuan-Yuan; Li, Jia-Tao; Lin, Yan; Cao, Zhong-Lian; Lin, Peng-Cheng; Xu, Wei; Zhao, Shi-Min; Zhao, Jian-Yuan
- Abstract
Accumulation of nucleotide building blocks prior to and during S phase facilitates DNA duplication. Herein, we find that the anaphase-promoting complex/cyclosome (APC/C) synchronizes ribose-5-phosphate levels and DNA synthesis during the cell cycle. In late G1 and S phases, transketolase-like 1 (TKTL1) is overexpressed and forms stable TKTL1-transketolase heterodimers that accumulate ribose-5-phosphate. This accumulation occurs by asymmetric production of ribose-5-phosphate from the non-oxidative pentose phosphate pathway and prevention of ribose-5-phosphate removal by depleting transketolase homodimers. In the G2 and M phases after DNA synthesis, expression of the APC/C adaptor CDH1 allows APC/CCDH1 to degrade D-box-containing TKTL1, abrogating ribose-5-phosphate accumulation by TKTL1. TKTL1-overexpressing cancer cells exhibit elevated ribose-5-phosphate levels. The low CDH1 or high TKTL1-induced accumulation of ribose-5-phosphate facilitates nucleotide and DNA synthesis as well as cell cycle progression in a ribose-5-phosphate-saturable manner. Here we reveal that the cell cycle control machinery regulates DNA synthesis by mediating ribose-5-phosphate sufficiency. Ribose-5-phosphate (R5P) is required for DNA synthesis, but how this is regulated during cell cycle progression is unclear. Here the authors report that the cell cycle regulator APC/C-CDH1 synchronizes cell cycle progression with R5P-derived DNA synthesis by controlling TKTL1 stability
- Publication
Nature Communications, 2019, Vol 10, Issue 1, pN.PAG
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-019-10375-x