Human SerRS/SIRT2 complex structure reveals cross regulation between translation and NAD ⁺ metabolism

Qian Zhang
Huimin Zhang
Marscha Hirschi
Sheng Li
Gabriel C. Lander
Jie Yang
Xiang-Lei Yang

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Abstract

Life at the cellular level depends on effective coordination between diverse processes. Here we uncover a novel cross-regulation between metabolism and translation through a 3.2 Å cryo-EM structure of human cytosolic seryl-tRNA synthetase (SerRS) bound to sirtuin-2 (SIRT2), an NAD ⁺ -dependent deacetylase. This interaction, naturally triggered by the NAD ⁺ metabolite ADP-ribose (ADPR), resembles substrate binding and block SIRT2’s active site. Interestingly, SerRS acetylation is not required for this interaction. SIRT2 binding sterically and allosterically impedes tRNA binding to SerRS, lowering charged tRNA ^Ser level and protein synthesis activity. Key interaction residues in both proteins emerged simultaneously in vertebrates, suggesting co-evolution for cross-regulation. Given ADPR’s accumulation under stress, the ADPR-induced SerRS/SIRT2 interaction likely serves as a cell-protective response.

Version published to 10.1101/2025.09.23.677902 on bioRxiv
Sep 24, 2025

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