Cyclic immonium ion of lactyllysine reveals widespread lactylation in the human proteome

This article reports the cyclic immonium ion as a diagnostic fragment ion for lysine lactylation. The approach was used for identifying lactylation in various enriched and unenriched proteome databases, demonstrating prevalence of lactylation beyond histones. Lactylation was initially discovered on human histones. Given its nascence, its occurrence on nonhistone proteins and downstream functional consequences remain elusive. Here we report a cyclic immonium ion of lactyllysine formed during tandem mass spectrometry that enables confident protein lactylation assignment. We validated the sensitivity and specificity of this ion for lactylation through affinity-enriched lactylproteome analysis and large-scale informatic assessment of nonlactylated spectral libraries. With this diagnostic ion-based strategy, we confidently determined new lactylation, unveiling a wide landscape beyond histones from not only the enriched lactylproteome but also existing unenriched human proteome resources. Specifically, by mining the public human Meltome Atlas, we found that lactylation is common on glycolytic enzymes and conserved on ALDOA. We also discovered prevalent lactylation on DHRS7 in the draft of the human tissue proteome. We partially demonstrated the functional importance of lactylation: site-specific engineering of lactylation into ALDOA caused enzyme inhibition, suggesting a lactylation-dependent feedback loop in glycolysis.

Automated summary

This article reports the use of cyclic immonium ion as a diagnostic fragment ion for lysine lactylation. The study shows that lactylation is not only limited to histones but also occurs on nonhistone proteins. Through the use of affinity-enriched lactylproteome analysis and informatic assessment, the authors confidently identified new lactylation sites beyond histones. The study also demonstrated the functional importance of lactylation, specifically in glycolysis.