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Systematic analysis of the global characteristics and reciprocal effects of S-nitrosylation and S-persulfidation in the human proteome

Zongmin Li, Hanlin Peng, Yaqian Huang, Boyang Lv, Chaoshu Tang, Junbao Du, Jing Yang, Ling Fu, Hongfang Jin

2024Free Radical Biology and Medicine8 citationsDOIOpen Access PDF

Abstract

Gasotransmitter-mediated cysteine post-translational modifications, including S-nitrosylation (SNO) and S-persulfidation (SSH), play crucial roles and interact in various biological processes. However, there has been a delay in appreciating the interactional rules between SNO and SSH. Here, all human S-nitrosylated and S-persulfidated proteomic data were curated, and comprehensive analyses from multiple perspectives, including sequence, structure, function, and exact protein impacts (e.g., up-/down-regulation), were performed. Although these two modifications collectively regulated a wide array of proteins to jointly maintain redox homeostasis, they also exhibited intriguing differences. First, SNO tended to be more accessible and functionally clustered in pathways associated with cell damage repair and other protein modifications, such as phosphorylation and ubiquitination. Second, SSH preferentially targeted cysteines in disulfide bonds and modulated tissue development and immune-related pathways. Finally, regardless of whether SNO and SSH occupied the same position of a given protein, their combined effect tended to be suppressive when acting synergistically; otherwise, SNO likely inhibited while SSH activated the target protein. Indeed, a side-by-side comparison of SNO and SSH shed light on their globally reciprocal effects and provided a reference for further research on gasotransmitter-mediated biological effects. • S-nitrosylation and S-persulfidation showed intriguing differences. • SNO was likely more accessible and functionally clustered in cell damage repair and other protein modifications. • SSH preferentially targeted cysteines in disulfide bonds and modulated tissue development and immune-related pathways. • The combined effect of SNO and SSH was inclined to be suppressive when acting synergistically.

Topics & Concepts

ProteomePhosphorylationHuman proteome projectUbiquitinCell biologyS-NitrosylationCysteineFunction (biology)ProteomicsChemistryComputational biologyImmune systemBiologyBiochemistryGeneticsEnzymeGeneSulfur Compounds in BiologyAdenosine and Purinergic SignalingRedox biology and oxidative stress