Hydrogen sulfide acts as a sulfur source for iron sulfur cluster biosynthesis in cysteine desulfurase-deficient Escherichia coli under anaerobic conditions
Heng Li, Jun Wang, Xiaorui Li, Guanya Jia, Haisheng Gan, Yanxiong Wang, Zhiwei Ma, Zhilong Zhu, Xiaoya Shang, Weining Niu

TL;DR
Hydrogen sulfide helps bacteria lacking a key sulfur-releasing enzyme by providing sulfur for iron-sulfur cluster formation, restoring growth under low oxygen conditions.
Contribution
The study reveals that H₂S acts as a sulfur source for Fe-S cluster biosynthesis in IscS-deficient E. coli, compensating for the loss of the cysteine desulfurase.
Findings
H₂S exposure rescues growth defects in ΔiscS E. coli by restoring Fe-S cluster-dependent enzyme activity.
H₂S promotes Fe-S cluster biosynthesis on IscU, not directly on apoproteins, as shown by ΔiscU mutant insensitivity to H₂S.
Sulfur supplementation during recombinant expression increases Fe-S cluster abundance and activity in ΔiscS mutants.
Abstract
The cysteine desulfurase (IscS) is a core component of the ISC iron–sulfur (Fe-S) cluster assembly system in Escherichia coli. Deficiency of IscS leads to serious growth defects in E. coli, along with reduced activity of Fe-S cluster-dependent enzymes. We previously demonstrated that the growth defect of IscS-deficient E. coli (ΔiscS) is completely restored by H₂S exposure, but the underlying molecular mechanism was not fully understood. Here, based on proteomic analysis, we identified 19 up-regulated Fe-S proteins in the ΔiscS mutant upon H₂S exposure, 13 of which are involved with energy metabolism. Correspondingly, H₂S exposure also enhanced the activity of Fe-S enzymes in the mutant. Metabolomic analysis revealed a remarkable increase in the levels of the energy metabolites NAD+, succinate, and leucine. These results implied that H2S could restore cell proliferation and Fe-S cluster…
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Taxonomy
TopicsMetalloenzymes and iron-sulfur proteins · Sulfur Compounds in Biology · Nitrogen and Sulfur Effects on Brassica
