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Abstract
Bacterial degradation of organosulfonates plays an important role in sulfur recycling, and has been extensively studied. However, this process in anaerobic bacteria especially gut bacteria is little known despite of its potential significant impact on human health with the production of toxic H2S. Here, we describe the structural and biochemical characterization of an oxygen-sensitive enzyme that catalyzes the radical-mediated C-S bond cleavage of isethionate to form sulfite and acetaldehyde. We demonstrate its involvement in pathways that enables C2 sulfonates to be used as terminal electron acceptors for anaerobic respiration in sulfate- and sulfite-reducing bacteria. Furthermore, it plays a key role in converting bile salt-derived taurine into H2S in the disease-associated gut bacterium Bilophila wadsworthia. The enzymes and transporters in these anaerobic pathways expand our understanding of microbial sulfur metabolism, and help deciphering the complex web of microbial pathways involved in the transformation of sulfur compounds in the gut.
Highlights
Bacterial degradation of organosulfonates plays an important role in sulfur recycling, and has been extensively studied
We discovered an anaerobic C2 sulfonate C–S lyase candidate while carrying out a bioinformatics study on the glycyl radical enzyme (GRE) superfamily
Because most GREs are involved in fermentative rather than respiratory metabolism, the association of GRE of unknown function (GUF) with sulfate- and sulfite-reducing bacteria (SSRB) suggested a link to their unique mode of anaerobic respiration using sulfite as terminal electron acceptors (TEAs)
Summary
Bacterial degradation of organosulfonates plays an important role in sulfur recycling, and has been extensively studied This process in anaerobic bacteria especially gut bacteria is little known despite of its potential significant impact on human health with the production of toxic H2S. We demonstrate its involvement in pathways that enables C2 sulfonates to be used as terminal electron acceptors for anaerobic respiration in sulfateand sulfite-reducing bacteria It plays a key role in converting bile salt-derived taurine into H2S in the disease-associated gut bacterium Bilophila wadsworthia. Sulfonates are important substrates for sulfate- and sulfite-reducing bacteria (SSRB)[1,2], which are strict anaerobes that use sulfite as a terminal electron acceptor (TEA) for anaerobic respiration, reducing it to H2S In certain environments, such as the gut environment and marine microbial mats[11], sulfonates constitute a major source of oxidized sulfur compounds for SSRB metabolism
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