Hydrogen Sulfide Biochemistry and Interplay with Other Gaseous Mediators in Mammalian Physiology

Giuffrè, Alessandro; Vicente, João B.

doi:10.1155/2018/6290931

Cited by 122 publications

(119 citation statements)

References 239 publications

(336 reference statements)

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“…For example, in contrast to •NO and CO, which bind primarily to the binuclear center in the fully reduced (Fe 2+ /Cu 1+ ) state, sulfide does not react with the fully reduced enzyme, but reacts with met (Fe 3+ ) heme. Hence, reactions with sulfide occur in the oxidized or mixed valence states 55,69 . A recent model for sulfide-mediated inhibition of cytochrome c oxidase proposed that both Fe 3+ heme a3 and Cu B (Cu 1+ or Cu 2+ ) can bind H 2 S or SH −69 .…”

Section: Discussionmentioning

confidence: 99%

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Hydrogen sulfide stimulates Mycobacterium tuberculosis respiration, growth and pathogenesis

et al. 2020

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Hydrogen sulfide (H 2 S) is involved in numerous pathophysiological processes and shares overlapping functions with CO and •NO. However, the importance of host-derived H 2 S in microbial pathogenesis is unknown. Here we show that Mtb-infected mice deficient in the H 2 S-producing enzyme cystathionine β-synthase (CBS) survive longer with reduced organ burden, and that pharmacological inhibition of CBS reduces Mtb bacillary load in mice. Highresolution respirometry, transcriptomics and mass spectrometry establish that H 2 S stimulates Mtb respiration and bioenergetics predominantly via cytochrome bd oxidase, and that H 2 S reverses •NO-mediated inhibition of Mtb respiration. Further, exposure of Mtb to H 2 S regulates genes involved in sulfur and copper metabolism and the Dos regulon. Our results indicate that Mtb exploits host-derived H 2 S to promote growth and disease, and suggest that host-directed therapies targeting H 2 S production may be potentially useful for the management of tuberculosis and other microbial infections.

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Section: Discussionmentioning

confidence: 99%

“…Crosstalk between H 2 S and •NO alters Mtb infection. Studies in mammalian systems have shown crosstalk between •NO and H 2 S 55,56 . We observed increased iNOS levels in the lungs of Mtbinfected Cbs +/− mice compared to WT at 8 weeks post infection (Fig.…”

Section: Role Of H 2 S Duringmentioning

confidence: 99%

Hydrogen sulfide stimulates Mycobacterium tuberculosis respiration, growth and pathogenesis

et al. 2020

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“…However, cysteine degradation can be pivotal in cancer cell metabolic rewiring not only due to the production of H 2 S but also as an important carbon source, as recently reviewed by Serpa [ 89 ]. H 2 S is itself a powerful antioxidant [ 90 ], displaying a reduction potential very similar to the redox pair glutathione disulfide/glutathione (GSSG/GSH), the predominant scavenger of free radicals in mammals cells [ 91 ]. H 2 S controls oxidative stress in different ways: by stimulating the production of GSH through the activation of the expression of cystine/cysteine transporters, by directly interacting with ROS [ 92 ] and by modulating the persulfidation of different antioxidant response proteins, such as Keap1 [ 93 ] upstream activator of mitochondrial redox signaling p66Shc [ 94 ], and CuZn superoxide dismutase [ 95 , 96 ].…”

Section: Cat Role In Physiology and In Cancermentioning

confidence: 99%

Cysteine Aminotransferase (CAT): A Pivotal Sponsor in Metabolic Remodeling and an Ally of 3-Mercaptopyruvate Sulfurtransferase (MST) in Cancer

Hipólito

Nunes

Vicente³

et al. 2020

Molecules

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Metabolic remodeling is a critical skill of malignant cells, allowing their survival and spread. The metabolic dynamics and adaptation capacity of cancer cells allow them to escape from damaging stimuli, including breakage or cross-links in DNA strands and increased reactive oxygen species (ROS) levels, promoting resistance to currently available therapies, such as alkylating or oxidative agents. Therefore, it is essential to understand how metabolic pathways and the corresponding enzymatic systems can impact on tumor behavior. Cysteine aminotransferase (CAT) per se, as well as a component of the CAT: 3-mercaptopyruvate sulfurtransferase (MST) axis, is pivotal for this metabolic rewiring, constituting a central mechanism in amino acid metabolism and fulfilling the metabolic needs of cancer cells, thereby supplying other different pathways. In this review, we explore the current state-of-art on CAT function and its role on cancer cell metabolic rewiring as MST partner, and its relevance in cancer cells’ fitness.

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“…CO and H 2 S, likewise NO have similar activity and regulate parallel molecular pathways, also due to mutual interaction and the cross-talk between these molecules [51,52]. H 2 S and CO were shown to prevent gastric mucosa against NSAIDs-or alendronate-induced damage and to accelerate ulcer healing due to an improvement of gastric microcirculation [15,[53][54][55].…”

Section: Parallelisms and Discrepancies In Co And H 2 S Effects And Tmentioning

confidence: 99%

Synergisms, Discrepancies and Interactions between Hydrogen Sulfide and Carbon Monoxide in the Gastrointestinal and Digestive System Physiology, Pathophysiology and Pharmacology

2020

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Endogenous gas transmitters, hydrogen sulfide (H2S), carbon monoxide (CO) and nitric oxide (NO) are important signaling molecules known to exert multiple biological functions. In recent years, the role of H2S, CO and NO in regulation of cardiovascular, neuronal and digestive systems physiology and pathophysiology has been emphasized. Possible link between these gaseous mediators and multiple diseases as well as potential therapeutic applications has attracted great attention from biomedical scientists working in many fields of biomedicine. Thus, various pharmacological tools with ability to release CO or H2S were developed and implemented in experimental animal in vivo and in vitro models of many disorders and preliminary human studies. This review was designed to review signaling functions, similarities, dissimilarities and a possible cross-talk between H2S and CO produced endogenously or released from chemical donors, with special emphasis on gastrointestinal digestive system pathologies prevention and treatment.

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Hydrogen Sulfide Biochemistry and Interplay with Other Gaseous Mediators in Mammalian Physiology

Cited by 122 publications

References 239 publications

Hydrogen sulfide stimulates Mycobacterium tuberculosis respiration, growth and pathogenesis

Hydrogen sulfide stimulates Mycobacterium tuberculosis respiration, growth and pathogenesis

Cysteine Aminotransferase (CAT): A Pivotal Sponsor in Metabolic Remodeling and an Ally of 3-Mercaptopyruvate Sulfurtransferase (MST) in Cancer

Synergisms, Discrepancies and Interactions between Hydrogen Sulfide and Carbon Monoxide in the Gastrointestinal and Digestive System Physiology, Pathophysiology and Pharmacology

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