Abstract
Hydrogen sulfide (H2S) is a gaseous signaling molecule that plays central roles in a myriad of physiological processes ranging from response to oxidative stress and transcriptional regulation. Hydrogen sulfide is synthesized endogenously from the semi‐essential amino acid cysteine via the reverse transsulfuration pathway. Thus disrupted cysteine metabolism may also lead to aberrant H2S signaling. One of the modes by which hydrogen sulfide signals is by a posttranslational modification designated as sulfhydration/persulfidation, which occurs on reactive cysteine residues on target proteins, where the reactive SH group is converted to an SSH group. Sulfhydration is a highly prevalent modification which modifies the structure and/or activity of target proteins. Research on H2S and persulfidation is still in its infancy. We show here that H2S is generated in response to stress stimuli such as Golgi stress and oxidative stress in neurons, which modulates sulfhydration levels to modulate signaling pathways. We further show that these cytoprotective stress responses are compromised in striatal cell culture model and the R6/2 and Q175 mouse models of Huntington’s disease (HD). We have shown previously that the biosynthetic enzyme for cysteine and H2S in neurons, cystathionine g‐lyase (CSE) is depleted in HD and mediates neurodegeneraton. HD is a neurodegenerative disease which is triggered by expansion of polyglutamine repeats in the protein huntingtin, which causes it to aggregate and elicit multi‐system toxicity. Restoring H2S balance in cells mitigates neuronal dysfunction in neurodegenerative diseases such as HD. A screen for regulators of the transsulfuration pathway has resulted in identification of compounds that modulate cysteine balance and disease progression in HD.Support or Funding InformationUnited States Public Health Service (USPHS) grants DA000266 and MH18501 to S.H.S.
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