Hydrogen sulfide-producing cystathionine γ-lyase is critical in the progression of kidney fibrosis

Cystathionine γ-lyase (CSE), the last key enzyme of the transsulfuration pathway, is involved in the production of hydrogen sulfide (H2S) and glutathione (GSH), which regulate redox balance and act as important antioxidant molecules. Impairment of the H2S- and GSH-mediated antioxidant system is asso...

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Bibliographic Details
Published in:Free radical biology & medicine 2017-11, Vol.112, p.423-432
Main Authors: Han, Sang Jun, Noh, Mi Ra, Jung, Jung-Min, Ishii, Isao, Yoo, Jeongsoo, Kim, Jee In, Park, Kwon Moo
Format: Article
Language:English
Subjects:
Actins - genetics
Actins - metabolism
Animals
Chronic kidney disease
Cystathionine beta-Synthase - genetics
Cystathionine beta-Synthase - metabolism
Cystathionine gamma-Lyase - deficiency
Cystathionine gamma-Lyase - genetics
Cystathionine γ-lyase
Disease Progression
Epithelial Cells - enzymology
Epithelial Cells - pathology
Female
Fibrosis
Gene Expression Regulation
Glutathione - biosynthesis
Hydrogen sulfide
Hydrogen Sulfide - metabolism
Kidney - enzymology
Kidney - pathology
Kidney fibrosis
Kidney Tubules - enzymology
Kidney Tubules - pathology
Mice
Mice, Knockout
Mitochondria - metabolism
Mitochondria - pathology
Oxidation-Reduction
Reactive oxygen species
Renal Insufficiency, Chronic - enzymology
Renal Insufficiency, Chronic - genetics
Renal Insufficiency, Chronic - pathology
Signal Transduction
Sulfurtransferases - genetics
Sulfurtransferases - metabolism
Superoxides - metabolism
Ureteral Obstruction - enzymology
Ureteral Obstruction - genetics
Ureteral Obstruction - pathology
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Summary:Cystathionine γ-lyase (CSE), the last key enzyme of the transsulfuration pathway, is involved in the production of hydrogen sulfide (H2S) and glutathione (GSH), which regulate redox balance and act as important antioxidant molecules. Impairment of the H2S- and GSH-mediated antioxidant system is associated with the progression of chronic kidney disease (CKD), characterized by kidney fibrosis and dysfunction. Here, we evaluated the role of CSE in the progression of kidney fibrosis after unilateral ureteral obstruction (UUO) using mice deficient in the Cse gene. UUO of wild-type mice reduced the expression of H2S-producing enzymes, CSE, cystathionine β-synthase, and 3-mercaptopyruvate sulfurtransferase in the obstructed kidneys, resulting in decreased H2S and GSH levels. Cse gene deletion lowered H2S and GSH levels in the kidneys. Deleting the Cse gene exacerbated the decrease in H2S and GSH levels and increase in superoxide formation and oxidative damage to proteins, lipids, and DNA in the kidneys after UUO, which were accompanied by greater kidney fibrosis, deposition of extracellular matrixes, expression of α-smooth muscle actin, tubular damage, and infiltration of inflammatory cells. Furthermore, Cse gene deletion exacerbated mitochondrial fragmentation and apoptosis of renal tubule cells after UUO. The data provided herein constitute in vivo evidence that Cse deficiency impairs renal the H2S- and GSH-producing activity and exacerbates UUO-induced kidney fibrosis. These data propose a novel therapeutic approach against CKD by regulating CSE and the transsulfuration pathway. [Display omitted] •Ureteral obstruction (UO) impairs H2S-producing enzymes, CSE, CBS, and 3-MST.•UO reduces levels of H2S and GSH in the kidney.•CSE deletion reduces H2S and GSH and exacerbates UO-induced those in the kidney.•CSE deletion worsens oxidative injury and apoptosis, resulting in fibrosis.
ISSN:0891-5849
1873-4596
DOI:10.1016/j.freeradbiomed.2017.08.017