Your search keyword '"Cystathionine gamma-Lyase"' showing total 2,718 results

1. Cystathionine gamma-lyase deficiency exaggerates diethylnitrosamine-induced liver damage in mice.

Author

Ligi, Samantha, Ali, Arm, and Yang, Guangdong

Subjects

*CYSTATHIONINE gamma-lyase, *ALANINE aminotransferase, *OXIDATIVE stress, *LIVER diseases, *CYSTATHIONINE, *ASPARTATE aminotransferase

Abstract

Cystathionine gamma-lyase (CSE) is a key enzyme in reverse transsulfuration pathway and contributes to the majority of H 2 S generation in liver tissues via cysteine metabolism. Dysfunction of the CSE/H 2 S system is linked to both chronic and acute liver damage. This study investigated the regulatory role of CSE deficiency on diethylnitrosamine (DEN)-induced liver damage in mice. A single injection of DEN was administered into 4-week-old male CSE knockout (CSE-KO) mice and wild-type (WT) littermates, and the mice were sacrificed at 28 weeks of age. Compared to age-matched WT mice, CSE-KO mice spontaneously developed steatosis with increased oxidative stress and higher expressions of inflammation and fibrosis-related genes at 28-weeks of age. Following DEN injection, CSE-KO mice experienced more severe liver damage in comparison with the WT group as reflected by elevated levels of lipid accumulation, increased activities of alanine aminotransferase and aspartate aminotransferase, higher oxidative stress and fibrosis development, and increased expressions of inflammation and fibrosis-related genes. No visible tumors were observed in both types of mice with DEN treatment. In addition, the expression levels of the three H 2 S-generating proteins (CSE, cystathionine beta-synthase, and 3-mercaptopyruvate sulfurtransferase) and the H 2 S production rate in liver tissues were unaffected by DEN. Taken together, our study demonstrates that CSE provides a significant hepatoprotective effect and deficiency of CSE exaggerates DEN-induced liver damage in mice. Based on these findings, it can be suggested that targeting the CSE/H 2 S signaling pathway could be a potential therapeutic target for the treatment of liver diseases. • Older CSE-KO mice spontaneously developed steatosis with increased oxidative stress. • CSE deficiency exaggerates diethylnitrosamine-induced liver damage in mice. • Diethylnitrosamine does not affect H 2 S signals in mouse liver. • CSE/H 2 S system would be a target for treating liver diseases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Cystathionine Gamma-Lyase Regulates TNF-α-Mediated Injury Response in Human Colonic Epithelial Cells and Colonoids.

Author

Arroyo Almenas, Francisco, Törő, Gábor, Szaniszlo, Peter, Maskey, Manjit, Thanki, Ketan K., Koltun, Walter A., Yochum, Gregory S., Pinchuk, Irina V., Chao, Celia, Hellmich, Mark R., and Módis, Katalin

Subjects

CYSTATHIONINE gamma-lyase, EPITHELIAL cells, CELLULAR signal transduction, INTESTINAL injuries, HYDROGEN sulfide, WOUND healing

Abstract

Cystathionine gamma-lyase (CSE) and TNF-α are now recognized as key regulators of intestinal homeostasis, inflammation, and wound healing. In colonic epithelial cells, both molecules have been shown to influence a variety of biological processes, but the specific interactions between intracellular signaling pathways regulated by CSE and TNF-α are poorly understood. In the present study, we investigated these interactions in normal colonocytes and an organoid model of the healthy human colon using CSE-specific pharmacological inhibitors and siRNA-mediated transient gene silencing in analytical and functional assays in vitro. We demonstrated that CSE and TNF-α mutually regulated each other's functions in colonic epithelial cells. TNF-α treatment stimulated CSE activity within minutes and upregulated CSE expression after 24 h, increasing endogenous CSE-derived H2S production. In turn, CSE activity promoted TNF-α-induced NF-ĸB and ERK1/2 activation but did not affect the p38 MAPK signaling pathway. Inhibition of CSE activity completely abolished the TNF-α-induced increase in transepithelial permeability and wound healing. Our data suggest that CSE activity may be essential for effective TNF-α-mediated intestinal injury response. Furthermore, CSE regulation of TNF-α-controlled intracellular signaling pathways could provide new therapeutic targets in diseases of the colon associated with impaired epithelial wound healing. [ABSTRACT FROM AUTHOR]

Published

2024

3. Bridging the Gap in Cancer Research: Sulfur Metabolism of Leukemic Cells with a Focus on L-Cysteine Metabolism and Hydrogen Sulfide-Producing Enzymes.

Author

Kaleta, Konrad, Janik, Klaudia, Rydz, Leszek, Wróbel, Maria, and Jurkowska, Halina

Subjects

*SCIENTIFIC literature, *CYSTATHIONINE gamma-lyase, *SULFUR metabolism, *MEDICAL sciences, *CELL metabolism

Abstract

Leukemias are cancers of the blood-forming system, representing a significant challenge in medical science. The development of leukemia cells involves substantial disturbances within the cellular machinery, offering hope in the search for effective selective treatments that could improve the 5-year survival rate. Consequently, the pathophysiological processes within leukemia cells are the focus of critical research. Enzymes such as cystathionine beta-synthase and sulfurtransferases like thiosulfate sulfurtransferase, 3-mercaptopyruvate sulfurtransferase, and cystathionine gamma-lyase play a vital role in cellular sulfur metabolism. These enzymes are essential to maintaining cellular homeostasis, providing robust antioxidant defenses, and supporting cell division. Numerous studies have demonstrated that cancerous processes can alter the expression and activity of these enzymes, uncovering potential vulnerabilities or molecular targets for cancer therapy. Recent laboratory research has indicated that certain leukemia cell lines may exhibit significant changes in the expression patterns of these enzymes. Analysis of the scientific literature and online datasets has confirmed variations in sulfur enzyme function in specific leukemic cell lines compared to normal leukocytes. This comprehensive review collects and analyzes available information on sulfur enzymes in normal and leukemic cell lines, providing valuable insights and identifying new research pathways in this field. [ABSTRACT FROM AUTHOR]

Published

2024

4. Metabolic engineering of CHO cells towards cysteine prototrophy and systems analysis of the ensuing phenotype.

Author

Greenfield, Laura, Brantley, Mariah, Geoffroy, Pauline, Mitchell, Jeffrey, DeWitt, Dylan, Zhang, Fang, and Mulukutla, Bhanu Chandra

Subjects

*SYSTEM analysis, *CYSTEINE, *HOMOCYSTEINE, *CYSTATHIONINE gamma-lyase, *CONE beam computed tomography, *PHENOTYPES, *CHO cell, *CELL culture

Abstract

Chinese hamster ovary (CHO) cells require cysteine for growth and productivity in fed-batch cultures. In intensified processes, supplementation of cysteine at high concentrations is a challenge due to its limited solubility and instability in solution. Methionine can be converted to cysteine (CYS) but key enzymes, cystathionine beta-synthase (Cbs) and cystathionine gamma-lyase (Cth), are not active in CHO cells resulting in accumulation of an intermediate, homocysteine (HCY), in cell culture milieu. In this study, Cbs and Cth were overexpressed in CHO cells to confer cysteine prototrophy, i.e., the ability to grow in a cysteine free environment. These pools (CbCt) needed homocysteine and beta-mercaptoethanol (βME) to grow in CYS-free medium. To increase intracellular homocysteine levels, Gnmt was overexpressed in CbCt pools. The resultant cell pools (GnCbCt), post adaptation in CYS-free medium with decreasing residual HCY and βME levels, were able to proliferate in the HCY-free, βME-free and CYS-free environment. Interestingly, CbCt pools were also able to be adapted to grow in HCY-free and CYS-free conditions, albeit at significantly higher doubling times than GnCbCt cells, but couldn't completely adapt to βME-free conditions. Further, single cell clones derived from the GnCbCt cell pool had a wide range in expression levels of Cbs, Cth and Gnmt and, when cultivated in CYS-free fed-batch conditions, performed similarly to the wild type (WT) cell line cultivated in CYS supplemented fed-batch culture. Intracellular metabolomic analysis showed that HCY and glutathione (GSH) levels were lower in the CbCt pool in CYS-free conditions but were restored closer to WT levels in the GnCbCt cells cultivated in CYS-free conditions. Transcriptomic analysis showed that GnCbCt cells upregulated several genes encoding transporters as well as methionine catabolism and transsulfuration pathway enzymes that support these cells to biosynthesize cysteine effectively. Further, 'omics analysis suggested CbCt pool was under ferroptotic stress in CYS-free conditions, which, when inhibited, enhanced the growth and viability of these cells in CYS-free conditions. • Cysteine is difficult to supplement & control in CHO cell processes. • Cth, Cbs, & Gnmt (GnCbCt) or Cth & Cbs (CbCt) overexpression confers CYS prototrophy. • In -CYS, GnCbCt grows better than CbCt & produce titers comparable to WT in +CYS. • GnCbCt express other genes that further enable growth in CYS-free conditions. • CbCt cells appear to be under ferroptotic stress but not GnCbCt cells. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effect of hydrogen sulfide (H2S) on the growth and development of tobacco seedlings in absence of stress.

Author

Dai, Jingcheng, Wen, Dingxin, Li, Hao, Yang, Jingpeng, Rao, Xiongfei, Yang, Yong, Yang, Jiangke, Yang, Chunlei, and Yu, Jun

Subjects

*HYDROGEN sulfide, *TOBACCO smoke, *CYSTATHIONINE gamma-lyase, *PLANT development, *PHOTOSYNTHETIC pigments, *TOBACCO, *REACTIVE oxygen species, *GERMINATION

Abstract

Background: Hydrogen sulfide (H2S) is a novel signaling molecule involved in the growth and development of plants and their response to stress. However, the involvement of H2S in promoting the growth and development of tobacco plants is still unclear. Results: In this study, we explored the effect of pre-soaking or irrigating the roots of tobacco plants with 0.0, 2.0, 4.0, 6.0, and 8.0 mM of sodium hydrosulfide (NaHS) on endogenous H2S production, antioxidant enzymatic and cysteine desulfhydrase activities, seed germination, agronomic traits, photosynthetic pigments contents, and root vigor. The results revealed that exogenous NaHS treatment could significantly promote endogenous H2S production by inducing gene expression of D/L-CD and the activities of D/L-CD enzymes. Additionally, a significant increase in the agronomic traits and the contents of photosynthetic pigments, and no significant difference in carotenoid content among tobacco plants treated with 0.0 to 8.0 mM of NaHS was observed. Additionally, a significant increase in the germination speed, dry weight, and vigor of tobacco seeds, whereas no significant effect on the percentage of seed germination was observed on NaHS treatment. Furthermore, NaHS treatment could significantly increase the activity of superoxide dismutase (SOD) and peroxidase (POD) enzymes, which reduces damage due to oxidative stress by maintaining reactive oxygen species homeostasis. Conclusions: These results would aid in enhancing our understanding of the involvement of H2S, a novel signaling molecule to promote the growth and development of tobacco plants. [ABSTRACT FROM AUTHOR]

Published

2024

6. Cystine rather than cysteine is the preferred substrate for β-elimination by cystathionine γ-lyase: implications for dietary methionine restriction

Author

Jeitner, Thomas M., Azcona, Juan A., Ables, Gene P., Cooke, Diana, Horowitz, Mark C., Singh, Pradeep, Kelly, James M., and Cooper, Arthur J. L.

Published

2024

7. H2S-mediated blockage of protein acetylation and oxidative stress attenuates lipid overload-induced cardiac senescence.

Author

Yu, Ruihuan, Wang, Yuehong, Zhu, Jiechun, and Yang, Guangdong

Subjects

*OXIDATIVE stress, *CYSTATHIONINE gamma-lyase, *ACETYLATION, *LIPIDS, *HYDROGEN sulfide, *ACETYLCOENZYME A, *HOMEOSTASIS, *CELLULAR aging

Abstract

Hydrogen sulphide (H2S), a newly identified gasotransmitter, can be endogenously produced by cystathionine gamma-lyase (CSE) in the cardiovascular system. This study investigated the role of the CSE/H2S system on lipid overload-induced lipotoxicity and cardiac senescence. Lipid overload in rat cardiomyocyte cells (H9C2) promoted intracellular accumulation of lipid, oxidative stress, mitochondrial dysfunctions, lipid peroxidation and inhibited cell viability, all of which could be reversed by exogenously applied H2S. Further data revealed that H2S protected H9C2 cells from lipid overload-induced senescence by altering the expressions of lipid metabolism-related genes and inhibiting cellular acetyl-CoA and global protein acetylation. Enhancement of protein acetylation abolished the protective role of H2S on cardiac senescence. In vivo, knockout of the CSE gene strengthened cardiac lipid accumulation, protein acetylation, and cellular ageing in high fat diet-fed mice. Taken together, the CSE/H2S system is capable of maintaining lipid homeostasis and cellular senescence in heart cells under lipid overload. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Antioxidant Properties of Glucosinolates in Cardiac Cells Are Independent of H 2 S Signaling.

Author

Harvey, Félix, Aromokunola, Boluwaji, Montaut, Sabine, and Yang, Guangdong

Subjects

*HEART cells, *GLUCOSINOLATES, *CYSTATHIONINE gamma-lyase, *CELL death, *OXIDATIVE stress

Abstract

The organic sulfur-containing compounds glucosinolates (GSLs) and the novel gasotransmitter H2S are known to have cardioprotective effects. This study investigated the antioxidant effects and H2S-releasing potential of three GSLs ((3E)-4-(methylsulfanyl)but-3-enyl GSL or glucoraphasatin, 4-hydroxybenzyl GSL or glucosinalbin, and (RS)-6-(methylsulfinyl)hexyl GSL or glucohesperin) in rat cardiac cells. It was found that all three GSLs had no effect on cardiac cell viability but were able to protect against H2O2-induced oxidative stress and cell death. NaHS, a H2S donor, also protected the cells from H2O2-stimulated oxidative stress and cell death. The GSLs alone or mixed with cysteine, N-acetylcysteine, glutathione, H2O2, iron and pyridoxal-5′-phosphate, or mouse liver lysates did not induce H2S release. The addition of GSLs also did not alter endogenous H2S levels in cardiac cells. H2O2 significantly induced cysteine oxidation in the cystathionine gamma-lyase (CSE) protein and inhibited the H2S production rate. In conclusion, this study found that the three tested GSLs protect cardiomyocytes from oxidative stress and cell death but independently of H2S signaling. [ABSTRACT FROM AUTHOR]

Published

2024

9. Cystathionine Gamma-Lyase Regulates TNF-α-Mediated Injury Response in Human Colonic Epithelial Cells and Colonoids

Author

Francisco Arroyo Almenas, Gábor Törő, Peter Szaniszlo, Manjit Maskey, Ketan K. Thanki, Walter A. Koltun, Gregory S. Yochum, Irina V. Pinchuk, Celia Chao, Mark R. Hellmich, and Katalin Módis

Subjects

cystathionine gamma-lyase, hydrogen sulfide, TNF-α, inflammation, colonic epithelial cells, colonoids, Therapeutics. Pharmacology, RM1-950

Abstract

Cystathionine gamma-lyase (CSE) and TNF-α are now recognized as key regulators of intestinal homeostasis, inflammation, and wound healing. In colonic epithelial cells, both molecules have been shown to influence a variety of biological processes, but the specific interactions between intracellular signaling pathways regulated by CSE and TNF-α are poorly understood. In the present study, we investigated these interactions in normal colonocytes and an organoid model of the healthy human colon using CSE-specific pharmacological inhibitors and siRNA-mediated transient gene silencing in analytical and functional assays in vitro. We demonstrated that CSE and TNF-α mutually regulated each other’s functions in colonic epithelial cells. TNF-α treatment stimulated CSE activity within minutes and upregulated CSE expression after 24 h, increasing endogenous CSE-derived H2S production. In turn, CSE activity promoted TNF-α-induced NF-ĸB and ERK1/2 activation but did not affect the p38 MAPK signaling pathway. Inhibition of CSE activity completely abolished the TNF-α-induced increase in transepithelial permeability and wound healing. Our data suggest that CSE activity may be essential for effective TNF-α-mediated intestinal injury response. Furthermore, CSE regulation of TNF-α-controlled intracellular signaling pathways could provide new therapeutic targets in diseases of the colon associated with impaired epithelial wound healing.

Published

2024

10. Pharmacological Inhibition and Genetic Deletion of Cystathionine Gamma-Lyase in Mice Protects against Organ Injury in Sepsis: A Key Role of Adhesion Molecules on Endothelial Cells.

Author

Manandhar, Sumeet, Chambers, Stephen, Miller, Andrew, Ishii, Isao, and Bhatia, Madhav

Subjects

*SEPSIS, *CYSTATHIONINE gamma-lyase, *CELL adhesion molecules, *LIVER cells, *MICE, *DELETION mutation

Abstract

Hydrogen sulfide (H2S), synthesized by cystathionine gamma-lyase (Cth), contributes to the inflammatory response observed in sepsis. This study examines the effect of Cth-derived H2S in adhesion molecules on endothelial cells of vital organs in mice in a cecal ligation puncture (CLP)-induced model of sepsis, using two different and complementary approaches: Cth gene deletion and pharmacological inhibition. Our findings revealed a decreased level of H2S-synthesizing activity (via Cth) in both Cth−/− mice and PAG-treated wild-type (WT) mice following CLP-induced sepsis. Both treatment groups had reduced MPO activity and expression of chemokines (MCP-1 and MIP-2α), adhesion molecules (ICAM-1 and VCAM-1), ERK1/2 phosphorylation, and NF-κB in the liver and lung compared with in CLP-WT mice. Additionally, we found that PAG treatment in Cth−/− mice had no additional effect on the expression of ERK1/2 phosphorylation, NF-κB, or the production of chemokines and adhesion molecules in the liver and lung compared to Cth−/− mice following CLP-induced sepsis. The WT group with sepsis had an increased immunoreactivity of adhesion molecules on endothelial cells in the liver and lung than the WT sham-operated control. The Cth−/−, PAG-treated WT, and Cth−/− groups of mice showed decreased immunoreactivity of adhesion molecules on endothelial cells in the liver and lung following sepsis. Inhibition of H2S production via both approaches reduced adhesion molecule expression on endothelial cells and reduced liver and lung injury in mice with sepsis. In conclusion, this study demonstrates that H2S has an important role in the pathogenesis of sepsis and validates PAG use as a suited tool for investigating the Cth/H2S-signalling axis in sepsis. [ABSTRACT FROM AUTHOR]

Published

2023

11. Mitochondrial H2S Production Regulates Stomatal Immunity.

Author

Zhou, Mingjian and Xie, Yanjie

Subjects

*PLANT physiology, *DISEASE resistance of plants, *PLANT defenses, *CYSTATHIONINE gamma-lyase, *CELL physiology, *PLANT mitochondria, *STOMATA, *ROOT hairs (Botany)

Published

2024

12. Trophoblast H2S Maintains Early Pregnancy via Regulating Maternal-Fetal Interface Immune Hemostasis.

Author

Wang, Banqin, Xu, Tonghui, Li, Yan, Wang, Wenfu, Lyu, Chunzi, Luo, Dan, Yang, Qiuhong, Ning, Nannan, Chen, Zi-Jiang, Yan, Junhao, Chen, Dong-bao, and Li, Jingxin

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Contraception/Reproduction, Pediatric, Aetiology, 2.1 Biological and endogenous factors, Reproductive health and childbirth, Good Health and Well Being, Abortion, Habitual, Animals, Cells, Cultured, Cystathionine beta-Synthase, Cystathionine gamma-Lyase, Female, Homeostasis, Humans, Hydrogen Sulfide, Male, Maternal-Fetal Exchange, Mice, Knockout, Pregnancy, Signal Transduction, Trophoblasts, hydrogen sulfide, cystathionine beta-synthase, immune hemostasis, maternal-fetal interface, unexplained recurrent spontaneous abortion, cystathionine β-synthase, Clinical Sciences, Paediatrics and Reproductive Medicine, Endocrinology & Metabolism, Clinical sciences

Abstract

Dysregulated immune hemostasis occurs in unexplained recurrent spontaneous abortion (URSA). Synthesized by cystathionine β-synthase (CBS) and cystathionine γ-lyase (CSE), hydrogen sulfide (H2S) promotes regulatory T-cell differentiation and regulates immune hemostasis; yet, its role in URSA is elusive. To determine if H2S plays a role in early pregnancy and if dysregulated H2S signaling results in recurrent spontaneous abortion. First trimester placenta villi and decidua were collected from normal and URSA pregnancies. Protein expression was examined by immunohistochemistry and immunoblotting. Human trophoblast HTR8/SVneo and JEG3 cells were treated with H2S donors; HTR8/SVneo cells were transfected with CBS ribonucleic acid interference (RNAi) or complementary deoxyribonucleic acid. Cell migration and invasion were determined by transwell assays; trophoblast transcriptomes were determined by RNA sequencing (RNA-seq). Wild-type, CBS-deficient, and CBA/J × DBA/2 mice were treated with CBS and CSE inhibitors or H2S donors to determine the role of H2S in early pregnancy in vivo. CBS and CSE proteins showed cell-specific expressions, but only CBS decreased in the villous cytotrophoblast in URSA versus normal participants. H2S donors promoted migration and invasion and MMP-2 and VEGF expression in human placenta trophoblast cells that contain SV40 viral deoxyribonucleic acid sequences (HTR8/SVneo) and human placenta trophoblast cells (JEG3 cells), similar to forced CBS expression in HTR8/SVneo cells. The CBS-responsive transcriptomes in HTR8/SVneo cells contained differentially regulated genes (ie, interleukin-1 receptor and prostaglandin-endoperoxide synthase 2) that are associated with nuclear factor-κB-mediated inflammatory response. In vivo, dysregulated CBS/H2S signaling significantly increased embryonic resorption and decidual T-helper 1/T-helper 2 imbalance in mice, which was partially rescued by H2S donors. CBS/H2S signaling maintains early pregnancy, possibly via regulating maternal-fetal interface immune hemostasis, offering opportunities for H2S-based immunotherapies for URSA.

Published

2020

13. Pioglitazone treatment increases the cellular acid-labile and protein-bound sulfane sulfur fractions.

Author

Islam, Mohammad Z. and Shackelford, Rodney E.

Subjects

*ATAXIA telangiectasia mutated protein, *IRON clusters, *PIOGLITAZONE, *CYSTATHIONINE gamma-lyase, *IRON-sulfur proteins, *SULFUR

Abstract

Iron-sulfur clusters play a central role in cellular function and are regulated by the ATM protein. Iron-sulfur clusters are part of the cellular sulfide pool, which functions to maintain cardiovascular health, and consists of free hydrogen sulfide, iron-sulfur clusters, protein bound sulfides, which constitute the total cellular sulfide fraction. ATM protein signaling and the drug pioglitazone share some cellular effects, which led us to examine the effects of this drug on cellular iron-sulfur cluster formation. Additionally, as ATM functions in the cardiovasculature and its signaling may be diminished in cardiovascular disease, we examined pioglitazone in the same cell type, with and without ATM protein expression. We examined the effects of pioglitazone treatment on the total cellular sulfide profile, the glutathione redox state, cystathionine gamma-lyase enzymatic activity, and on double-stranded DNA break formation in cells with and without ATM protein expression. Pioglitazone increased the acid-labile (iron-sulfur cluster) and bound sulfur cellular fractions and reduced cystathionine gamma-lyase enzymatic activity in cells with and without ATM protein expression. Interestingly, pioglitazone also increased reduced glutathione and lowered DNA damage in cells without ATM protein expression, but not in ATM wild-type cells. These results are interesting as the acid-labile (iron-sulfur cluster), bound sulfur cellular fractions, and reduced glutathione are low in cardiovascular disease. Here we found that pioglitazone increased the acid-labile (iron-sulfur cluster) and bound sulfur cellular fractions, impinges on hydrogen sulfide synthesis, and exerts beneficial effect on cells with deficient ATM protein signaling. Thus, we show a novel pharmacologic action for pioglitazone. • Pioglitazone increases cellular iron-sulfur complex and protein sulfhydration. • Pioglitazone impinges are several aspects of hydrogen sulfide function and synthesis. • Pioglitazone increases reduced glutathione levels and DNA repair capacity in ATM protein expression-deficient cells. • Pioglitazone is a possible pharmacologic treatment for ataxia-telangiectasia. [ABSTRACT FROM AUTHOR]

Published

2023

14. 尖孢镰刀菌古巴专化型胱硫醚γ-合成酶的功能分析.

Author

刘礼广, 丁兆建, 李梦涵, 吴春花, 谢欣捷, 彭军, and 张欣

Subjects

CYSTATHIONINE gamma-lyase, METHIONINE, DRUG target, CYSTEINE, FUSARIUM oxysporum, MYCELIUM, FUSARIUM

Abstract

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Published

2023

15. Heat Shock Protein 70 in Penile Neurovascular Regeneration Requires Cystathionine Gamma-Lyase

Author

Kalyan Ghatak, Guo Nan Yin, Soon-Sun Hong, Ju-Hee Kang, Jun-Kyu Suh, and Ji-Kan Ryu

Subjects

cystathionine gamma-lyase, diabetes mellitus, erectile dysfunction, heat shock protein 70, neovascularization, nerve regeneration, Medicine, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Purpose: Diabetes mellitus, one of the major causes of erectile dysfunction, leads to a poor response to phosphodiesterase-5 inhibitors. Heat shock protein 70 (Hsp70), a ubiquitous molecular chaperone, is known to play a role in cell survival and neuroprotection. Here, we aimed to assess whether and how Hsp70 improves erectile function in diabetic mice. Materials and Methods: Eight-week-old male C57BL/6 mice and Hsp70-Tg mice were used in this study. We injected Hsp70 protein into the penis of streptozotocin (STZ)-induced diabetic mice. Detailed mechanisms were evaluated in WT or Hsp70- Tg mice under normal and diabetic conditions. Primary MCECs, and MPG and DRG tissues were cultivated under normalglucose and high-glucose conditions. Results: Using Hsp70-Tg mice or Hsp70 protein administration, we demonstrate that elevated levels of Hsp70 restores erectile function in diabetic mice. We found that cystathionine gamma-lyase (Cse) is a novel target of Hsp70 in this process, showing that Hsp70-Cse acts through the SDF1/HO-1/PI3K/Akt/eNOS/NF-κB p65 pathway to exert its neurovascular regeneration- promoting effects. Coimmunoprecipitation and pull-down assays using mouse cavernous endothelial cells treated with Hsp70 demonstrated physical interactions between Hsp70 and Cse with a dissociation constant of 1.8 nmol/L. Conclusions: Our findings provide novel and solid evidence that Hsp70 acts through a Cse-dependent mechanism to mediate neurovascular regeneration and restoration of erectile function under diabetic conditions.

Published

2022

16. Reconstruction of reverse transsulfuration pathway enables cysteine biosynthesis and enhances resilience to oxidative stress in Chinese Hamster Ovary cells.

Author

Chen, Yiqun and Betenbaugh, Michael J.

Subjects

*CHO cell, *CYSTEINE, *OXIDATIVE stress, *CYSTATHIONINE gamma-lyase, *BIOSYNTHESIS, *CELL culture

Abstract

Cysteine is a critically important amino acid necessary for mammalian cell culture, playing key roles in nutrient supply, disulfide bond formation, and as a precursor to antioxidant molecules controlling cellular redox. Unfortunately, its low stability and solubility in solution make it especially problematic as an essential medium component that must be added to Chinese hamster ovary and other mammalian cell cultures. Therefore, CHO cells have been engineered to include the capacity of endogenously synthesizing cysteine by overexpressing multiple enzymes, including cystathionine beta-synthase (CBS), cystathionine gamma-lyase (CTH) and glycine N-methyltransferase (GNMT) to reconstruct the reverse transsulfuration pathway and overcome a key metabolic bottleneck. Some limited cysteine biosynthesis was obtained by overexpressing CBS and CTH for converting homocysteine to cysteine but robust metabolic synthesis from methionine was only possibly after incorporating GNMT which likely represents a key bottleneck step in the cysteine biosynthesis pathway. CHO cells with the reconstructed pathway exhibit the strong capability to proliferate in cysteine-limited and cysteine-free batch and fed-batch cultures at levels comparable to wildtype cells with ample cysteine supplementation, providing a selectable marker for CHO cell engineering. GNMT overexpression led to the accumulation of sarcosine byproduct, but its accumulation did not affect cell growth. Furthermore, pathway reconstruction enhanced CHO cells' reduced and glutathione levels in cysteine-limited conditions compared to unmodified cells, and greatly enhanced survivability and maintenance of redox homeostasis under oxidative stress induced by addition of menadione in cysteine-deficient conditions. Such engineered CHO cell lines can potentially reduce or even eliminate the need to include cysteine in culture medium, which not only reduces the cost of mammalian media but also promises to transform media design by solving the challenges posed by low stability and solubility of cysteine and cystine in future mammalian biomanufacturing processes. • Inactive and rate-limiting reactions in cysteine synthetic pathway were identified in CHO cells. • Overexpression of CBS, CTH and GNMT enzymes were successfully performed in CHO cells. • Two CHO cell lines were successfully generated with homocysteine-specific and cysteine-free selection processes. • Fast proliferation in cysteine-free environment was observed for CHOGS-CCG-3 cell line in batch and fed-batch cultures. • CHOGS-CCG-3 maintained high GSH level and robust resistance to oxidative stress in cysteine-deficient environments. [ABSTRACT FROM AUTHOR]

Published

2023

17. Role of 3-Mercaptopyruvate Sulfurtransferase (3-MST) in Physiology and Disease.

Author

Rao, Swetha Pavani, Dobariya, Prakashkumar, Bellamkonda, Harshini, and More, Swati S.

Subjects

CYSTATHIONINE gamma-lyase, HYDROGEN sulfide, PHYSIOLOGY, NEUROLOGICAL disorders, CYANIDE poisoning

Abstract

3-mercaptopyruvate sulfurtransferase (3-MST) plays the important role of producing hydrogen sulfide. Conserved from bacteria to Mammalia, this enzyme is localized in mitochondria as well as the cytoplasm. 3-MST mediates the reaction of 3-mercaptopyruvate with dihydrolipoic acid and thioredoxin to produce hydrogen sulfide. Hydrogen sulfide is also produced through cystathionine beta-synthase and cystathionine gamma-lyase, along with 3-MST, and is known to alleviate a variety of illnesses such as cancer, heart disease, and neurological conditions. The importance of cystathionine beta-synthase and cystathionine gamma-lyase in hydrogen sulfide biogenesis is well-described, but documentation of the 3-MST pathway is limited. This account compiles the current state of knowledge about the role of 3-MST in physiology and pathology. Attempts at targeting the 3-MST pathway for therapeutic benefit are discussed, highlighting the potential of 3-MST as a therapeutic target. [ABSTRACT FROM AUTHOR]

Published

2023

18. Estradiol‐17β stimulates H2S biosynthesis by ER‐dependent CBS and CSE transcription in uterine artery smooth muscle cells in vitro

Author

Lechuga, Thomas J, Bilg, Amanpreet K, Patel, Bansari A, Nguyen, Nicole A, Qi, Qian‐rong, and Chen, Dong‐bao

Subjects

Estrogen, Animals, Cells, Cultured, Cystathionine beta-Synthase, Cystathionine gamma-Lyase, Estradiol, Hydrogen Sulfide, Myocytes, Smooth Muscle, RNA, Messenger, Receptors, Estrogen, Sheep, Transcription, Genetic, Uterine Artery, CBS, CSE, estrogens, hydrogen sulfide, in vitro, uterine artery smooth muscle cells, Biochemistry and Cell Biology, Medical Physiology, Biochemistry & Molecular Biology

Abstract

Endogenous hydrogen sulfide (H2 S), synthesized by cystathionine β-synthase (CBS) and cystathionine γ-lyase (CSE), is a potent vasodilator that can be stimulated by estradiol-17β (E 2 β) in uterine artery (UA) smooth muscle (UASMC) in vivo; however, the underlying mechanisms are unknown. This study tested a hypothesis that E 2 β stimulates H 2 S biosynthesis by upregulating CBS expression via specific estrogen receptor (ER). Treatment with E 2 β stimulated time- and concentration- dependent CBS and CSE messenger RNA (mRNA) and protein expressions, and H 2 S production in cultured primary UASMC isolated from late pregnant ewes, which were blocked by ICI 182,780. Treatment with specific ERα or ERβ agonist mimicked these E 2 β-stimulated responses, which were blocked by specific ERα or ERβ antagonist. Moreover, E 2 β activated both CBS and CSE promoters and ICI 182,780 blocked the E 2 β-stimulated responses. Thus, E 2 β stimulates H 2 S production by upregulating CBS and CSE expression via specific ER-dependent transcription in UASMC in vitro.

Published

2019

19. E2 Stimulates Ovine Uterine Artery Endothelial Cell H2S Production in vitro by Estrogen Receptor-Dependent Upregulation of Cystathionine -Synthase and Cystathionine -Lyase Expression

Author

Lechuga, Thomas J, Qi, Qian-rong, Kim, Theresa, Magness, Ronald R, and Chen, Dong-bao

Subjects

Estrogen, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Animals, Cystathionine beta-Synthase, Cystathionine gamma-Lyase, Dose-Response Relationship, Drug, Endothelial Cells, Estradiol, Female, Gene Expression Regulation, Enzymologic, Hydrogen Sulfide, RNA, Messenger, Sheep, Time Factors, Up-Regulation, Uterine Artery, Uterus, estrogen, estrogen receptors, hydrogen sulfide, endothelium, uterine artery, vasodilation, Biological Sciences, Medical and Health Sciences, Obstetrics & Reproductive Medicine

Abstract

Endogenous hydrogen sulfide (H2S) is a potent vasodilator and proangiogenic second messenger synthesized from L-cysteine by cystathionine β-synthase (CBS) and cystathionine γ-lyase (CTH). Estrogens are potent vasodilators that stimulate H2S biosynthesis in uterine arteries (UA) in vivo; however, the underlying mechanisms are unknown. We hypothesized that estrogens stimulate H2S biosynthesis in UA endothelial cells (UAEC) via specific estrogen receptor (ER)-dependent mechanisms. In cultured primary UAEC, treatment with estradiol-17β (E2β) stimulated CBS and CTH mRNAs and proteins in a time- and concentration-dependent fashion. As little as 0.1 nM E2β was effective in increasing CBS and CTH expressions and these stimulatory effects maximized with 10-100 nM E2β at 48-72 h. E2β also activated CBS and CTH promoters in UAEC, leading to CBS and CTH expression. Treatment with E2β stimulated H2S production, which was blocked by specific inhibitors of either CBS or CTH and their combination and the ER antagonist ICI 182780. Treatment with either specific agonist of ERα or ERβ stimulated both CBS and CTH mRNA and protein expressions and H2S production to levels similar to that of E2β. Specific antagonist of either ERα or ERβ blocked E2β-stimulated CBS and CTH mRNA and protein expressions and H2S production. Combinations of either ERα or ERβ agonists or their antagonists had no additive effects. Thus, E2β stimulates H2S production by upregulating CBS and CTH mRNA and protein expressions through specific ERα or ERβ-dependent CBS and CTH transcription in UAEC in vitro.

Published

2019

20. Differential Roles of Cystathionine Gamma-Lyase and Mercaptopyruvate Sulfurtransferase in Hapten-Induced Colitis and Contact Dermatitis in Mice.

Author

Akahoshi, Noriyuki, Hasegawa, Ryoka, Yamamoto, Shingo, Takemoto, Rintaro, Yoshizawa, Toshiki, Kamichatani, Waka, and Ishii, Isao

Subjects

*INFLAMMATORY bowel diseases, *CYSTATHIONINE gamma-lyase, *CONTACT dermatitis, *CROHN'S disease, *COLITIS, *ULCERATIVE colitis

Abstract

Hydrogen sulfide (H2S) has been shown to act as both anti-inflammatory and pro-inflammatory mediators. Application of H2S donors generally protects against inflammation; however, experimental results using mice lacking endogenous H2S-producing enzymes, such as cystathionine γ-lyase (CTH) and mercaptopyruvate sulfurtransferase (MPST), are often contradictory. We herein examined two types of model hapten-induced inflammation models, colitis (an inflammatory bowel disease model of mucosal immunity) and contact dermatitis (a type IV allergic model of systemic immunity), in CTH-deficient (Cth–/–) and MPST-deficient (Mpst–/–) mice. Both mice exhibited no significant alteration from wild-type mice in trinitrobenzene sulfonic acid (Th1-type hapten)-induced colitis (a Crohn's disease model) and oxazolone (Th1/Th2 mix-type; Th2 dominant)-induced colitis (an ulcerative colitis model). However, Cth–/– (not Mpst–/–) mice displayed more exacerbated phenotypes in trinitrochlorobenzene (TNCB; Th1-type)-induced contact dermatitis, but not oxazolone, at the delayed phase (24 h post-administration) of inflammation. CTH mRNA expression was upregulated in the TNCB-treated ears of both wild-type and Mpst–/– mice. Although mRNA expression of pro-inflammatory cytokines (IL-1β and IL-6) was upregulated in both early (2 h) and delayed phases of TNCB-triggered dermatitis in all genotypes, that of Th2 (IL-4) and Treg cytokines (IL-10) was upregulated only in Cth–/– mice, when that of Th1 cytokines (IFNγ and IL-2) was upregulated in wild-type and Mpst–/– mice at the delayed phase. These results suggest that (upregulated) CTH or H2S produced by it helps maintain Th1/Th2 balance to protect against contact dermatitis. [ABSTRACT FROM AUTHOR]

Published

2023

21. Cystathionine gamma-lyase (Cth) induces efferocytosis in macrophages via ERK1/2 to modulate intestinal barrier repair.

Author

Zhao, Xiao-Hu, Yang, Ting, Zheng, Meng-Yao, Zhao, Peinan, An, Li-Ya, Qi, Yu-Xing, Yi, Ke-Qian, Zhang, Peng-Cheng, and Sun, Da-Li

Subjects

*CYSTATHIONINE gamma-lyase, *INTESTINES, *CELL death, *SMALL intestine, *MACROPHAGES, *CELLULAR signal transduction

Abstract

Background: The inflammatory response induced by intestinal ischaemia‒reperfusion injury (I/R) is closely associated with infectious complications and mortality in critically ill patients, and the timely and effective clearance of apoptotic cells is an important part of reducing the inflammatory response. Studies have shown that the efferocytosis by phagocytes plays an important role. Recently, studies using small intestine organoid models showed that macrophage efferocytosis could promote the repair capacity of the intestinal epithelium. However, no studies have reported efferocytosis in the repair of I/R in animal models. Results: We used an in vivo efferocytosis assay and discovered that macrophage efferocytosis played an indispensable role in repairing and maintaining intestinal barrier function after I/R. In addition, the specific molecular mechanism that induced macrophage efferocytosis was Cth-ERK1/2 dependent. We found that Cth drove macrophage efferocytosis in vivo and in vitro. Overexpression/silencing Cth promoted/inhibited the ERK1/2 pathway, respectively, which in turn affected efferocytosis and mediated intestinal barrier recovery. In addition, we found that the levels of Cth and macrophage efferocytosis were positively correlated with the recovery of intestinal function in clinical patients. Conclusion: Cth can activate the ERK1/2 signalling pathway, induce macrophage efferocytosis, and thus promote intestinal barrier repair. ANik3mFzVX11c2tZJFb62z Video Abstract [ABSTRACT FROM AUTHOR]

Published

2023

22. Structural analysis of the CJ0600 protein from Campylobacter jejuni.

Author

Ki, Dong Uk, Choi, Hong Joon, Song, Wan Seok, and Yoon, Sung-il

Subjects

*CAMPYLOBACTER jejuni, *CYSTATHIONINE gamma-lyase, *SCHIFF bases, *CRYSTAL structure, *PROTEIN structure

Abstract

The Campylobacter jejuni bacterium, which causes foodborne enteritis in humans, expresses the uncharacterized protein CJ0600. Based on sequence analysis, CJ0600 has been proposed to function as a 1-aminocyclopropane-1-carboxylate (ACC) deaminase (AccDA) or cysteine desulfhydrase (CysDS). However, it has never been investigated whether CJ0600 exerts AccDA or CysDS activity or how CJ0600 mediates its enzymatic activity. To reveal the structural features necessary for the function of CJ0600, we determined the crystal structure of CJ0600 and characterized its enzymatic activity. CJ0600 contains two domains and features an interdomain pocket, which accommodates a pyridoxal 5′-phosphate (PLP) molecule as a Schiff base with its lysine residue (K35), as observed in its structural homologs, including AccDA, CysDS, and serine deaminase (SerDA). However, unlike its structural homologs, CJ0600 exists as a monomer and exhibits unique structural features throughout its structure. Moreover, CJ0600 contains unique active site residues that are not observed in AccDA, CysDS, or SerDA. Consistently, phylogenetic analysis indicates that CJ0600 and its orthologs are evolutionarily distinct from AccDA, CysDS, and SerDA. Indeed, CJ0600 showed no CysDS or SerDA activity and extremely weak AccDA activity. These observations suggest that CJ0600 functions as a unique PLP-dependent enzyme that has not been reported. • We determined the crystal structure of the CJ0600 protein from Campylobacter jejuni. • CJ0600 consists of two domains and contains an interdomain pocket. • The pocket of CJ0600 accommodates pyridoxal 5′-phosphate as a putative active site. • CJ0600 displays unique structural, enzymatic, and phylogenetic features. [ABSTRACT FROM AUTHOR]

Published

2024

23. PROTECTIVE EFFECTS OF SULFORAPHANE AGAINST INJURY OF ENDOCRINE PANCREAS IN DIABETIC MICE INCLUDE ANTIFERROPTOTIC ACTION.

Author

Milica, Markelić, Ana, Stančić, Nevena, Savić, Ksenija, Veličković, Vesna, Martinović, Anđelija, Gudelj, Vesna, Otašević, and Ilijana, Grigorov

Subjects

ISLANDS of Langerhans, SULFORAPHANE, CYSTATHIONINE gamma-lyase, BRASSICACEAE, INTRAPERITONEAL injections

Abstract

Sulforaphane (SFN) is a natural sulphur-containing compound with various beneficial biological effects that is found in cruciferous vegetables. Among others, these effects include the activation of Nrf2, a transcription factor that plays an important role in the prevention of ferroptosis, a cell death characterized by the accumulation of labile iron, glutathione (GSH) depletion and lipid peroxidation. Recently, we have demonstrated the antiferroptotic hepatoprotective effect of SFN in diabetic mice. Since ferroptosis has also been confirmed by us and others as one of the causes of β-cell destruction in diabetes, we aimed to investigate the potential of SFN treatment in preventing/eliminating injury of pancreatic islets during diabetes development in vivo. For this purpose, male C57BL/6 mice were divided into four groups (n=8): Control (Crtl), SFN-treated (SFN, 2.5 mg/kg), diabetic (DM, treated with 40 mg/kg streptozotocin from day 1-5) and diabetic SFN-treated (DM+SFN) group. All animals received an intraperitoneal injection of SFN or vehicle for 42 days and were sacrificed on day 43. Pancreata were isolated and prepared for histologic analysis and determination of GSH content. Glycemia was measured once a week during the experiment. Consistent with the improved glycemia, we observed histologic evidence of improvement in the endocrine pancreas of the DM+SFN animals: pancreatic GSH content was restored, average islet size and insulin immunopositivity returned to control values, and there was less insulitis than in the DM group. Lipid peroxidation, which was greatly increased in the DM islets as shown by 4-HNE immunopositivity, also decreased in the DM+SFN animals, while Nrf2 increased. As a sign of improved islet regeneration, PDX-1 immunoexpression strongly increased in this group. To investigate whether SFN as a natural H2S donor affects the endogenous production of this gasotransmitter in islet cells, immunoexpression of cystathionine-βsynthase (CBS) and cystathionine gamma-lyase (CSE) was also analyzed. The results showed that SFN increased CBS expression in islets under diabetogenic insults. In summary, we have shown that SFN prevents diabetogenic islet damage by activating antiferroptotic signaling pathways. Moreover, our results indicate the importance of the H2S/CBS signaling pathway in protecting islet cells from DM insult, indicating this pathway as a potential antidiabetic target. [ABSTRACT FROM AUTHOR]

Published

2024

24. Multimodal analysis suggests differential immuno-metabolic crosstalk in lung squamous cell carcinoma and adenocarcinoma.

Author

Leitner, Brooks P., Givechian, Kevin B., Ospanova, Shyryn, Beisenbayeva, Aray, Politi, Katerina, and Perry, Rachel J.

Subjects

SQUAMOUS cell carcinoma, NON-small-cell lung carcinoma, IMMUNE checkpoint inhibitors, CYSTATHIONINE gamma-lyase, AMINO acid metabolism

Abstract

Immunometabolism within the tumor microenvironment is an appealing target for precision therapy approaches in lung cancer. Interestingly, obesity confers an improved response to immune checkpoint inhibition in non-small cell lung cancer (NSCLC), suggesting intriguing relationships between systemic metabolism and the immunometabolic environment in lung tumors. We hypothesized that visceral fat and 18F-Fluorodeoxyglucose uptake influenced the tumor immunometabolic environment and that these bidirectional relationships differ in NSCLC subtypes, lung adenocarcinoma (LUAD) and lung squamous cell carcinoma (LUSC). By integrating 18F-FDG PET/CT imaging, bulk and single-cell RNA-sequencing, and histology, we observed that LUSC had a greater dependence on glucose than LUAD. In LUAD tumors with high glucose uptake, glutaminase was downregulated, suggesting a tradeoff between glucose and glutamine metabolism, while in LUSC tumors with high glucose uptake, genes related to fatty acid and amino acid metabolism were also increased. We found that tumor-infiltrating T cells had the highest expression of glutaminase, ribosomal protein 37, and cystathionine gamma-lyase in NSCLC, highlighting the metabolic flexibility of this cell type. Further, we demonstrate that visceral adiposity, but not body mass index (BMI), was positively associated with tumor glucose uptake in LUAD and that patients with high BMI had favorable prognostic transcriptional profiles, while tumors of patients with high visceral fat had poor prognostic gene expression. We posit that metabolic adjunct therapy may be more successful in LUSC rather than LUAD due to LUAD's metabolic flexibility and that visceral adiposity, not BMI alone, should be considered when developing precision medicine approaches for the treatment of NSCLC. [ABSTRACT FROM AUTHOR]

Published

2022

25. Deficiency of cystathionine gamma-lyase promotes aortic elastolysis and medial degeneration in aged mice.

Author

Zhu, Jiechun, Wang, Yuehong, Rivett, Alexis, Li, Hongzhu, Wu, Lingyun, Wang, Rui, and Yang, Guangdong

Subjects

*CYSTATHIONINE gamma-lyase, *AORTA, *CARDIOVASCULAR system, *POST-translational modification, *AORTIC aneurysms, *ANGIOTENSIN II

Abstract

Enzymatic degradation of elastin by matrix metalloproteinases (MMPs) leads to the permanent dilation of aortic wall and constitutes the most prominent characters of aortic aneurysm and aging-related medial degeneration. Hydrogen sulfide (H 2 S) as a gasotransmitter exhibits a wide variety of cardio-protective functions through its anti-inflammatory and anti-oxidative actions. Cystathionine gamma-lyase (CSE) is a main H 2 S-generating enzyme in cardiovascular system. The regulatory roles of CSE/H 2 S system on elastin homeostasis and blood vessel degeneration have not yet been explored. Here we found that aged CSE knockout mice had severe aortic dilation and elastic degradation in abdominal aorta and were more sensitive to angiotensin II-induced aortic elastolysis and medial degeneration. Administration of NaHS would protect the mice from angiotensin II-induced inflammation, gelatinolytic activity, elastin fragmentation, and aortic dilation. In addition, human aortic aneurysm samples had higher inflammatory infiltration and lower expression of CSE. In cultured smooth muscle cells (SMCs), TNFα-induced MMP2/9 hyperactivity and elastolysis could be attenuated by exogenously applied NaHS or CSE overexpression while further deteriorated by complete knockout of CSE. It was further found that H 2 S inhibited MMP2 transcription by posttranslational modification of Sp1 via S -sulfhydration. H 2 S also directly suppressed MMP hyperactivity by S -sulfhydrating the cysteine switch motif. Taken together, this study revealed the involvement of CSE/H 2 S system in the pathogenesis of aortic elastolysis and medial degeneration by maintaining the inactive form of MMPs, suggesting that CSE/H 2 S system can be a target for the prevention of age-related medial degeneration and treatment of aortic aneurysm. [Display omitted] • Cystathionine gamma-lyase (CSE) deficiency induces severe aortic elastolysis and medial degeneration in aged mice. • H 2 S attenuates medial degeneration through inhibition of gelatinolytic activity and elastin degradation. • H 2 S maintains the inactive form of MMP2/9 by S -sulfhydrating the cysteine residue located in the cysteine switch motif. • H 2 S inhibits MMP2 promoter activity by Sp1 S -sulfhydration. [ABSTRACT FROM AUTHOR]

Published

2022

26. Heat Shock Protein 70 in Penile Neurovascular Regeneration Requires Cystathionine Gamma-Lyase.

Author

Ghatak, Kalyan, Guo Nan Yin, Soon-Sun Hong, Ju-Hee Kang, Jun-Kyu Suh, and Ji-Kan Ryu

Subjects

*DIABETES, *IMPOTENCE, *PHOSPHODIESTERASE-5 inhibitors, *HEAT shock proteins, *CYSTATHIONINE gamma-lyase

Abstract

Purpose: Diabetes mellitus, one of the major causes of erectile dysfunction, leads to a poor response to phosphodiesterase-5 inhibitors. Heat shock protein 70 (Hsp70), a ubiquitous molecular chaperone, is known to play a role in cell survival and neuroprotection. Here, we aimed to assess whether and how Hsp70 improves erectile function in diabetic mice. Materials and Methods: Eight-week-old male C57BL/6 mice and Hsp70-Tg mice were used in this study. We injected Hsp70 protein into the penis of streptozotocin (STZ)-induced diabetic mice. Detailed mechanisms were evaluated in WT or Hsp70- Tg mice under normal and diabetic conditions. Primary MCECs, and MPG and DRG tissues were cultivated under normalglucose and high-glucose conditions. Results: Using Hsp70-Tg mice or Hsp70 protein administration, we demonstrate that elevated levels of Hsp70 restores erectile function in diabetic mice. We found that cystathionine gamma-lyase (Cse) is a novel target of Hsp70 in this process, showing that Hsp70-Cse acts through the SDF1/HO-1/PI3K/Akt/eNOS/NF-κB p65 pathway to exert its neurovascular regeneration-promoting effects. Coimmunoprecipitation and pull-down assays using mouse cavernous endothelial cells treated with Hsp70 demonstrated physical interactions between Hsp70 and Cse with a dissociation constant of 1.8 nmol/L. Conclusions: Our findings provide novel and solid evidence that Hsp70 acts through a Cse-dependent mechanism to mediate neurovascular regeneration and restoration of erectile function under diabetic conditions. [ABSTRACT FROM AUTHOR]

Published

2022

27. CSE/H2S ameliorates colitis in mice via protection of enteric glial cells and inhibition of the RhoA/ROCK pathway.

Author

Song Wang, Yanyu Ding, and Wenjun Jiang

Subjects

GLIAL fibrillary acidic protein, NEUROGLIA, COLITIS, ANIMAL diseases, MICE

Abstract

The enteric glial cells (EGCs) participate in the homeostasis of the gastrointestinal tract, and RhoA/ROCK signaling pathway plays a vital role in colonic tight junctions. Hydrogen sulfide (H2S) has been reported to alleviate colitis. However, the effect and mechanism of endogenous H2S on colitis remain unclear. This study established a Cystathionine-g-lyase (CSE) knockout mouse model, a significant source of H2S production in the gut. The role of CSE-produced H2S on EGCs and the RhoA/ROCK signaling pathway was investigated in experimental colitis using CSE knockout (KO) and wild-type (WT) mice. CSE gene knockout animals presented with disease progression, more deteriorated clinical scores, colon shortening, and histological damage. EGCs dysfunction, characterized by decreased expression of the glial fibrillary acidic protein (GFAP), C3, and S100A10, was observed in the colon of WT and KO mice, especially in KO mice. RhoA/ROCK pathway was significantly upregulated in colon of colitis mice, which was more evident in KO mice. Pretreatment with NaHS, an exogenous H2S donor, significantly ameliorated mucosal injury and inhibited the expression of proinflammatory factors. Furthermore, we found that NaHS promoted the transformation of EGCs from "A1" to "A2" type, with decreased expression of C3 and increased expression of S100A10. These findings suggest that CSE/H2S protects mice from colon inflammation, which may be associated with preserving EGCs function by promoting EGCs transformation and inhibiting the RhoA/ROCK pathway. [ABSTRACT FROM AUTHOR]

Published

2022

28. Transcriptome Analysis of Dauer Moulting of a Plant Parasitic Nematode, Bursaphelenchus xylophilus Promoted by Pine Volatile β-Pinene.

Author

Zhang, Wei, Li, Yongxia, Liu, Zhenkai, Li, Dongzhen, Wen, Xiaojian, Feng, Yuqian, Wang, Xuan, and Zhang, Xingyao

Subjects

*PINEWOOD nematode, *MOLTING, *CONIFER wilt, *PARASITIC plants, *CYSTATHIONINE gamma-lyase, *LIFE cycles (Biology), *METABOLIC regulation

Abstract

Pinewood nematode, Bursaphelenchus xylophilus, a pine-parasitic nematode, poses a serious threat to pine trees globally, causing pine wilt disease. When dispersal-stage juvenile 4 (dauer, JIV, a durable stage) of B. xylophilus enters the new pine, it transforms into a propagative adult (dauer moulting) and reproduces quickly. Our previous studies have found that pine-volatile β-pinene promotes dauer moulting of B. xylophilus; however, this mechanism is not clear. Here, this study is attempting to unravel the molecular process underlying dauer moulting of B. xylophilus through signal chemical tests and transcriptome analysis. The results showed that β-pinene could promote dauer moulting of B. xylophilus, while other common dauer moulting signals, such as dafachronic acid (DA), part of the TGF/insulin signal pathway, were inoperative. Moreover, the JIV soaked in 1% β-pinene for only 6 h could transform into adults at a significant rate. Therefore, the transcriptomes of JIV soaked in 1% β-pinene for 6 h were sequenced. It was found that 15,556 genes were expressed; however, only 156 genes were expressed differentially and enriched in the metabolism of xenobiotics, peroxisome, fatty acid metabolism, and carbon metabolism, indicating that energy metabolism was active at the early stage of dauer moulting. With a stricter parameter, the number of differential genes fell to 19, including 4 sterol hydroxylase, 5 dehydrogenase, 2 glucuronosyltransferase, 5 nuclear-related factor, 1 calcium-binding protein, 1 nitrogen metabolic regulation protein, and 1 cystathionine gamma-lyase. These results indicated that dauer moulting of B. xylophilus into adults might not be regulated by the TGF-β/insulin signal pathway but by another new signal pathway related to the 19 differential genes which need more exploration. Our results contribute to the understanding of the molecular mechanisms behind dauer moulting and may be useful in reducing pine wilt disease by suppressing this moulting to cut the life cycle of B. xylophilus. [ABSTRACT FROM AUTHOR]

Published

2022

29. Cystine-dependent antiporters buffer against excess intracellular reactive sulfur species-induced stress

Author

Masahiro Akiyama, Takamitsu Unoki, Hanako Aoki, Akiyuki Nishimura, Yasuhiro Shinkai, Eiji Warabi, Kazuhiro Nishiyama, Yuka Furumoto, Naohiko Anzai, Takaaki Akaike, Motohiro Nishida, and Yoshito Kumagai

Subjects

Sulfur stress, Cystine, Cysteine persulfide, Antiporter, Cystathionine gamma-lyase, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Reactive sulfur species (RSS) play a role in redox homeostasis; however, adaptive cell responses to excessive intracellular RSS are not well understood. Therefore, in this study, we generated transgenic (Tg) mice overexpressing cystathionine gamma-lyase (CSE) to produce excessive RSS. Contrary to expectations, tissue concentrations of RSS, such as cysteine persulfide (CysSSH), were comparable in both wild-type and CSE Tg mice, but the plasma concentrations of CysSSH were significantly higher in CSE Tg mice than in wild-type mice. This export of surplus intracellular RSS was also observed in primary hepatocytes of CSE Tg mice. Exposure of primary hepatocytes to the RSS generator sodium tetrasulfide (Na2S4) resulted in an initial increase in the intracellular concentration of RSS, which later returned to basal levels after export into the extracellular space. Interestingly, among all amino acids, cystine (CysSSCys) was found to be essential for CysSSH export from primary mouse hepatocytes, HepG2 cells, and HEK293 cells during Na2S4 exposure, suggesting that the cystine/glutamate transporter (SLC7A11) contributes, at least partially, to CysSSH export. We established HepG2 cell lines with knockout and overexpression of SLC7A11 and used them to confirm SLC7A11 as the predominant antiporter of CysSSCys and CysSSH. We observed that the poor efflux of excess CysSSH from the cell enhanced cellular stresses induced by Na2S4 exposure, such as polysulfidation of intracellular proteins, mitochondrial damage, and cytotoxicity. These results suggest the presence of a cellular response to excess intracellular RSS that involves the extracellular efflux of excess CysSSH by a cystine-dependent transporter to maintain intracellular redox homeostasis.

Published

2022

30. CSE/H2S ameliorates colitis in mice via protection of enteric glial cells and inhibition of the RhoA/ROCK pathway

Author

Song Wang, Yanyu Ding, and Wenjun Jiang

Subjects

hydrogen sulfide, cystathionine gamma-lyase, enteric nervous system, rho-associated kinases, colitis, animal model, Immunologic diseases. Allergy, RC581-607

Abstract

The enteric glial cells (EGCs) participate in the homeostasis of the gastrointestinal tract, and RhoA/ROCK signaling pathway plays a vital role in colonic tight junctions. Hydrogen sulfide (H2S) has been reported to alleviate colitis. However, the effect and mechanism of endogenous H2S on colitis remain unclear. This study established a Cystathionine-γ-lyase (CSE) knockout mouse model, a significant source of H2S production in the gut. The role of CSE-produced H2S on EGCs and the RhoA/ROCK signaling pathway was investigated in experimental colitis using CSE knockout (KO) and wild-type (WT) mice. CSE gene knockout animals presented with disease progression, more deteriorated clinical scores, colon shortening, and histological damage. EGCs dysfunction, characterized by decreased expression of the glial fibrillary acidic protein (GFAP), C3, and S100A10, was observed in the colon of WT and KO mice, especially in KO mice. RhoA/ROCK pathway was significantly upregulated in colon of colitis mice, which was more evident in KO mice. Pretreatment with NaHS, an exogenous H2S donor, significantly ameliorated mucosal injury and inhibited the expression of proinflammatory factors. Furthermore, we found that NaHS promoted the transformation of EGCs from “A1” to “A2” type, with decreased expression of C3 and increased expression of S100A10. These findings suggest that CSE/H2S protects mice from colon inflammation, which may be associated with preserving EGCs function by promoting EGCs transformation and inhibiting the RhoA/ROCK pathway.

Published

2022

31. Cystathionine Gamma-Lyase Regulate Psilocybin Biosynthesis in Gymnopilus dilepis Mushroom via Amino Acid Metabolism Pathways.

Author

Yao, Sen, Wei, Chuanzheng, Lin, Hui, Zhang, Peng, Liu, Yuanyuan, Deng, Youjin, Huang, Qianhui, and Xie, Baogui

Subjects

*PSILOCYBIN, *CYSTATHIONINE gamma-lyase, *METHIONINE metabolism, *BIOSYNTHESIS, *AMINO acid metabolism

Abstract

As a potential medicine for the treatment of depression, psilocybin has gradually attracted attention. To elucidate the molecular mechanism regulating psilocybin synthesis in Gymnopilus dilepis, ultra-performance liquid chromatography (UPLC) was used to detect the changes in psilocybin content after S-adenosyl-l-homocysteine (SAH) treatment and the changes of psilocybin content in different parts (stipe and pileus), and RNA-Seq was used to explore the mechanism of psilocybin content changes. In this study, the psilocybin content in G. dilepis mycelia treated with SAH was significantly lower than that in the control group, and the content of psilocybin in the stipe was significantly higher than that in the pileus. Transcriptome analysis revealed that differential expression genes (DEGs) were associated with cysteine and methionine metabolism. In particular, the transcription levels of genes encoding Cystathionine gamma-lyase (CTH) in different treatments and different parts were positively correlated with psilocybin content. In addition, we found that the exogenous addition of CTH activity inhibitor (DL-propargylglycine, PAG) could reduce the content of psilocybin and L-serine, and the content of psilocybin and L-serine returned to normal levels after L-cysteine supplementation, suggesting that psilocybin synthesis may be positively correlated with L-cysteine or CTH, and L-cysteine regulates the synthesis of psilocybin by affecting L-serine and 4-hydroxy-L-tryptophan. In conclusion, this study revealed a new molecular mechanism that affects psilocybin biosynthesis, which can provide a theoretical basis for improving psilocybin synthesis and the possibility for the development of biomedicine. [ABSTRACT FROM AUTHOR]

Published

2022

32. Heart and kidney H2S production is reduced in hypertensive and older rats.

Author

Szlęzak, Dominika, Hutsch, Tomasz, Ufnal, Marcin, and Wróbel, Maria

Subjects

*HEART, *CYSTATHIONINE gamma-lyase, *CARDIOVASCULAR system, *SULFUR metabolism, *KIDNEYS, *BLOOD pressure

Abstract

The prevalence of hypertension increases with age, but the mechanisms linking this phenomenon are not well understood. Hydrogen sulfide (H 2 S) may be involved in this process, as it plays a role in the cardiovascular system, affecting blood pressure and heart and kidney functions. The aim of this study was to evaluate the influence of hypertension and aging on sulfur-containing compounds metabolism in the hearts and kidneys of Wistar Kyoto (WKY) and Spontaneously Hypertensive Rats (SHR) of different age groups. We determined the expression and activity of four enzymes participating in H 2 S production: cystathionine beta-synthase (CBS), cystathionine gamma-lyase (CTH), 3-mercaptopyruvate sulfurtransferase (MPST), and thiosulfate sulfurtransferase (TST). The levels of reduced/oxidized glutathione, cysteine, cystine, and cystathionine, and the ability of tissues to form hydrogen sulfide were also investigated. Tissues obtained from younger WKY rats produced the highest amounts of H 2 S. The effect of hypertension on the metabolism of sulfur-containing compounds was manifested by a decrease in sulfane sulfur concentrations in heart homogenates and a decrease in CTH activity in the kidneys. The hearts and kidneys of older WKY rats were characterized by lower MPST or CTH gene expression, respectively, compared to younger animals. Our study demonstrates that hypertension and aging influence cardiac and renal sulfur-containing compounds metabolism and reduce H 2 S production. Furthermore, we showed that MPST plays a major role in the production of hydrogen sulfide in the heart and CTH in the kidneys of rats. • Hypertension and aging affect cardiac and renal sulfur metabolism in rats. • H 2 S production is decreased in heart and kidneys of hypertensive and older rats. • 3-mercaptopyruvate sulfurtransferase is responsible for H 2 S generation in rat heart. • Cystathionine gamma-lyase plays a major role in H 2 S formation in rat kidneys. [ABSTRACT FROM AUTHOR]

Published

2022

33. NRF2 Regulates Cystathionine Gamma-Lyase Expression and Activity in Primary Airway Epithelial Cells Infected with Respiratory Syncytial Virus.

Author

Jamaluddin, Mohammad, Haas de Mello, Aline, Tapryal, Nisha, Hazra, Tapas K., Garofalo, Roberto P., and Casola, Antonella

Subjects

TRANSCRIPTION factors, CYSTATHIONINE gamma-lyase, RESPIRATORY syncytial virus, NUCLEAR factor E2 related factor, EPITHELIAL cells

Abstract

The addition of tBHQ 1 h after RSV infection (RSV + tBHQ) was able to rescue the RSV-induced inhibition of CSE-driven luciferase activity, similar to what we have previously shown for antioxidant gene expression and ARE-dependent gene transcription following RSV infection [[12]]. Effects of 5' Deletions and Site Mutations of the CSE Promoter Sequence on NRF2-Inducibl... To locate the potential NRF2 binding site(s) on the proximal CSE promoter, a promoter deletion strategy was undertaken. Two consensus specificity protein 1 (Sp1) binding sites have been identified in the core promoter region of the human CSE gene, and Sp1 activation in response to a variety of stimuli induces CSE mRNA expression by binding to the human CSE promoter, as demonstrated by chromatin immunoprecipitation (ChIP) assay (reviewed in [[6]]). [Extracted from the article]

Published

2022

34. Identification and functional characterization of a cystathionine β-lyase (CBL) enzyme for H2S production in Arabidopsis thaliana.

Author

Wang, Zhiqing, He, Feng, Mu, Yao, Zhang, Liping, Liu, Zhiqiang, Liu, Danmei, Yang, Jinbao, Jin, Zhuping, and Pei, Yanxi

Subjects

*CYSTATHIONINE, *CYSTATHIONINE gamma-lyase, *SULFUR metabolism, *HYDROGEN sulfide, *ABIOTIC stress

Abstract

Sulfide or sulfur metabolism plays an important role in the growth and development of plants. Cystathionine β-lyase (CBL) is an important enzyme in methionine synthesis, but a comprehensive understanding of CBL functions is limited. As the third gasotransmitter, hydrogen sulfide (H 2 S) plays important physiological roles in plants. In this study, we found that the endogenous H 2 S content in Arabidopsis thaliana cbl mutants was lower than that in the wild type. Under PEG-based osmotic stress conditions, the H 2 S contents of CBL -overexpression (OE-CBL) plants increased significantly compared with the wild type. Additionally, the OE-CBL plants increased their tolerance to osmotic stress by increasing the transcription levels of drought-related genes and their relative water-loss rates. Compared with cbl and wild type, OE-CBL plants resisted drought stress by significantly closing their stomata, resulting in improved survival rates. Root tip-bending experiments showed that CBL overexpression relieved osmotic, heavy metal and cold stresses in Arabidopsis. The recombinant CBL activity in vitro revealed that CBL produced H 2 S using L-cysteine as a substrate. Thus, CBL had a very strong cysteine desulfhydrase activity that could produce endogenous H 2 S using L-cysteine as a substrate, and it played an important role in plant abiotic stress resistance. [Display omitted] • The H 2 S concentration of cbl plants were lower than that of Col-0. • The activity of recombinant CBL in vitro revealed that CBL produced H 2 S using L-Cys as a substrate. • CBL enhanced the ability of plants to mitigate drought stress. • Root tip-bending experiment confirmed CBL responses to osmotic, heavy metals or cold stress. [ABSTRACT FROM AUTHOR]

Published

2022

35. Kangwon National University Reports Findings in Campylobacter jejuni (Structural analysis of the CJ0600 protein from Campylobacter jejuni).

Subjects

CAMPYLOBACTER jejuni, CYSTATHIONINE gamma-lyase, FOODBORNE diseases, GRAM-negative bacteria, REPORTERS & reporting

Abstract

A recent study conducted by Kangwon National University in Chuncheon, South Korea, focused on the structural analysis of the CJ0600 protein from Campylobacter jejuni, a bacterium known to cause foodborne enteritis in humans. The research revealed that CJ0600 functions as a unique PLP-dependent enzyme with distinct features not found in its structural homologs. The study concluded that CJ0600 does not exhibit CysDS or SerDA activity and only shows weak AccDA activity, suggesting it operates differently from previously reported enzymes. This research provides valuable insights into the enzymatic activity of CJ0600 and highlights its evolutionary distinctiveness. [Extracted from the article]

Published

2024

36. Medical University of Sofia Researchers Release New Data on Amino Acid Oxidoreductases (Effects of simultaneous pharmacological inhibition of cystathionine gamma-lyase and nitric oxide synthase on food and water intake, body mass gain, and body...).

Abstract

Researchers from the Medical University of Sofia have conducted a study on the effects of inhibiting the enzymes cystathionine g-lyase and nitric oxide synthase on food and water intake, body mass gain, and body temperature in rats. The study found that the simultaneous inhibition of these enzymes resulted in a decrease in food and water intake, body mass gain, and body temperature in the rats. These findings contribute to our understanding of the physiological implications of targeting these enzyme pathways. The full study can be accessed for free at the provided link. [Extracted from the article]

Published

2024

37. University of Texas Medical Branch Galveston Researcher Publishes New Studies and Findings in the Area of Amino Acids (Cystathionine Gamma-Lyase Regulates TNF-a-Mediated Injury Response in Human Colonic Epithelial Cells and Colonoids).

Abstract

A new study conducted at the University of Texas Medical Branch Galveston explores the relationship between cystathionine gamma-lyase (CSE) and TNF-a in regulating intestinal homeostasis, inflammation, and wound healing. The researchers used pharmacological inhibitors and gene silencing techniques to investigate the interactions between CSE and TNF-a in colonic epithelial cells. The study found that CSE and TNF-a mutually regulate each other's functions and that CSE activity is essential for effective TNF-a-mediated intestinal injury response. These findings suggest that targeting CSE and TNF-a-controlled intracellular signaling pathways could be a potential therapeutic approach for diseases of the colon associated with impaired epithelial wound healing. [Extracted from the article]

Published

2024

38. Human trophoblast-derived hydrogen sulfide stimulates placental artery endothelial cell angiogenesis

Author

Chen, Dong-Bao, Feng, Lin, Hodges, Jennifer K, Lechuga, Thomas J, and Zhang, Honghai

Subjects

Cardiovascular, Angiogenesis Inducing Agents, Animals, Arteries, Cell Differentiation, Cell Line, Cell Movement, Cell Proliferation, Coculture Techniques, Cystathionine beta-Synthase, Cystathionine gamma-Lyase, Endothelial Cells, Female, Humans, Hydrogen Sulfide, MAP Kinase Signaling System, Mitogen-Activated Protein Kinases, Nitric Oxide Synthase Type III, Placenta, Pregnancy, Proto-Oncogene Proteins c-akt, Sheep, Trophoblasts, angiogenesis, endothelial cells, human, hydrogen sulfide, placenta, trophoblasts, Biological Sciences, Medical and Health Sciences, Obstetrics & Reproductive Medicine

Abstract

Endogenous hydrogen sulfide (H2S), mainly synthesized by cystathionine β-synthase (CBS) and cystathionine γ-lyase (CTH), has been implicated in regulating placental angiogenesis; however, the underlying mechanisms are unknown. This study was to test a hypothesis that trophoblasts synthesize H2S to promote placental angiogenesis. Human choriocarcinoma-derived BeWo cells expressed both CBS and CTH proteins, while the first trimester villous trophoblast-originated HTR-8/SVneo cells expressed CTH protein only. The H2S producing ability of BeWo cells was significantly inhibited by either inhibitors of CBS (carboxymethyl hydroxylamine hemihydrochloride, CHH) or CTH (β-cyano-L-alanine, BCA) and that in HTR-8/SVneo cells was inhibited by CHH only. H2S donors stimulated cell proliferation, migration, and tube formation in ovine placental artery endothelial cells (oFPAECs) as effectively as vascular endothelial growth factor. Co-culture with BeWo and HTR-8/SVneo cells stimulated oFPAEC migration, which was inhibited by CHH or BCA in BeWo but CHH only in HTR-8/SVneo cells. Primary human villous trophoblasts (HVT) were more potent than trophoblast cell lines in stimulating oFPAEC migration that was inhibited by CHH and CHH/BCA combination in accordance with its H2S synthesizing activity linked to CBS and CTH expression patterns. H2S donors activated endothelial nitric oxide synthase (NOS3), v-AKT murine thymoma viral oncogene homolog 1 (AKT1), and extracellular signal-activated kinase 1/2 (mitogen-activated protein kinase 3/1, MAPK3/1) in oFPAECs. H2S donor-induced NOS3 activation was blocked by AKT1 but not MAPK3/1 inhibition. In keeping with our previous studies showing a crucial role of AKT1, MAPK3/1, and NOS3/NO in placental angiogenesis, these data show that trophoblast-derived endogenous H2S stimulates placental angiogenesis, involving activation of AKT1, NOS3/NO, and MAPK3/1.

Published

2017

39. Augmented H2S production via cystathionine-beta-synthase upregulation plays a role in pregnancy-associated uterine vasodilation

Author

Sheibani, Lili, Lechuga, Thomas J, Zhang, Honghai, Hameed, Afshan, Wing, Deborah A, Kumar, Sathish, Rosenfeld, Charles R, and Chen, Dong-bao

Subjects

Contraception/Reproduction, Adult, Cystathionine beta-Synthase, Cystathionine gamma-Lyase, Endothelium, Vascular, Estrogens, Female, Humans, Hydrogen Sulfide, Menstrual Cycle, Middle Aged, Myocytes, Smooth Muscle, Pregnancy, Uterine Artery, Vasodilation, hydrogen sulfide, cystathionine-beta-synthase, uterine vasodilation, pregnancy, women, Biological Sciences, Medical and Health Sciences, Obstetrics & Reproductive Medicine

Abstract

Endogenous hydrogen sulfide (H2S) synthesized via metabolizing L-cysteine by cystathionine-beta-synthase (CBS) and cystathionine-gamma-lyase (CSE) is a potent vasodilator and angiogenic factor. The objectives of this study were to determine if human uterine artery (UA) H2S production increases with augmented expression and/or activity of CBS and/or CSE during the menstrual cycle and pregnancy and whether exogenous H2S dilates UA. Uterine arteries from nonpregnant (NP) premenopausal proliferative (pPRM) and secretory (sPRM) phases of the menstrual cycle and pregnant (P) women were studied. H2S production was measured by the methylene blue assay. CBS and CSE mRNAs were assessed by quantitative real-time PCR, and proteins were assessed by immunoblotting and semiquantitative immunofluorescence microscopy. Effects of H2S on rat UA relaxation were determined by wire myography ex vivo. H2S production was greater in NP pPRM and P than NP sPRM UAs and inhibited by the specific CBS but not CSE inhibitor. CBS but not CSE mRNA and protein were greater in NP pPRM and P than NP sPRM UAs. CBS protein was localized to endothelium and smooth muscle and its levels were in a quantitative order of P >NP UAs of pPRM>sPRM. CSE protein was localized in UA endothelium and smooth muscle with no difference among groups. A H2S donor relaxed P > NP UAs but not mesentery artery. Thus, human UA H2S production is augmented with endothelium and smooth muscle CBS upregulation, contributing to UA vasodilation in the estrogen-dominant physiological states in the proliferative phase of the menstrual cycle and pregnancy.

Published

2017

40. Candida albicans cDNA library screening reveals novel potential diagnostic targets for invasive candidiasis.

Author

Bregón-Villahoz, Marta, Menéndez-Manjón, Pilar, Carrano, Giulia, Díez-Villalba, Ander, Arrieta-Aguirre, Inés, Fernandez-de-Larrinoa, Iñigo, and Moragues, María-Dolores

Subjects

*INVASIVE candidiasis, *CANDIDA albicans, *ECHINOCANDINS, *MEDICAL screening, *CYSTATHIONINE gamma-lyase, *COMPLEMENTARY DNA

Abstract

• Candida albicans germ tube antibodies disclose invasive candidiasis biomarkers • The cytoplasmic coatomer subunit gamma can be a biomarker for invasive candidiasis • Specific antibodies of invasive candidiasis target a Candida metallo-aminopeptidase • Diagnostic potential of a hyphally regulated cell wall protein 1 subterminal region The detection of patterns associated with the invasive form of Candida albicans , such as Candida albicans germ tube antibodies (CAGTA), is a useful complement to blood culture for Invasive Candidiasis (IC) diagnosis. As CAGTA are detected by a non-standardisable and non-automatable technique, a Candida albicans cDNA expression library was screened with CAGTA isolated from serum of an animal model of invasive candidiasis, and five protein targets were identified: hyphally regulated cell wall protein 1 (Hyr1), enolase 1 (Eno1), coatomer subunit gamma (Sec21), a metallo-aminopeptidase (Ape2) and cystathionine gamma-lyase (Cys3). Homology with proteins from other organisms rules out Cys3 as a good biomarker while Sec21 results suggest that it is not in the germ tubes surface but secreted to the external environment. Our analysis propose Ape2, Sec21 and a region of Hyr1 different from the one currently being studied for immunoprotection as potential biomarker candidates for the diagnosis of IC. [ABSTRACT FROM AUTHOR]

Published

2024

41. Exploring the mechanism of allicin in lowering blood lipids based on the CSE/H2S pathway.

Author

Du, Yixuan, Zhang, Min, He, Fangqing, Pan, Zhuangguang, Wang, Junyi, Sun, Yuanming, and Li, Meiying

Subjects

CYSTATHIONINE gamma-lyase, LIPID metabolism, HORMONE synthesis, BLOOD lipids, UNSATURATED fatty acids

Abstract

This study aims to elucidate the mechanism by which allicin modulates lipid metabolism in HFD (High-Fat Diet) mice through the CSE/H 2 S pathway. Allicin intervention (120 mg/kg) significantly reduced mouse body weight and serum total cholesterol (TC) and triglyceride (TG) levels (p < 0.05), while enhancing hepatic antioxidant levels (p < 0.05). Transcriptomic analysis of the liver indicated that allicin influenced several key metabolic pathways, including lipid metabolism (steroid hormone synthesis, unsaturated fatty acid synthesis, and PPAR signaling pathways) and antioxidant pathways (chemical carcinogenesis-reactive oxygen species pathway and glutathione metabolism pathways). RT-qPCR experiments confirmed that in the HA group (the high dose allicin, 120 mg/kg), the expression level of CD36 in the liver was downregulated, while the expression of LPL , GST , GPX , and GCLC were upregulated. Furthermore, the metabonomic analysis identified core differential metabolites primarily associated with sulfate/sulfite metabolism and glutathione metabolism pathway. This was evidenced by alterations in the levels of sulfur-containing compounds, such as H 2 S, l -Glutathione (reduced), G-glutamylcysteine, and methionine. In the constructed HepG2 high-fat cell model, dl -Propargylglycine (PAG, H 2 S synthesis inhibitor) treatment resulted in significantly higher lipid content compared to the Allicin-600 group, and expression levels of antioxidant genes like GST , GPX , and GCLC are reduced. This further validates the pivotal role of the CSE/H 2 S pathway in allicin's lipid-lowering effects. In summary, allicin demonstrates potent lipid-lowering activity when serving as an H 2 S donor, setting the stage for the development of a broader range of allicin-related health products. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

42. The chemical biology of hydropersulfides (RSSH): Chemical stability, reactivity and redox roles.

Author

Saund, Simran S, Sosa, Victor, Henriquez, Stephanie, Nguyen, Q Nhu N, Bianco, Christopher L, Soeda, Shuhei, Millikin, Robert, White, Corey, Le, Henry, Ono, Katsuhiko, Tantillo, Dean J, Kumagai, Yoshito, Akaike, Takaaki, Lin, Joseph, and Fukuto, Jon M

Subjects

Animals, Humans, Rats, Cyanides, Sulfides, Cystathionine gamma-Lyase, Glutathione, Peptide Fragments, Recombinant Proteins, Magnetic Resonance Spectroscopy, Signal Transduction, Oxidation-Reduction, Models, Chemical, Receptor-Like Protein Tyrosine Phosphatases, Class 3, Electrophilicity, Hydropersulfide, Nucleophilicity, Redox regulation, Thiols, Generic health relevance, Biochemistry and Cell Biology, Biochemistry & Molecular Biology

Abstract

Recent reports indicate the ubiquitous prevalence of hydropersulfides (RSSH) in mammalian systems. The biological utility of these and related species is currently a matter of significant speculation. The function, lifetime and fate of hydropersulfides will be assuredly based on their chemical properties and reactivity. Thus, to serve as the basis for further mechanistic studies regarding hydropersulfide biology, some of the basic chemical properties/reactivity of hydropersulfides was studied. The nucleophilicity, electrophilicity and redox properties of hydropersulfides were examined under biological conditions. These studies indicate that hydropersulfides can be nucleophilic or electrophilic, depending on the pH (i.e. the protonation state) and can act as good one- and two-electron reductants. These diverse chemical properties in a single species make hydropersulfides chemically distinct from other, well-known sulfur containing biological species, giving them unique and potentially important biological function.

Published

2015

43. High protein diet-induced metabolic changes are transcriptionally regulated via KLF15-dependent and independent pathways.

Author

Mehrazad Saber, Zahra, Takeuchi, Yoshinori, Sawada, Yoshikazu, Aita, Yuichi, Ho, Man Hei, Karkoutly, Samia, Tao, Duhan, Katabami, Kyoka, Ye, Chen, Murayama, Yuki, Shikama, Akito, Masuda, Yukari, Izumida, Yoshihiko, Miyamoto, Takafumi, Matsuzaka, Takashi, Sugasawa, Takehito, Takekoshi, Kazuhiro, Kawakami, Yasushi, Shimano, Hitoshi, and Yahagi, Naoya

Subjects

*ZINC-finger proteins, *LOW-protein diet, *CYSTATHIONINE gamma-lyase, *AMINO acid metabolism, *KRUPPEL-like factors, *TRANSCRIPTION factors

Abstract

High protein diet (HPD) is an affordable and positive approach in prevention and treatment of many diseases. It is believed that transcriptional regulation is responsible for adaptation after HPD feeding and Kruppel-like factor 15 (KLF15), a zinc finger transcription factor that has been proved to perform transcriptional regulation over amino acid, lipid and glucose metabolism, is known to be involved at least in part in this HPD response. To gain more insight into molecular mechanisms by which HPD controls expressions of genes involved in amino acid metabolism in the liver, we performed RNA-seq analysis of mice fed HPD for a short period (3 days). Compared to a low protein diet, HPD feeding significantly increased hepatic expressions of enzymes involved in the breakdown of all the 20 amino acids. Moreover, using KLF15 knockout mice and in vivo Ad-luc analytical system, we were able to identify Cth (cystathionine gamma-lyase) as a new target gene of KLF15 transcription as well as Ast (aspartate aminotransferase) as an example of KLF15-independent gene despite its remarkable responsiveness to HPD. These findings provide us with a clue to elucidate the entire transcriptional regulatory mechanisms of amino acid metabolic pathways. • HPD-fed mouse liver exhibited significant increases in expression of genes involved in the breakdown of all 20 amino acids. • In vivo Ad-luc analysis showed that HPD responses are transcriptionally regulated in the liver. • KLF15 knockout mice helped distinguish HPD responsive genes into KLF15-dependent and -independent pathway groups. • HPD increases Cth expression via KLF15 whereas it elevates Ast in a KLF15-independent manner. [ABSTRACT FROM AUTHOR]

Published

2021

44. HYDROGEN SULFIDE METABOLISM AND ITS ROLE IN KIDNEY FUNCTION IN A RAT MODEL OF CHRONIC KIDNEY DISEASE

Author

Serhii Koniukh, Natalia Voloshchuk, Andrii Melnyk, and Ievgenii Domin

Subjects

chronic kidney disease, hydrogen sulfide, cystathionine gamma-lyase, cystathionine beta-synthase, cysteine aminotransferase, Medicine

Published

2020

45. Cystathionine γ-lyase contributes to exacerbation of periodontal destruction in experimental periodontitis under hyperglycemia.

Author

Song D, He J, Cheng T, Jin L, Li S, Chen B, Li Y, and Liao C

Abstract

Background: Diabetes is one of the major inflammatory comorbidities of periodontitis via 2-way interactions. Cystathionine γ-lyase (CTH) is a pivotal endogenous enzyme synthesizing hydrogen sulfide (H 2 S), and CTH/H 2 S is crucially implicated in modulating inflammation in various diseases. This study aimed to explore the potential role of CTH in experimental periodontitis under a hyperglycemic condition., Methods: CTH-silenced and normal human periodontal ligament cells (hPDLCs) were cultured in a high glucose and Porphyromonas gingivalis lipopolysaccharide (P.g-LPS) condition. The effects of CTH on hPDLCs were assessed by Cell Counting Kit 8 (CCK8), real-time quantitative polymerase chain reaction (RT-qPCR), and enzyme-linked immunosorbent assay (ELISA). The model of experimental periodontitis under hyperglycemia was established on both Cth -/- and wild-type (WT) mice, and the extent of periodontal destruction was assessed by micro-CT, histology, RNA-Seq, Western blot, tartrate-resistant acid phosphatase (TRAP) staining and immunostaining., Results: CTH mRNA expression increased in hPDLCs in response to increasing concentration of P.g-LPS stimulation in a high glucose medium. With reference to WT mice, Cth -/- mice with experimental periodontitis under hyperglycemia exhibited reduced bone loss, decreased leukocyte infiltration and hindered osteoclast formation, along with reduced expression of proinflammatory cytokines interleukin-6 (IL-6) and tumor necrosis factor alpha (TNF-α) in periodontal tissue. RNA-seq-enriched altered NF-κB pathway signaling in healthy murine gingiva with experimental periodontitis mice under hyperglycemia. Accordingly, phosphorylation of p65 (P-p65) was alleviated in CTH-silenced hPDLCs, leading to decreased expression of IL6 and TNF. CTH knockdown inhibited activation of nuclear factor kappa-B (NF-κB) pathway and decreased production of proinflammatory cytokines under high glucose and P.g-LPS treatment., Conclusion: The present findings suggest the potential of CTH as a therapeutic target for tackling periodontitis in diabetic patients., (© 2024 American Academy of Periodontology.)

Published

2024

46. Discovery and characterization of small molecule inhibitors of cystathionine gamma‐synthase with in planta activity.

Author

Bloch, Itai, Haviv, Hadar, Rapoport, Irena, Cohen, Elad, Shushan, Rotem Shelly Ben, Dotan, Nesly, Sher, Inbal, Hacham, Yael, Amir, Rachel, and Gal, Maayan

Subjects

*CYSTATHIONINE gamma-lyase, *SMALL molecules, *MOLECULAR interactions, *ESSENTIAL amino acids, *AMINO acid synthesis, *BENZAMIDE, *METHIONINE

Abstract

Summary: The synthesis of essential amino acids in plants is pivotal for their viability and growth, and these cellular pathways are therefore targeted for the discovery of new molecules for weed control. Herein, we describe the discovery and design of small molecule inhibitors of cystathionine gamma‐synthase, a key enzyme in the biosynthesis of methionine. Based on in silico screening and filtering of a large molecular database followed by the in vitro selection of molecules, we identified small molecules capable of binding the target enzyme. Molecular modelling of the interaction and direct biophysical binding enabled us to explore a focussed chemical expansion set of molecules characterized by an active phenyl‐benzamide chemical group. These molecules are bio‐active and efficiently inhibit the viability of BY‐2 tobacco cells and seedlings growth of Arabidopsis thaliana on agar plates. [ABSTRACT FROM AUTHOR]

Published

2021

47. Investigators from Weill Cornell Medicine Have Reported New Data on Geriatrics and Gerontology (Cystine Rather Than Cysteine Is the Preferred Substrate for B-elimination By Cystathionine G-lyase: Implications for Dietary Methionine Restriction).

Published

2024

48. Norswertianolin Promotes Cystathionine γ-Lyase Activity and Attenuates Renal Ischemia/Reperfusion Injury and Hypertension

Author

Yaping Niu, Congkuo Du, Changting Cui, Haizeng Zhang, Yue Deng, Jun Cai, Zhenzhen Chen, and Bin Geng

Subjects

cystathionine gamma-lyase, hydrogen sulfide, norswertianolin, renal ischemia/reperfusion, hypertension, Therapeutics. Pharmacology, RM1-950

Abstract

Cystathionine gamma-lyase (CSE)/hydrogen sulfide (H2S) plays a protective role in cardiovascular diseases including hypertension and ischemia/reperfusion (I/R) injury. This study was aimed to screen natural small molecule compounds that activate CSE activity and then evaluate its effect(s) on kidney I/R injury and hypertension. Applying computer molecular docking technology, we screened the natural small molecule compound norswertianolin (NW)-specific binding to CSE. Using the microscale thermophoresis technology, we confirmed that the Leu68 site was the essential hydrogen bond site of NW binding to CSE. NW supplementation significantly increased CSE expression and its activity for H2S generation both in vivo and in vitro. In the model of acute and long-term kidney I/R injury, NW pretreatment dramatically attenuated kidney damage, associated with decreasing blood urea nitrogen (BUN), serum creatinine (Cr) level, reactive oxygen species (ROS) production, and cleaved caspase 3 expression. In spontaneously hypertensive rats (SHRs), NW treatment also lowered blood pressure, the media/lumen ratio of the femoral artery, and the mRNA level of inflammatory cytokines. In conclusion, NW acts as a novel small molecular chemical compound CSE agonist, directly binding to CSE, heightening CSE generation–H2S activity, and then alleviating kidney I/R injury and hypertension. NW has a potential therapeutic merit for cardiovascular diseases.

Published

2021

49. Norswertianolin Promotes Cystathionine γ-Lyase Activity and Attenuates Renal Ischemia/Reperfusion Injury and Hypertension.

Author

Niu, Yaping, Du, Congkuo, Cui, Changting, Zhang, Haizeng, Deng, Yue, Cai, Jun, Chen, Zhenzhen, and Geng, Bin

Subjects

REPERFUSION injury, CYSTATHIONINE gamma-lyase, NANOTECHNOLOGY, CYSTATHIONINE, BLOOD urea nitrogen

Abstract

Cystathionine gamma-lyase (CSE)/hydrogen sulfide (H2S) plays a protective role in cardiovascular diseases including hypertension and ischemia/reperfusion (I/R) injury. This study was aimed to screen natural small molecule compounds that activate CSE activity and then evaluate its effect(s) on kidney I/R injury and hypertension. Applying computer molecular docking technology, we screened the natural small molecule compound norswertianolin (NW)-specific binding to CSE. Using the microscale thermophoresis technology, we confirmed that the Leu68 site was the essential hydrogen bond site of NW binding to CSE. NW supplementation significantly increased CSE expression and its activity for H2S generation both in vivo and in vitro. In the model of acute and long-term kidney I/R injury, NW pretreatment dramatically attenuated kidney damage, associated with decreasing blood urea nitrogen (BUN), serum creatinine (Cr) level, reactive oxygen species (ROS) production, and cleaved caspase 3 expression. In spontaneously hypertensive rats (SHRs), NW treatment also lowered blood pressure, the media/lumen ratio of the femoral artery, and the mRNA level of inflammatory cytokines. In conclusion, NW acts as a novel small molecular chemical compound CSE agonist, directly binding to CSE, heightening CSE generation–H2S activity, and then alleviating kidney I/R injury and hypertension. NW has a potential therapeutic merit for cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2021

50. Differences in nonoxidative sulfur metabolism between normal human breast MCF-12A and adenocarcinoma MCF-7 cell lines.

Author

Bronowicka-Adamska, Patrycja, Kaczor-Kamińska, Marta, Wróbel, Maria, and Bentke-Imiolek, Anna

Subjects

*SULFUR metabolism, *CELL lines, *BREAST, *ADENOCARCINOMA, *GENE expression, *CYSTATHIONINE gamma-lyase

Abstract

Recent studies have revealed the role of endogenous hydrogen sulfide (H 2 S) in the development of breast cancer. The capacity of cells to generate H 2 S and the activity and expression of the main enzymes (cystathionine beta synthase; CBS, cystathionase γ-lyase; CGL, 3-mercaptopyruvate sulfurtransferase; MPST and thiosulfate sulfurtransferase; TST) involved in H 2 S metabolism were analyzed using an in vitro model of a non-tumourigenic breast cell line (MCF-12A) and a human breast adenocarcinoma cell line (MCF-7). In both cell lines, MPST, CGL, and TST expression was confirmed at the mRNA (RT-PCR) and the protein (Western Blot) level, while CBS expression was detected only in MCF-7 cells. Elevated levels of GSH, sulfane sulfur and increased CBS and TST activity were presented in the MCF-7 compared to the MCF-12A cells. It appears that cysteine might be mainly a substrate for GSH synthesis in breast adenocarcinoma. Increased capacity of the cells to generate H 2 S was shown for MCF-12A compared to MCF-7 cell line. Results suggest an important function of CBS in H 2 S metabolism in breast adenocarcinoma. The presented work may contribute to further research on new therapeutic possibilities for breast cancer - one of the most frequently diagnosed types of cancer among women. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024