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本文引用的文献

1
Hydrogen sulfide chemical biology: pathophysiological roles and detection.硫化氢的化学生物学:病理生理作用与检测。
Nitric Oxide. 2013 Nov 30;35:5-20. doi: 10.1016/j.niox.2013.07.002. Epub 2013 Jul 9.
2
Chemical aspects of hydrogen sulfide measurements in physiological samples.生理样本中硫化氢测量的化学方面。
Biochim Biophys Acta. 2014 Feb;1840(2):876-91. doi: 10.1016/j.bbagen.2013.05.037. Epub 2013 Jun 14.
3
The cysteine dioxgenase knockout mouse: altered cysteine metabolism in nonhepatic tissues leads to excess H2S/HS(-) production and evidence of pancreatic and lung toxicity.半胱氨酸双加氧酶敲除小鼠:非肝脏组织中半胱氨酸代谢改变导致 H2S/HS(-)产生过剩,并出现胰腺和肺部毒性的证据。
Antioxid Redox Signal. 2013 Oct 20;19(12):1321-36. doi: 10.1089/ars.2012.5010. Epub 2013 Mar 19.
4
The deacetylase Sirt6 activates the acetyltransferase GCN5 and suppresses hepatic gluconeogenesis.去乙酰化酶 Sirt6 激活乙酰转移酶 GCN5 并抑制肝糖异生。
Mol Cell. 2012 Dec 28;48(6):900-13. doi: 10.1016/j.molcel.2012.09.030. Epub 2012 Nov 8.
5
Cysteine dioxygenase 1 is a tumor suppressor gene silenced by promoter methylation in multiple human cancers.半胱氨酸双加氧酶 1 是一种抑癌基因,在多种人类癌症中因启动子甲基化而沉默。
PLoS One. 2012;7(9):e44951. doi: 10.1371/journal.pone.0044951. Epub 2012 Sep 27.
6
Solubility and permeation of hydrogen sulfide in lipid membranes.硫化氢在脂膜中的溶解度和渗透。
PLoS One. 2012;7(4):e34562. doi: 10.1371/journal.pone.0034562. Epub 2012 Apr 11.
7
Hydrogen sulfide in biochemistry and medicine.硫化氢在生物化学和医学中的作用
Antioxid Redox Signal. 2012 Jul 1;17(1):119-40. doi: 10.1089/ars.2012.4612. Epub 2012 Apr 20.
8
Extrahepatic tissues compensate for loss of hepatic taurine synthesis in mice with liver-specific knockout of cysteine dioxygenase.肝特异性胱硫醚双加氧酶敲除小鼠的肝外组织代偿了肝脏牛磺酸合成的缺失。
Am J Physiol Endocrinol Metab. 2012 May 1;302(10):E1292-9. doi: 10.1152/ajpendo.00589.2011. Epub 2012 Mar 13.
9
Hydrogen sulfide and inflammation: the good, the bad, the ugly and the promising.硫化氢与炎症:有好有坏,有丑有优。
Expert Rev Clin Pharmacol. 2011 Jan;4(1):13-32. doi: 10.1586/ecp.10.134.
10
A practical look at the chemistry and biology of hydrogen sulfide.深入浅出探讨硫化氢的化学与生物学特性
Antioxid Redox Signal. 2012 Jul 1;17(1):32-44. doi: 10.1089/ars.2011.4401. Epub 2012 Jan 16.

缺乏半胱氨酸双加氧酶的小鼠原代肝细胞中半胱氨酸浓度增加,且半胱氨酸代谢为硫化氢和硫代硫酸盐的速率更高。

Primary hepatocytes from mice lacking cysteine dioxygenase show increased cysteine concentrations and higher rates of metabolism of cysteine to hydrogen sulfide and thiosulfate.

机构信息

Division of Nutritional Sciences, Cornell University, 227 Savage Hall, Ithaca, NY, 14853, USA.

出版信息

Amino Acids. 2014 May;46(5):1353-65. doi: 10.1007/s00726-014-1700-8. Epub 2014 Mar 8.

DOI:10.1007/s00726-014-1700-8
PMID:24609271
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4930650/
Abstract

The oxidation of cysteine in mammalian cells occurs by two routes: a highly regulated direct oxidation pathway in which the first step is catalyzed by cysteine dioxygenase (CDO) and by desulfhydration-oxidation pathways in which the sulfur is released in a reduced oxidation state. To assess the effect of a lack of CDO on production of hydrogen sulfide (H2S) and thiosulfate (an intermediate in the oxidation of H2S to sulfate) and to explore the roles of both cystathionine γ-lyase (CTH) and cystathionine β-synthase (CBS) in cysteine desulfhydration by liver, we investigated the metabolism of cysteine in hepatocytes isolated from Cdo1-null and wild-type mice. Hepatocytes from Cdo1-null mice produced more H2S and thiosulfate than did hepatocytes from wild-type mice. The greater flux of cysteine through the cysteine desulfhydration reactions catalyzed by CTH and CBS in hepatocytes from Cdo1-null mice appeared to be the consequence of their higher cysteine levels, which were due to the lack of CDO and hence lack of catabolism of cysteine by the cysteinesulfinate-dependent pathways. Both CBS and CTH appeared to contribute substantially to cysteine desulfhydration, with estimates of 56 % by CBS and 44 % by CTH in hepatocytes from wild-type mice, and 63 % by CBS and 37 % by CTH in hepatocytes from Cdo1-null mice.

摘要

哺乳动物细胞中半胱氨酸的氧化有两条途径

一条是高度调控的直接氧化途径,其中第一步由半胱氨酸双加氧酶 (CDO) 催化;另一条是脱硫-氧化途径,其中硫以还原态释放。为了评估缺乏 CDO 对半胱氨酸生成硫化氢 (H2S) 和连硫酸盐 (H2S 氧化为硫酸盐的中间产物) 的影响,并探索胱硫醚 γ-裂合酶 (CTH) 和胱硫醚 β-合酶 (CBS) 在肝脏对半胱氨酸脱硫中的作用,我们研究了从 Cdo1 基因敲除和野生型小鼠分离的肝细胞中半胱氨酸的代谢。Cdo1 基因敲除小鼠的肝细胞产生的 H2S 和连硫酸盐比野生型小鼠的肝细胞多。Cdo1 基因敲除小鼠肝细胞中半胱氨酸通过 CTH 和 CBS 催化的半胱氨酸脱硫反应的通量增加似乎是由于它们较高的半胱氨酸水平所致,这是由于缺乏 CDO,因此缺乏依赖半胱氨酸亚磺酸盐的途径对半胱氨酸的分解代谢。CBS 和 CTH 似乎对半胱氨酸脱硫都有很大贡献,野生型小鼠肝细胞中 CBS 估计为 56%,CTH 为 44%,Cdo1 基因敲除小鼠肝细胞中 CBS 为 63%,CTH 为 37%。