Dissecting molecular mechanisms underlying ferroptosis in human umbilical cord mesenchymal stem cells:Role of cystathionineγ-lyase/hydrogen sulfide pathway

BACKGROUND Ferroptosis can induce low retention and engraftment after mesenchymal stem cell(MSC)delivery,which is considered a major challenge to the effectiveness of MSC-based pulmonary arterial hypertension(PAH)therapy.Interestingly,the cystathionineγ-lyase(CSE)/hydrogen sulfide(H_(2)S)pathway may contribute to mediating ferroptosis.However,the influence of the CSE/H_(2)S pathway on ferroptosis in human umbilical cord MSCs(HUCMSCs)remains unclear.AIM To clarify whether the effect of HUCMSCs on vascular remodelling in PAH mice is affected by CSE/H_(2)S pathway-mediated ferroptosis,and to investigate the functions of the CSE/H_(2)S pathway in ferroptosis in HUCMSCs and the underlying mechanisms.METHODS Erastin and ferrostatin-1(Fer-1)were used to induce and inhibit ferroptosis,respectively.HUCMSCs were transfected with a vector to overexpress or inhibit expression of CSE.A PAH mouse model was established using 4-wk-old male BALB/c nude mice under hypoxic conditions,and pulmonary pressure and vascular remodelling were measured.The survival of HUCMSCs after delivery was observed by in vivo bioluminescence imaging.Cell viability,iron accumulation,reactive oxygen species production,cystine uptake,and lipid peroxidation in HUCMSCs were tested.Ferroptosis-related proteins and S-sulfhydrated Kelchlike ECH-associating protein 1(Keap1)were detected by western blot analysis.RESULTS In vivo,CSE overexpression improved cell survival after erastin-treated HUCMSC delivery in mice with hypoxiainduced PAH.In vitro,CSE overexpression improved H_(2)S production and ferroptosis-related indexes,such as cell viability,iron level,reactive oxygen species production,cystine uptake,lipid peroxidation,mitochondrial membrane density,and ferroptosis-related protein expression,in erastin-treated HUCMSCs.In contrast,in vivo,CSE inhibition decreased cell survival after Fer-1-treated HUCMSC delivery and aggravated vascular remodelling in PAH mice.In vitro,CSE inhibition decreased H_(2)S levels and restored ferroptosis in Fer-1-treated HUCMSCs.Interestingly,upregulation of the CSE/H_(2)S pathway induced Keap1 S-sulfhydration,which contributed to the inhibition of ferroptosis.CONCLUSION Regulation of the CSE/H_(2)S pathway in HUCMSCs contributes to the inhibition of ferroptosis and improves the suppressive effect on vascular remodelling in mice with hypoxia-induced PAH.Moreover,the protective effect of the CSE/H_(2)S pathway against ferroptosis in HUCMSCs is mediated via S-sulfhydrated Keap1/nuclear factor erythroid 2-related factor 2 signalling.The present study may provide a novel therapeutic avenue for improving the protective capacity of transplanted MSCs in PAH.

Relationship between cystathionine γ-lyase gene polymorphism and essential hypertension in Northern Chinese Han population

Background Hydrogen sulfide （H2S） plays an important role in the smooth muscle cell relaxation and thereby participates in the development of hypertension. Cystathionine γ-lyase is the key enzyme in the endogenous production of H2S. Up to now, the reports on the relationship between the polymorphisms of cystathionine γ-lyase gene （CTH） and essential hypertension （EH） are limited. This study was designed to assess their underlying relationship. Methods A total of 503 hypertensive patients and 490 age-, gender- and area-matched normotensive controls were enrolled in this study. Based on the FASTSNP, a web server to identify putative functional single nucleotide polymorphisms （SNPs） of genes, we selected two SNPs, rs482843 and rs1021737, in the CTH gene for genotyping. Genotyping was performed by the polymerase chain reaction and restriction fragment length polymorphism method （PCR-RFLP）. The frequencies of the alleles and genotypes between cases and controls were compared by the chi-square test. The program Haplo.stats was used to investigate the relationship between the haplotypes and EH. Results These two SNPs were in Hardy-Weinberg Equilibrium in both cases and controls. The genotype distribution and allele frequencies of them did not significantly differ between cases and controls （all P〉0.05）. In the stepwise logistic regression analysis we failed to observe their association with hypertension. In addition, none of the four estimated haplotypes or diplotypes significantly increased or decreased the risk of hypertension before or after adjustment for several known risk factors. Conclusions The present study suggests that the SNPs rs482843 and rs1021737 of the CTH gene were not associated with essential hypertension in the Northern Chinese Han population. However, replications in other populations and further functional studies are still necessary to clarify the role of the CTH gene in the pathogenesis of EH.

Relationship Between Polymorphism of Cystathionine beta Synthase Gene and Congenital Heart Disease in Chinese Nuclear Families

Objective To study the relationship between polymorphism of cystathionine beta synthase （CBS） gene and development of congenital heart disease （CHD）. Methods One hundred and twenty-seven CHD case-parent triads were recruited from Liaoning Province as patient group, and 129 healthy subjects without family history of birth defect were simultaneously recruited as control group together with their biological parents. For all subjects the polymorphism of CBS gene G919A locus was examined by PCR-ARMS method, Results The frequencies of three genotypes （w/w, w/m, and m/m） in control group were 27.2%, 58,4%, and 14.4%, respectively, with no significant difference in gender. A significant difference in the allele frequency was found between CHD patients and controls, the wild allele frequency was 67,9% in patients and 55.7% in controls CHD parents＇ genotype distribution was significantly different from that in controls. Further comparison of each type of CHD showed that genotype frequencies in several CHD subtypes were significantly different from those in their corresponding controls. The results of TDT analysis showed that no allele transmission disequilibrium existed in CHD nuclear families. Conclusions CBS gene G919A mutation is associated with the development of CHD, and the mutated allele may decrease the risk of CHD.

Constitutive expression of feedback-insensitive cystathionine γ-synthase increases methionine levels in soybean leaves and seeds

Soybean （Glycine max （L.） Merr.） is a major crop that provides plant-origin protein and oil for humans and livestock. Al- though the soybean vegetative tissues and seeds provide a major source of high-quality protein, they suffer from low con- centration of an essential sulfur-containing amino acid, methionine, which significantly limits their nutritional quality. The level of methionine is mainly controlled by the first unique enzyme of methionine synthesis, cystathione y-synthase （CGS）. Aiming to elevate methionine level in vegetative tissues and seeds, we constitutively over-expressed a feedback-insensitive Arabidopsis CGS （AtD-CGS） in soybean cultivars, Zigongdongdou （ZD） and Jilinxiaoli 1 （JX）. The levels of soluble methionine increased remarkably in leaves of transgenic soybeans compared to wild-type plants （6.6- and 7.3-fold in two transgenic ZD lines, and 3.7-fold in one transgenic JX line）. Furthermore, the total methionine contents were significantly increased in seeds of the transgenic ZD lines （1.5- to 4.8-fold increase） and the transgenic JX lines （1.3- to 2.3-fold increase） than in the wild type. The protein contents of the transgenic soybean seeds were significantly elevated compared to the wild type, suggesting that the scarcity of methionine in soybeans may limit protein accumulation in soybean seeds. The increased protein content did not alter the profile of major storage proteins in the seeds. Generally, this study provides a promising strategy to increase the levels of methionine and protein in soybean through the breeding programs.

Effects of endogenous L-cystathionine on enzymatic assays of serum homocysteine in samples from renal dialysis patients

Homocysteine (Hcy) is a thiol-containing amino acid produced by the intracellular demethylation of methionine.Approximately 80% of circulating Hcy in the blood is protein bound by disulfide linkage.The remaining unbound Hcy combines by oxidation either with itself to form the dimer homocystine or with cysteine to form the mixed disulfide cysteine-Hcy.

利用CRISPR/Cas9系统制备斑马鱼cbsb敲除模型

目的 采用成簇的规律性间隔的短回文重复序列(CRISPR)/Cas9系统对斑马鱼胱硫醚-β-合成酶b基因(cbsb)进行编辑,并制备稳定的斑马鱼cbsb敲除品系。方法 使用ClustalX软件分析斑马鱼cbsb编码蛋白(Cbsb)的保守结构域,利用生物信息学选取向导RNA(gRNA)靶点,体外合成并纯化gRNA和密码子优化的Cas9 mRNA,在刚受精的斑马鱼胚胎(1-cell期)中显微注射混合的gRNA和Cas9 mRNA,提取受精后3 d的斑马鱼幼鱼基因组,通过PCR扩增并测序分析靶点的切割效率,通过基因组扩增和测序筛选并获得cbsb敲除的稳定品系。结果 斑马鱼Cbsb与人、小鼠胱硫醚-β-合成酶(CBS)高度同源。在斑马鱼Cbsb保守结构域的编码序列处设计4个靶点,其中4#靶点具有高效的切割效率,利用该靶点制备并筛选获得多个cbsb敲除斑马鱼,选取-3+13 bps和-228 bps移码突变的两种品系,进一步筛选获得稳定的cbsb敲除品系。结论 利用CRISPR/Cas9系统成功制备了两种斑马鱼cbsb敲除的稳定品系,为进一步在斑马鱼活体中研究Cbsb的功能奠定了基础。

The miR-9-5p/CXCL11 pathway is a key target of hydrogen sulfide-mediated inhibition of neuroinflammation in hypoxic ischemic brain injury

We previously showed that hydrogen sulfide(H2S)has a neuroprotective effect in the context of hypoxic ischemic brain injury in neonatal mice.However,the precise mechanism underlying the role of H2S in this situation remains unclear.In this study,we used a neonatal mouse model of hypoxic ischemic brain injury and a lipopolysaccharide-stimulated BV2 cell model and found that treatment with L-cysteine,a H2S precursor,attenuated the cerebral infarction and cerebral atrophy induced by hypoxia and ischemia and increased the expression of miR-9-5p and cystathionineβsynthase(a major H2S synthetase in the brain)in the prefrontal cortex.We also found that an miR-9-5p inhibitor blocked the expression of cystathionineβsynthase in the prefrontal cortex in mice with brain injury caused by hypoxia and ischemia.Furthermore,miR-9-5p overexpression increased cystathionine-β-synthase and H2S expression in the injured prefrontal cortex of mice with hypoxic ischemic brain injury.L-cysteine decreased the expression of CXCL11,an miR-9-5p target gene,in the prefrontal cortex of the mouse model and in lipopolysaccharide-stimulated BV-2 cells and increased the levels of proinflammatory cytokines BNIP3,FSTL1,SOCS2 and SOCS5,while treatment with an miR-9-5p inhibitor reversed these changes.These findings suggest that H2S can reduce neuroinflammation in a neonatal mouse model of hypoxic ischemic brain injury through regulating the miR-9-5p/CXCL11 axis and restoringβ-synthase expression,thereby playing a role in reducing neuroinflammation in hypoxic ischemic brain injury.

Cystathionine-γ-lyase ameliorates the histone demethylase JMJD3-mediated autoimmune response in rheumatoid arthritis

Cystathionine-γ-lyase(CSE),an enzyme associated with hydrogen sulfide(H2S)production,is an important endogenous regulator of inflammation.Jumonji domain-containing protein 3(JMJD3)is implicated in the immune response and inflammation.Here,we investigated the potential contribution of JMJD3 to endogenous CSE-mediated inflammation in rheumatoid arthritis(RA).Upregulated CSE and JMJD3 were identified in synovial fibroblasts(SFs)from RA patients as well as in the joints of arthritic mice.Knocking down CSE augmented inflammation in IL-1β-induced SFs by increasing JMJD3 expression.In addition,CSE−/−mice with collagen-induced arthritis(CIA)developed severe joint inflammation and bone erosion.Conversely,overexpressing CSE inhibited JMJD3 expression by the transcription factor Sp-1 and was accompanied by reduced inflammation in IL-1β-treated SFs.Furthermore,JMJD3 silencing or the administration of the JMJD3 inhibitor GSK-J4 significantly decreased the inflammatory response in IL-1β-treated SFs,mainly by controlling the methylation status of H3K27me3 at the promoter of its target genes.GSK-J4 markedly attenuated the severity of arthritis in CIA mice.In conclusion,suppressing JMJD3 expression by the transcription factor Sp-1 is likely responsible for the ability of CSE to negatively modulate the inflammatory response and reduce the progression of RA.

Development of cystathionine gamma-lyase-specific microRNAs

The gasotransmitter role of H2S in mammalian has been extensively studied, and cystathionine gammalyase （CSE） is the major H2S-producing enzyme in vascular system. Dysregulation of CSE/H2S system was found in various pathophysiological conditions. MicroRNA （miRNA） and short interfering RNA （siRNA） are known to inhibit gene expression by mRNA degradation and/or translation repression. The regulation of CSE expression by miRNA and siRNA has been reported recently, but the off-target effect of miRNA and the lower knockdown efficiency of siRNA have shadowed the application of these approaches. In the present study, we designed CSE-specific miRNAs based on the rules of miRNA-mRNA complementary and human CSE cDNA sequence. The CSE-specific miRNAs significantly inhibited CSE expression and H2S production, increased reactive oxygen species generation, and induced proliferation of human aorta smooth muscle cells （HASMCs）. The designed CSE-specific miRNAs specifically targeted on CSE gene as evidenced by the direct inhibition of luciferase activity from reporter gene containing human CSE 3t-UTR sequence. The expression of other genes, such as estrogen receptor a, heme oxygenase 1, specificity protein 1, and 3-mercaptopyruvate sulfurtransferase, was not affected by the CSE-specific miRNAs.Compared with CSE-siRNAs, CSE-specific miRNAs dis- played significantly higher efficacy in suppressing CSE expression and H2S production, miR-143, a highly expressed miRNA in vascular system, down-regulated the expressions of CSE as well as other genes, such as insulin-like growth factor binding protein 5 and kruppel-like factor 4. miR-143 suppressed H2S production but had no effect on HASMC proliferation. In conclusion, CSE-specific miRNAs designed in our study provide a highly effective research tool for regulating CSE expression and H2S production. These CSE-specific miRNAs have potential as being novel therapeutic agents for treating vascular disorders related to abnormal oxidative stress and SMC growth.

高同型半胱氨酸血症与胱硫醚-β-合酶敲除小鼠紫癜性肾炎加重的相关性

目的研究高同型半胱氨酸血症(HHcy)与胱硫醚-β-合酶(CBS)敲除(KO)小鼠紫癜性肾炎(HSPN)加重的相关性。方法选择CBS-野生型(WT)雄性C57BL/6J小鼠、雄性CBS-KO小鼠(C57BL/6J背景)各40只,鼠龄8~10周,体质量18~20 g。CBS-WT小鼠和CBS-KO小鼠均采用印度墨水尾静脉注射联合麦醇溶蛋白灌胃建立HSPN模型,造模过程中给予常规饮食或高蛋氨酸饮食,给予对照溶剂、内质网应激(ERS)激动剂或拮抗剂腹腔注射。检测血清同型半胱氨酸(Hcy)含量、血肌酐(SCr)、尿素氮(BUN)、24 h尿蛋白、肾脏病理改变及肾小球内细胞凋亡率、C/EBP同源蛋白(CHOP)、含半胱氨酸的天冬氨酸蛋白水解酶(caspase)-12、caspase-3表达水平。结果常规饮食CBS-WT+HSPN组、高蛋氨酸饮食CBS-WT+HSPN组均出现肾脏病理改变,SCr、BUN、24 h尿蛋白水平高于常规饮食CBS-WT组(P<0.05),且常规饮食CBS-WT+HSPN组与高蛋氨酸饮食CBS-WT+HSPN组肾脏病理改变及SCr、BUN、24 h尿蛋白水平差异无统计学意义(P>0.05);与常规饮食CBS-KO组比较,常规饮食CBS-KO+HSPN组出现肾脏病理改变,SCr、BUN、24 h尿蛋白水平、肾小球内细胞凋亡率、CHOP、caspase-12、caspase-3表达水平升高(P<0.05);与常规饮食CBS-KO+HSPN组比较,高蛋氨酸饮食CBS-KO+HSPN组肾脏病理改变加重,Hcy、SCr、BUN、24 h尿蛋白水平、肾小球内细胞凋亡率、CHOP、caspase-12、caspase-3表达水平升高(P<0.05)。与高蛋氨酸饮食CBS-KO+HSPN+溶剂对照组比较,高蛋氨酸饮食CBS-KO+HSPN+ERS激动剂组肾脏病理改变加重,Hcy、SCr、BUN、24 h尿蛋白水平、肾小球内细胞凋亡率、CHOP、caspase-12、caspase-3表达水平升高;高蛋氨酸饮食CBS-KO+HSPN+ERS拮抗剂组肾脏病理改变减轻,Hcy、SCr、BUN、24 h尿蛋白水平、肾小球内细胞凋亡率、CHOP、caspase-12、caspase-3表达水平降低(P<0.05)。结论HHcy引起CBS-KO的HSPN小鼠肾脏病理改变加重、肾小球细胞凋亡加剧,激活ERS是与HHcy上述作用相关。

过表达硫化氢合成酶减轻去卵巢大鼠心肌缺血再灌注损伤

目的探讨过表达硫化氢合成酶减轻去卵巢大鼠心肌缺血再灌注(IR)损伤的作用。方法选择雌性SD大鼠72只,其中32只随机分为假手术组、IR组、去卵巢组、联合组,每组8只。另外40只造模前进行去卵巢、尾静脉注射过表达硫化氢合成酶胱硫醚β合酶(CBS)或胱硫醚γ裂解酶(CSE)的腺相关病毒(AAV)。根据AAV尾静脉注射情况分为阴性假手术组、阴性IR组、阴性联合组、CBS联合组、CSE联合组,每组各8只。检测血清乳酸脱氢酶(LDH)、肌酸激酶(CK)、肌酸激酶同工酶(CK-MB)水平以及细胞凋亡率。结果与IR组比较,联合组血清LDH、CK、CK-MB及心肌TNF-α、白细胞介素1β(IL-1β)、丙二醛、细胞凋亡率、裂解型半胱氨酸天冬氨酸蛋白酶3(Caspase-3)明显升高,超氧化物歧化酶(SOD)、LVEF、左心室短轴缩短率、CBS、CSE表达明显降低(P<0.05)。与阴性联合组比较,CBS联合组和CSE联合组血清LDH、CK、CK-MB水平明显降低[(207.65±20.74)U/L、(200.24±19.83)U/L vs(329.45±34.09)U/L,(201.32±24.05)U/L、(198.25±22.14)U/L vs(304.81±34.51)U/L,(56.33±5.72)U/L、(50.06±6.12)U/L vs(89.14±7.33)U/L,P<0.05],CBS联合组和CSE联合组心肌TNF-α、IL-1β、丙二醛、细胞凋亡率、裂解型Caspase-3明显降低,SOD含量明显升高(P<0.05)。结论去卵巢后心肌中硫化氢合成酶CBS和CSE表达降低,过表达CBS和CSE减轻去卵巢大鼠心肌IR损伤。

基于分子对接技术筛选水稻黄单胞菌CSE抑制剂

由水稻黄单胞菌(Xoo)引起的水稻白叶枯病通常会给水稻带来严重危害;由于抗生素类药物的广泛使用,Xoo出现了耐药性.细菌通过体内的胱硫醚-γ-裂解酶(CSE)产生内源性硫化氢(H2S)是其增强耐药性的重要方式.为降低Xoo的耐药性,基于分子对接技术,以Xoo体内的CSE为靶标,从68个吲哚类生物碱中虚拟筛选CSE抑制剂.结果显示,化合物1-hydroxyrutaecarpine、indican和strictosamide对靶蛋白的亲和力分别为-36.40、-35.15和-34.30 kJ·mol^(-1),均低于参考化合物NL3(-33.89 kJ·mol^(-1)).上述化合物的部分结构均能嵌入蛋白活性空腔并与周围氨基酸产生较为稳定的相互作用.由此推测化合物1-hydroxyrutaecarpine、indican和strictosamide可能会对Xoo体内的CSE产生一定的抑制作用.

蒜氨酸通过CBS/CSE途径改善小鼠非酒精性脂肪肝病的研究

【目的】研究蒜氨酸对非酒精性脂肪肝病(NAFLD)小鼠肝脏中胱硫醚-β-裂解酶(cystathionine-β-synthase,CBS)、胱硫醚-γ-裂解酶(cystathionine-γ-lyase,CSE)表达的影响,阐释蒜氨酸改善NAFLD的作用途径,为临床药物研发提供科学依据。【方法】50只雄性C57/6J小鼠随机分为5组:正常组、模型组、硫氢化钠组、蒜氨酸组和蒜氨酸+PAG组(DL-炔丙基甘氨酸,DL-propargylglycine,PAG),每组10只。正常组饲喂普通饲料,其他4组饲喂高脂饲料。蒜氨酸组灌胃给予蒜氨酸20 mg/kg;蒜氨酸+PAG组灌胃给予蒜氨酸20 mg/kg,同时腹腔注射PAG 15 mg/kg;硫氢化钠组腹腔注射硫氢化钠2 mg/kg;正常组和模型组灌胃给予等剂量的蒸馏水,每天1次,每周称体重1次,预防给药6周后处死,观察肝脏形态学和病理学变化,检测血清中总胆固醇(total cholesterol,TC)、甘油三酯(triglyceride,TG)、高密度脂蛋白(high density lipoprotein,HDL-C)、低密度脂蛋白(low density lipoprotein,LDL-C)的水平,Western blotting检测肝脏组织中CBS和CSE蛋白表达水平。【结果】与正常组相比,模型组小鼠体重显著增加(P<0.05),其他组小鼠体重无显著变化(P>0.05)。形态学观察显示,模型组小鼠肝脏偏黄无光泽,成花斑状,其他组小鼠肝脏表面光滑、质地均匀、颜色与正常组小鼠接近。肝脏病理学HE染色可见,正常组切片正常,模型组出现明显脂肪空泡和脂滴沉积,说明脂肪肝模型建立成功;与模型组相比,硫氢化钠组和蒜氨酸组均有明显好转;与蒜氨酸组相比,蒜氨酸+PAG组抗脂肪变性作用减弱。与正常组相比,模型组小鼠血清中TG、TC、LDL-C均显著升高(P<0.05),各给药组小鼠TC、TG、LDL-C相较于模型组显著降低(P<0.05)。与正常组相比,模型组小鼠CBS和CSE蛋白表达水平显著下降(P<0.05),硫氢化钠组和蒜氨酸组干预后CBS和CSE蛋白表达水平显著或极显著上调(P<0.05;P<0.01);与模型组相相比,蒜氨酸+PAG组小鼠CBS和CSE表达无显著差异(P>0.05)。【结论】蒜氨酸可明显增加高脂饮食诱导的NAFLD小鼠肝脏组织中CBS和CSE表达,改善血清中血脂各项指标,减少小鼠肝细胞脂质沉积,发挥保护肝脏作用。

应激性高血压大鼠延髓CBS和MPST/H_(2)S途径的变化

目的观察应激性高血压(SIH)大鼠延髓胱硫醚-β-合酶(CBS)和3-巯基丙酮酸转硫酶(3-MPST)/硫化氢(H_(2)S)合成途径的变化。方法18只雄性WKY大鼠按照随机数字表法分为对照组(n=6)和SIH组(n=12)。对照组大鼠不做任何处理,SIH组大鼠采用电击足底结合噪音刺激制作SIH模型。四道生理记录仪测定两组大鼠血压和心率,亚甲蓝法测量两组延髓H 2S生成,蛋白质免疫印迹法检测对照组和SIH组大鼠延髓CBS和3-MPST蛋白的变化。结果对照组大鼠的收缩压和心率分别是(119.21±6.49)mmHg和(326.40±13.54)次/min,SIH组大鼠的收缩压和心率分别为(147.16±9.76)mmHg、(402.51±19.28)次/min。与对照组比较,SIH组大鼠的收缩压和心率分别增加了23.45%和23.35%,差异均有统计学意义(P<0.05)。对照组和SIH组大鼠延髓H 2S生成率分别是(1492.76±121.67)pmol·min^(-1)·mg^(-1)、(247.96±107.17)pmol·min^(-1)·mg^(-1),与对照组比较,SIH组大鼠延髓H 2S生成率显著降低,差异有统计学意义(P<0.05)。对照组大鼠延髓中CBS和MPST蛋白表达水平分别为2.98±0.43、0.77±0.14。应激刺激后,SIH组大鼠延髓CBS和MPST蛋白表达水平分别为2.20±0.18、0.56±0.16。与对照组比较,SIH组大鼠延髓CBS蛋白表达水平降低,差异有统计学意义(P<0.05),MPST蛋白表达比较,差异无统计学意义(P>0.05)。结论SIH时H 2S生成减少,其机制可能是延髓H 2S生成酶CBS和3-MPST蛋白表达水平降低。

胱硫醚-γ-裂解酶和胱硫醚-β-合成酶在高血压大鼠阴茎海绵体中的表达

目的:探讨高血压对大鼠阴茎海绵体组织胱硫醚-γ-裂解酶(CSE)和胱硫醚-β-合成酶(CBS)表达的影响及与大鼠勃起功能的关系。方法:健康雄性SPF级自发性高血压大鼠(SHR)与对照组WKY(Wistar-Kyoto)大鼠各10只,于12周龄时测定大鼠血清睾酮、阴茎海绵体内压/平均动脉压(ICP/MAP)、血浆和阴茎海绵体内源性H2S的含量,采用免疫组化和Western印迹分析CSE和CBS在阴茎海绵体内的表达。结果:SHR与WKY大鼠的血清睾酮值没有显著差别,SHR的ICP/MAP在0、3和5 V电刺激盆腔神经节(MPG)时均显著低于WKY组(n=10,P<0.05)。SHR血浆H2S含量显著低于WKY大鼠[(10.49±1.35)μmol/Lvs(21.92±2.75)μmol/L,P<0.05],SHR阴茎海绵体组织内源性H2S含量显著低于WKY大鼠[(52.60±3.44)nmol/mg prot vs(87.67±2.12)nmol/mg prot,P<0.05],SHR阴茎海绵体组织内源性H2S生成率也较WKY大鼠显著降低[(1.14±0.07)nmol/(mg·min)vs(4.35±0.32)nmol/(mg·min),P<0.05]。CSE及CBS主要表达在SHR和WKY大鼠阴茎海绵体平滑肌细胞和血管内皮细胞的胞质,SHR的CSE及CBS蛋白表达量均显著低于WKY大鼠(P<0.05)。ICP/MAP与CSE和CBS表达呈高度正相关(r=0.955、0.977,P均<0.05)。结论:高血压大鼠阴茎海绵体组织中CBS和CSE的表达下降,导致阴茎海绵体内H2S合成减少,可能是高血压引起勃起功能下降的机制之一。

内源性硫化氢在不同时期大鼠肝硬化中的作用

目的:观察内源性胱硫醚-γ-裂解酶(cystathionine gamma-lyase,CSE)/硫化氢(hydrogen sulfide,H2S)(CSE/H2S)体系在不同时期肝硬化大鼠模型上的变化,以探讨内源性H2S在肝硬化发生发展过程中的作用.方法:制备四氯化碳诱导的肝硬化大鼠模型,在第15、30、52天取大鼠门静脉血检测H2S浓度,用免疫组化和RT-PCR方法观察肝组织CSEmRNA的表达.结果:肝硬化早、中、晚期大鼠门静脉血中H2S的含量均显著低于正常对照组(F=126.208,P=0.000),且H2S浓度随着肝脏病变的加重而逐渐降低(r=-0.777,P<0.05).肝硬化不同时期肝组织CSE蛋白的灰阶值均低于正常对照组(F=156.04,P=0.000),表明CSE表达增强.各组CSE mRNA的表达均分别显著高于正常对照组(F=23.927,P=0.000),且随着肝脏病变的加重表达逐渐增加.结论:H2S体系在肝硬化发生发展中起着保持血管舒张状态的重要作用.

硫化氢对离体大鼠心脏缺血/再灌注损伤的影响及机制初探

目的观察内源性CSE/H2S通路的改变以及给予H2S供体对缺血/再灌注心脏的影响,探讨该通路与心脏缺血/再灌注损伤的关系及作用机制。方法采用Langendorff离体灌流装置、通过停灌30min/复灌30min方式造成Wistar大鼠心肌缺血/再灌注损伤模型;采用外源性NaHS(40μmol.L-1)分别在停灌30min前(SIR)与停灌30min后处理(IRS)对缺血/再灌注心脏的影响。记录心脏收缩期左心室内压上升的最大变化速率(+dp/dtmax)、舒张期左心室内压下降的最大变化速率(-dp/dtmax)及左室内压差(LVP=左室收缩压-左室舒张压)。采用比色法检测灌流液中乳酸脱氢酶(LDH)、心肌MDA及SOD;采用比色法检测心肌胱硫醚-γ-裂解酶(CSE)活性;采用RT-PCR方法测定心肌组织CSEmRNA表达。结果与缺血/再灌注组(I/R)30min相比,SIR组及IRS组±dp/dtmax、LVP均增高,LDH降低;I/R组MDA水平高于对照组(CON)、SIR组及IRS组(P<0.05,P<0.01);IR组SOD活性低于SIR组及IRS组(P<0.05),但与CON组差别无显著性;I/R组大鼠心肌CSE活性低于CON组(P<0.05);而大鼠心肌CSEmRNA的表达与CON组差异无显著性。结论在缺血前后给予外源性NaHS均可改善因再灌注损伤引起的心肌收缩及舒张功能障碍;其作用机制可能是通过提高心肌SOD活性,增加氧自由基清除而拮抗缺血/再灌注引起的心功能及细胞膜损伤;心肌缺血/再灌注时内源性CSE活性抑制可能与心功能障碍及细胞损伤有关。

CBS基因多态性与中青年脑梗死

目的:探讨同型半胱氨酸(Hcy)代谢相关酶胱硫醚β-合酶(CBS)基因突变对中青年脑梗死的致病作用。方法:采用扩增阻滞突变体系法(PCR-ARMS)技术分别检测85例中青年脑梗死患者(患者组)和44例正常对照者(对照组)CBST833C的基因型,利用高压液相色谱法测定其血浆总同型半胱氨酸(tHcy)水平。结果:患者组CBS纯和突变型(C/C)、杂和型(C/T)和C等位基因型频率分别为18.8%、44.7%和41.2%,显著高于对照组的4.5%、22.7%和15.9%(P<0.01)。患者组血浆tHcy均值为23.14μmol/L,对照组仅为13.49μmol/L,患者组高同型半胱氨酸血症(HHC)32例,对照组为2例,2组差别有统计学意义。2组C/C型血浆tHcy水平高于C/T型和T/T型者。结论:CBST833C基因突变可能是引起HHC间接导致中青年脑梗死的重要遗传因素。

高肺血流量对肺血管结构及胱硫醚-γ-裂解酶基因表达的影响

目的 :探讨高肺血流量所致肺动脉高压大鼠肺血管结构和内源性硫化氢体系的变化。方法 :SD大鼠共1 6只 ,随机分为分流组及对照组。对分流组大鼠行腹主动脉 -下腔静脉分流术。 1 1周后以右心导管法测定肺动脉平均压 (pulmonaryarterymeanpressure ,mPAP)。检测右心室 /体重 (rightventricle/bodyweight,RV/BW )和右心室 /左心室 +室间隔 (rightventricle /leftventricleplusseptum ,RV/LV +S)比值。并且以光学显微镜和电子显微镜观测肺血管结构的变化。以分光光度法测定血浆硫化氢 (hydrogensulfide,H2 S)含量。化学法测定肺组织硫化氢产出率 ,以原位杂交的方法检测肺动脉胱硫醚 γ 裂解酶 (cystuthionine γ lyase ,CSE)mRNA表达。 结果 :分流组大鼠mPAP、RV/BW及RV/ (LV +S)比值明显高于对照组 ,光镜下肺小血管肌化程度明显增强 ,肺中、小肌型动脉相对中膜厚度明显增加。电镜下 ,肺中、小肌型动脉内皮细胞增生、肥厚、肿胀 ,平滑肌细胞增生、肥厚 ,并由收缩表型向合成表型转化。分流组大鼠的血浆H2 S含量及肺组织CSE活性 (肺组织H2 S产出率 )明显低于对照组 ,肺动脉mRNA表达明显降低。结论 :肺血管结构重建是高肺血流量所致肺动脉高压的重要病理基础 ,内源性H2 S体系———mRNA表达、CSE活性及血浆H2

脑梗死患者血清同型半胱氨酸变化及机制的探讨

目的 探讨血清同型半胱氨酸 (Homocysteine,HCY)及其代谢相关因子和血脂与脑梗死的关系 ,并观察叶酸、维生素 B6 对 HCY的影响。方法 对 5 9例经 CT或 MRI证实为脑梗死的患者和 2 9例健康对照者 ,采用高效液相色谱法测定血清同型半胱氨酸水平 ,并应用 PCR扩增法检测 CBS基因 T833C多态性。结果 (1)脑梗死患者血清 HCY浓度 (2 3.0 0± 7.4 6 nmol/ m l)显著高于正常对照组 (12 .4 6± 3.6 0 nmol/ m l) ,两组比较差异显著 (t=8.94 1,P<0 .0 0 1)。 (2 ) CBS基因在患者组发现 7例纯合子突变 ,2 5例杂合子突变 ;对照组 2例纯合子突变 ,3例杂合子突变 ,两组基因型和等位基因频率分布差异有显著意义 ,前者χ2 =11.32 9,P<0 .0 1;后者χ2 =8.86 8,P <0 .0 1。 CBS基因杂合突变者血清 HCY浓度显著高于正常基因者 t=4 .5 6 9,P<0 .0 0 1。 (3)脑梗死患者血脂与 HCY水平无明显相关。 (4)叶酸、维生素 B6 治疗后 ,CBS正常基因型血 HCY下降最为显著。结论 高同型半胱氨酸血症是脑梗死的独立危险因素 ,而 CBS基因 T833C突变及维生素 B6 。