Objective To investigate the role of endogenous Hydrogen Sulfide ( H2S) in airway inflammation and responsiveness in a rat model of chronic passive-smoking. Methods Male SD rats were randomly divided into a control group ( breathing fresh air) and a passive smoking group [ cigarette smoking( CS) passively] , with 18 rats in each group. Six rats in each group were randomly intraperitoneally injected with normal saline, sodium hydrosulfide ( NaHS) or propargylglycine ( PPG, an irreversible inhibitor of cystathionine- γ-lyase) . The animals were divided into six subgroups, ie. Con group, NaHS group, and PPG group, CS group, CS+ NaHS group, and CS + PPG group. After 4 months, lung histological change and airway tension were measured. The H2S levels of plasma and lung tissue were analyzed by the sensitive sulphur electrode assay. The expression of cystathionine-γ-lyase ( CSE) was measured by western blot. Results Compared with the Con group, CSE protein expression in lung tissues was increased in CS group( P lt;0. 05) ; the H2 S levels of plasma were significantly higher in CS group, NaHS group and CS + NaHS group, and much lower in PPG group ( P lt; 0. 05, respectively) . Compared with CS group, the H2S levels of plasma were significantly higher in CS + NaHS group, and much lower in CS + PPG group( P lt; 0. 05, respectively) . The H2S level of lung tissue in each group had no significant difference ( P gt; 0. 05) . Compared with Con group,score of lung pathology was significant elevated, and the responsiveness of airway smooth muscles to ACh and KCl was significant augmented in CS group. Compared with CS group, the score of lung pathology was decreased, and the responsiveness of airway smooth muscles was decreased in CS +NaHS group( P lt;0. 05) , and vise versa in CS + PPG group( P lt; 0. 01) . Conclusion H2S can alleviate airway inflammation and hyperresponsiveness induced by CS, and administration of H2S might be of clinical benefit in airwayinflammation and airway responsiveness.
Objective To explore the influences of hydrogen sulfide (H2S) on acute necrotizing pancreatitis (ANP). Methods Forty-three SD male rats were grouped by random number table, and divided into five groups:the sham group (n=4), ANP group 〔n=21, which was divided into 3 subgroups:3, 6, and 12 hours group (n=7)〕, NaCl+ANP group (n=4), NaHS+ANP group (n=7), and PAG+ANP group (n=7). Models of ANP were formed byretrograde cholangiopancreatography injection of 5% sodium taurocholate. The NaCl+ANP group, NaHS+ANP group, and PAG+ANP group rats were given pretreatment of saline, NaHS, or PAG at 1 hour before modelingrespectively. The levels of serum amylase (AMY), aspartate aminotransferase (AST), alanine aminotransferase (ALT), blood urea nitrogen (BUN), and creatinine (Cr) were detected, and the pathological histological changes of pancreatic tissues were observed. Results The levels of serum AMY, AST, ALT, BUN, and Cr were increased in ANP group. The levels of serum AMY, AST, ALT, BUN, and Cr in the NaHS+ANP group were higher than those of NaCl+ANP group (P<0.05), and the pathological damage of the pancreatic tissues was more serious in the NaHS+ANP group. The levels of serum AMY, AST, ALT, BUN, and Cr in the PAG+ANP group were lower than those of NaCl+ANPgroup (P<0.05), and the pathological damage of pancreatic tissues in the PAG+ANP group was not so serious as in the NaCl+ANP group. Conclusions The impairment of liver, kidney, and pancreas function in ANP rats may be related to elevated H2S concentration. Prophylactic administration the PAG of H2S antagonist can improve the function of the liver, kidney, and pancreas, and have the effects of organ protection.
Objective To study the role of hydrogen sulfide (H2S) in prophase of acute peritoneal cavity infection. Methods NaHS was taken as a donor of H2S. Seventy-two Sprague-Dawley rats were divided into 4 groups randomly:control group, cecal ligation and puncture (CLP) and treated with natural saline group,CLP and treated with NAHS group, and CLP and treated with DL-propargylglycine (PAG, an inhibitor of H2S formation) group. Selected 6 rats at 2h, 6h, and 12h after treatment in each group. The contents of TNF-αand H2S in serum and the content of MPO in intestinal tissue were measured, respectively. The histopathological change of ileum tissues were observed at 6 h after treatment in each group. Results The H2S could alleviate CLP-induced inflammation obviously, decrease the content of TNF-α in serum when inflammation,and attenuate the infiltration of neutrophilic granulocyte in small intestine. Conclusion The H2S has anti-inflammation effect in prophase of acute peritoneal cavity infection.
ObjectiveTo investigate the potential role and mechanism of hydrogen sulfide (H2S) in regulating arterial baroreflex (ABR) in septic rats. MethodsThe rat model of cecal ligation and puncture (CLP) induced sepsis was established. Fortyseven male SpargueDawley rats were randomly divided into 9 groups: ① Sham operation (SO)+0.9% NaCl (NS) intravenous injection (i.v.) group; ② SO+NaHS i.v. group; ③ CLP+NaHS i.v. group; ④ SO+artificial cerebrospinal fluid (aCSF) bilater nucleus tractus solitarii (NTS) microinjection group; ⑤ SO+NaHS bilater NTS microinjection group; ⑥ SO+vehicle (DMSO)+NaHS group; ⑦ SO+Gli+NaHS group; ⑧ CLP+vehicle (DMSO) group; ⑨ CLP+Gli group. The ABR function was measured before administration and 5 min and 30 min after administration. Results① The ABR value of rats at different time in the same group: Compared with the ABR value before administration in the SO+NaHS i.v. group, CLP+NaHS i.v. group, SO+NaHS bilater NTS microinjection group, and SO+vehicle+NaHS group, the ABR values of rats significantly decreased at 5 min and 30 min after administration (Plt;0.05, Plt;0.01), which significantly increased in the CLP+Gli group at 5 min and 30 min after administration (Plt;0.05). ② The ABR value of rats at the same time in the different groups: Before administration, the ABR value of rat in the CLP+NaHS i.v. group was significantly lower than that in the SO+NS i.v. group or SO+NaHS i.v.group (Plt;0.05). At 5 min and 30 min after adminis tration, the ABR value of rat in the CLP+NaHS i.v. group was significantly lower than that in the SO+NS i.v. group or SO+NaHS i.v. group (Plt;0.05), which in the SO+NaHS i.v. group or SO+NaHS bilater NTS microinjection group was significantly lower than that in the SO+NS i.v. group or SO+aCSF bilater NTS microinjection group, respectively (Plt;0.05, Plt;0.01), in the SO+Gli+NaHS group or CLP+Gli group was significantly higher than that in the SO+vehicle+NaHS group or CLP+vehicle group, respectively (Plt;0.05). ConclusionsH2S plays an adverse role in septic ABR function, and opening KATP channel located at the pathway of ABR, may be the mechanism involved in the downregulation of ABR function in septic rat. Notably, the NTS may be also responsible for reduction of ABR value.
Objective To investigate the relation between gaseous signal molecule hydrogen sulfide (H2S) and diseases. Methods Literatures about the advancement of H2S were reviewed and analyzed. Results H2S is recognized as a novel gaseous signal molecule. By acting specially on KATPchannels, H2S can relax smooth muscle cells to regulate blood pressure.It even plays an important roles in pulmonary hypertension, ischemia/reperfusion injury, neurotransmission, apoptosis and inflammatory reaction. Conclusion H2S has been regarded as the third gaseous signal molecule, which exerts many physiological and pathological effects on mammals, and will pave way for development of new drugs and provide therapeutic intervention for various diseases.