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Multiple hemodynamic effects of endogenous hydrogen sulfide on central nervous system in rats 被引量:6

Multiple hemodynamic effects of endogenous hydrogen sulfide on central nervous system in rats
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摘要 Background Endogenous hydrogen sulfide is a new neuromodulator which takes part in the regulation of central nervous system physiology and diseases. Whether endogenous hydrogen sulfide in the central nervous system regulates cardiovascular activity is not known. In the present study, we observed the hemodynamic changes of hydrogen sulfide or its precursor by intracerebroventricular injection, and investigate the possible roles of endogenous digitalis like factors and sympathetic activity in the regulation. Methods Ninety-four Sprague-Dawley rats underwent a right cerebroventricular puncture, then the hydrogen sulfide saturation buffer or its precursor injected by intrcerebroventricular catheter. A heperin-filled catheter was inserted into the right femoral artery or into the left ventricle, and changes of blood pressure or cardiac function recorded by a Powerlab/4S instrument. Phentolamine or metoprolol were pre-injected to observe the possible role in autonomic nerve activity. After rats were sacrificed, plasma was collected and endogenous digitalis-like factors were measured with a commercial radioimmunoassay kit. The aortic, cardiac sarcolemmal vesicles were isolated and the activity of Na+-K+-ATPase was measured as ouabain-sensitive ATP hydrolysis under maximal velocity conditions by measuring the release of inorganic phosphate from ATP. Unpaired Student's ttest for two groups or analysis of variances (ANOVA) for multiple groups were used to compare the differences of the changes. Results Intracerebroventricular injection of hydrogen sulfide induced a transient hypotension, then dramatic hypertenive effects in a dose-dependent manner. Bolus injection of L-cysteine or beta-mercaptopyruvate also increased mean arterial pressure (P 〈0.01), whereas hydroxylamine-a cystathionine beta synthase inhibitor decreased the arterial pressure (P 〈0.01). Hydrogen sulfide and L-cysteine increased mean arterial pressure, left ventricular develop pressure and left-ventricle maximal rate of systolic and diastolic pressure; these functions were decreased by hydroxylamine (P 〈0.01). Glibenclamide (a KATP channel blocker) blocked the transient hypotensive effect, phentolamine (an alpha-adrenergic receptor blocker) blocked the hypertensive effect, and metoprolol (a selective beta 1 receptor blocker) blocked the positive inoptropic effect of central nervous system hydrogen sulfide. The endogenous digitalis-like factors in plasma were elevated (P 〈0.01) after treatment with L-cysteine, association with decreasing Na+-K+-ATPase activity in cardiac or aortic sarcolemmal vesicles (P 〈0.01). Hydroxylamine injection reduced the endogenous digitalis-like factors level in plasma association with increasing Na+-K+-ATPase activity in cardiac and aortic sarcolemmal vesicles. Conclusion Central nervous system endogenous hydrogen sulfide upregulated mean arterial pressure and cardiac systolic function by activation of sympathetic nerves or release of endogenous digitalis-like factors. Background Endogenous hydrogen sulfide is a new neuromodulator which takes part in the regulation of central nervous system physiology and diseases. Whether endogenous hydrogen sulfide in the central nervous system regulates cardiovascular activity is not known. In the present study, we observed the hemodynamic changes of hydrogen sulfide or its precursor by intracerebroventricular injection, and investigate the possible roles of endogenous digitalis like factors and sympathetic activity in the regulation. Methods Ninety-four Sprague-Dawley rats underwent a right cerebroventricular puncture, then the hydrogen sulfide saturation buffer or its precursor injected by intrcerebroventricular catheter. A heperin-filled catheter was inserted into the right femoral artery or into the left ventricle, and changes of blood pressure or cardiac function recorded by a Powerlab/4S instrument. Phentolamine or metoprolol were pre-injected to observe the possible role in autonomic nerve activity. After rats were sacrificed, plasma was collected and endogenous digitalis-like factors were measured with a commercial radioimmunoassay kit. The aortic, cardiac sarcolemmal vesicles were isolated and the activity of Na+-K+-ATPase was measured as ouabain-sensitive ATP hydrolysis under maximal velocity conditions by measuring the release of inorganic phosphate from ATP. Unpaired Student's ttest for two groups or analysis of variances (ANOVA) for multiple groups were used to compare the differences of the changes. Results Intracerebroventricular injection of hydrogen sulfide induced a transient hypotension, then dramatic hypertenive effects in a dose-dependent manner. Bolus injection of L-cysteine or beta-mercaptopyruvate also increased mean arterial pressure (P 〈0.01), whereas hydroxylamine-a cystathionine beta synthase inhibitor decreased the arterial pressure (P 〈0.01). Hydrogen sulfide and L-cysteine increased mean arterial pressure, left ventricular develop pressure and left-ventricle maximal rate of systolic and diastolic pressure; these functions were decreased by hydroxylamine (P 〈0.01). Glibenclamide (a KATP channel blocker) blocked the transient hypotensive effect, phentolamine (an alpha-adrenergic receptor blocker) blocked the hypertensive effect, and metoprolol (a selective beta 1 receptor blocker) blocked the positive inoptropic effect of central nervous system hydrogen sulfide. The endogenous digitalis-like factors in plasma were elevated (P 〈0.01) after treatment with L-cysteine, association with decreasing Na+-K+-ATPase activity in cardiac or aortic sarcolemmal vesicles (P 〈0.01). Hydroxylamine injection reduced the endogenous digitalis-like factors level in plasma association with increasing Na+-K+-ATPase activity in cardiac and aortic sarcolemmal vesicles. Conclusion Central nervous system endogenous hydrogen sulfide upregulated mean arterial pressure and cardiac systolic function by activation of sympathetic nerves or release of endogenous digitalis-like factors.
出处 《Chinese Medical Journal》 SCIE CAS CSCD 2011年第21期3468-3475,共8页 中华医学杂志(英文版)
基金 This work was supported by the Major State Basic Research Development Program of China (No. 30890042) the National Natural Science Foundation of China (No. 30971084 and No. 30821001) and the Educational Bureau of Hubei Province (No. Q20092403 and No. B20082405).
关键词 central nervous system hydrogen sulfide blood pressure cardiac systolic function endogenous digitalis like factor central nervous system hydrogen sulfide blood pressure cardiac systolic function endogenous digitalis like factor
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