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1.
Release and activation of matrix metalloproteinases (MMPs) significantly contribute to myocardial stunning injury immediately after ischemia and reperfusion, however, their role in preconditioning remains unknown. We therefore examined the effects of preconditioning and subsequent ischemia/reperfusion on MMP activity in isolated rat hearts. Hearts were subjected to a preconditioning protocol (three consecutive 5-min periods of global ischemia interspersed with 5 min of reperfusion) followed by 30 min ischemia and 5 min reperfusion. To measure MMP release, coronary effluent was collected: (a) during aerobic perfusion, (b) in reperfusion following each preconditioning ischemia, and (c) during the final reperfusion following test ischemia. MMP-2 activities could be detected by gelatin zymography in the ventricles and coronary effluent samples from the perfused hearts. The levels of MMP-2 activity in the effluent were markedly increased in effluent following test ischemia from control hearts without preconditioning. This was accompanied by a decrease in corresponding tissue MMP activities. Preconditioning significantly decreased the MMP-2 activity in the coronary effluent following test ischemia/reperfusion and preserved the MMP-2 protein content and activity in the myocardium. Our results demonstrate that classic preconditioning inhibits ischemia/reperfusion induced release and activation of MMP-2. These results suggest that preconditioning may exert part of its cardioprotective effects through the reduction of MMP-2 release.  相似文献   

2.
Cardiovascular ageing is associated with an increase in cardiac susceptibility to ischaemia and reperfusion and production of reactive oxygen species has been suspected to be responsible for this age-associated particular vulnerability. To determine whether administration of antioxidant treatment could afford some protection against ischaemia and reperfusion during aging, isolated perfused hearts from adult and senescent rats were submitted to normoxia (180 min), prolonged low-flow ischaemia (15% of initial coronary flow;180 min) or low-flow ischaemia/reperfusion (45 min/30 min), without or with antioxidant enzymes (superoxide dismutase+catalase; 50IU/ml). Contractile function and coronary perfusion were measured and protein oxidation was quantitated in left ventricle after normoxia, ischaemia and ischaemia/reperfusion. Protein oxidation was higher in senescent than in adult hearts after ischaemia-reperfusion, in contrast to prolonged ischaemia. During prolonged ischaemia, antioxidant treatment prevented coronary vasoconstriction at both ages and delayed contractile dysfunction in senescent hearts but did not limit protein oxidation. During reperfusion, antioxidant treatment prevented coronary vasoconstriction and protein oxidation at both ages and considerably improved recovery of contractile function in senescent hearts. In conclusion, antioxidant treatment fully protects the senescent heart against ischaemia/reperfusion but not against prolonged ischaemia injury, indicating that oxidative stress plays a central role in the age-associated vulnerability to ischaemia-reperfusion.  相似文献   

3.
The effects of myocardial stunning and ischemic preconditioning on left-ventricular developed pressure and end-diastolic pressure (diastolic stiffness) as well as on coronary-perfusion pressure were examined in isolated isovolumic rabbit hearts. The isovolumic relaxation was evaluated, and the time constant of pressure decay during the isovolumic period was calculated. Our experimental protocol comprised: 1) myocardial stunning-global ischemia (15 min) followed by reperfusion (30 min); 2) myocardial stunning-global ischemia (20 min) followed by reperfusion (30 min); and 3) ischemic preconditioning — a single cycle of brief global ischemia and reperfusion (5 min each), before a second ischemic period, of 20-min duration. There was no effect upon systolic and diastolic parameters when 15 and 20 minutes of ischemia were evaluated. In both stunned groups the left ventricular developed pressure first recovered to near control values, but then stabilized at only 60% of the control values. Whereas the isovolumic relaxation time constant was increased after 5 min of reperfusion, and return to control values at late reperfusion, the end diastolic pressure remained elevated during the entire period. Values of dP/dV calculated at common pressure levels, were used as a second index of diastolic stiffness. They were increased after stunning, as also was the coronary perfusion pressure. When the heart was preconditioned with a single episode of ischemia, the systolic and diastolic alterations were completely abolished. We thus concluded that diastolic abnormalities incurred by myocardial stunning consist in both an increase in diastolic stiffness and an early impairment of isovolumic relaxation. The increase in stiffness cannot result from incomplete relaxation since these two parameters become temporally dissociated during the reperfusion period.  相似文献   

4.
Myocardial ischemia and reperfusion cause myocyte and vascular dysfunction, frequently termed "stunning." We hypothesized that inhibiting the Na(+)/H(+) exchanger subtype 1 isoform (NHE(1)) during ischemia and reperfusion limits myocardial and coronary microvascular stunning. Anesthetized rats completed 2 x 10-min coronary artery occlusions separated by 5-min of reperfusion, followed by 15 or 60 min of reperfusion. Vehicle (saline) or the NHE(1) inhibitor cariporide (HOE-642) was administered 15 min before ischemia and was continued throughout each protocol. After reperfusion, hearts were excised, and the reactivity of resistance arteries (internal diameter, approximately 120 microm) was assessed. The first derivative of left ventricular (LV) pressure, LV developed pressure, and LV systolic wall thickening were depressed (P < 0.05) similarly in vehicle- and cariporide-treated rats during ischemia and after 15 or 60 min of reperfusion compared with sham-operated animals that were not exposed to ischemia (i.e., controls). In vessels obtained after 15 min of reperfusion, the maximal response to acetylcholine-induced relaxation (10(-8)-10(-4) M) was blunted (P < 0.05) in vessels from vehicle- (approximately 35%) and cariporide-treated rats (approximately 55%) compared with controls (approximately 85%). However, the percent relaxation to acetylcholine was greater (P < 0.05) in cariporide-treated rats compared with vehicle-treated rats. Maximal contractile responses to endothelin-1 (10(-11)-10(-7) M) were increased (P < 0.05) similarly in vehicle- and cariporide-treated rats compared with controls. Relaxation to sodium nitroprusside (10(-4) M) was not different among groups. Results were similar in vessels obtained from animals after 60 min of reperfusion. These findings suggest that NHE(1) inhibition before coronary occlusion lessens ischemia-induced microvascular dysfunction for 15-60 min after reperfusion but does not alter myocardial contractile function in the area at risk.  相似文献   

5.
The effects of the novel calpain inhibitor A-705239 were studied in isolated perfused rabbit hearts subjected to 45 min of global ischemia, followed by 60 min of reperfusion. During 15 min of perfusion the inhibitor accumulated in myocardial tissue up to 16 times the concentration in the perfusate. Almost complete recovery and survival of heart function (90%) was seen with an inhibitor concentration of 10(-8) M in the perfusion fluid when the compound was administered prior to ischemia. Left ventricular pressure amplitude and coronary flow showed significantly higher values during reperfusion in the presence of the inhibitor. A-705239 significantly reduced the release of creatine kinase, from 166+/-49 U/l in untreated hearts to 44+/-10 U/l, and diminished the release of lactate dehydrogenase from 118+/-20 U/l in untreated hearts to 63+/-4 U/l. Mitochondrial dysfunction following ischemia and reperfusion was markedly attenuated by the inhibitor. Thus, the state 3 respiration rate only decreased to 4.2 in contrast to 2.6 nmol O2/(min x mg s.w.) in untreated hearts, reflecting a reduced damage of oxidative phosphorylation. Furthermore, in the presence of the inhibitor the inner mitochondrial membranes became less permeable as indicated by a smaller leak respiration. The excellent properties of A-705239 should make this compound a valuable tool for further pharmacological studies.  相似文献   

6.
Methylprednisolone (MP), a synthetic glucocorticoid, is widely used clinically and experimentally as acute antiinflammatory treatment. The molecular actions of MP indicate that pretreatment with this drug may be cardioprotective. We investigated if giving rats MP prior to excising their hearts for Langendorff-perfusion protected cardiac function against oxidative stress, and if this was mediated by increasing antioxidant defence or influencing myocardial nitric oxide synthase (NOS). Rats (n=6-11 in each group) were injected with MP (40 mg/kg i.m.) or vehicle 24 and 12 h before Langendorff-perfusion with 30 min global ischaemia and 60 min reperfusion, or 10 min perfusion with 180 μmol/L hydrogen peroxide. Other hearts were exposed to 30 min global ischaemia 5 days after MP-injection. Additional hearts were sampled before, during, and after ischaemia for analyzing tissue activity of antioxidant enzymes. Tissue endothelial and inducible NOS (eNOS and iNOS) were investigated by immunoblotting and semiquantitative RT-PCR in a time-course after MP injection. Pretreatment with MP improved left ventricular function and increased coronary flow during postischaemic reperfusion, and this effect was sustained 5 days afterwards. When exposing hearts to hydrogen peroxide, MP improved coronary flow. Catalase, glutathione peroxidase, and oxidized glutathione were increased during reperfusion of MP-treated hearts compared to vehicle only. MP did not influence eNOS at protein or mRNA level. iNOS could not be detected by immunoblotting, indicating low cardiac enzyme content. Its mRNA initially increased the first hour after injection, thereafter decreased. In conclusions, pretreating rats with MP protects the heart against ischaemia-reperfusion dysfunction. This effect could be due to increase of tissue antioxidant activity during reperfusion. MP did not influence cardiac eNOS. mRNA for iNOS was influenced by MP, but the corresponding protein could not be detected.  相似文献   

7.
The lipophilic antioxidant Trolox C, a vitamin E analog, was administered to isolated, buffer-perfused rabbit hearts subjected to 25 min of global stop-flow ischemia and 30 min of reperfusion. In six hearts, Trolox C (200 microM) was infused for 15 min immediately prior to ischemia and for the first 15 min of reperfusion. Six control hearts received only vehicle. Gas chromatography analysis confirmed that effective myocardial levels of Trolox were attained. At 30 min reperfusion, the recovery of left ventricular developed pressure was 56 +/- 3% of baseline in control hearts versus 70 +/- 4% in Trolox-treated hearts (p < .01). There was also significant improvement in recovery of Trolox-treated hearts in diastolic pressure and both maximum and minimum values of the first derivative of left ventricular pressure (dP/dt). Creatine phosphokinase release into the coronary effluent at 30 min of reperfusion was 16.5 +/- 8.4 IU/min in untreated and 6.3 +/- 1.0 IU/min (p < .05) in Trolox-treated hearts. Thus Trolox C, a lipophilic antioxidant, attenuated myocardial injury during stop-flow ischemia and reperfusion.  相似文献   

8.
Tokuno S  Thorèn P  Löwbeer C  Valen G 《Life sciences》2001,69(17):2067-2080
Nitric oxide (NO) may play an essential role for maintenance of cardiac function and perfusion, while endothelial dysfunction of atherosclerotic vessels may aggravate ischaemia/reperfusion injury. This paper investigates the role of nitric oxide in ischaemia/reperfusion injury in hearts with coronary atherosclerosis. Hearts of apolipoprotein E/LDL receptor double knockout (ApoE/LDLr KO) mice fed an atherogenic diet for 7-9 months were isolated and Langendorff-perfused with 40 minutes of global ischaemia and 60 minutes reperfusion, and funtion and infarction compared with hearts of C57BL/6 controls in the prescence or abscence of the NO-donor SNAP or the NOS inhibitor L-NAME. Hearts of animals with atherosclerosis were more susceptible to ischaemia/reperfusion injury than hearts of animals with healthy vessels, evident as more impaired left ventricular performance. SNAP protected function and reduced infarct size in atherosclerotic hearts, but the same concentration of SNAP was detrimental in normal hearts, perhaps due to NO-overproduction and peroxynitrite formation demonstrated immunohistochemically as increased formation of nitrosylated tyrosine. A low concentration of SNAP protected against ischaemia/reperfusion dysfunction in normal hearts. L-NAME decreased left ventricular performance in atherosclerotic hearts. These findings suggest that impaired endothelium dependent function contributes to reperfusion injury in coronary atherosclerosis.  相似文献   

9.
The effect of ischemic preconditioning and superoxide dismutase (SOD) on endothelial glycocalyx and endothelium-dependent vasodilation in the postischemic isolated guinea-pig hearts was examined. Seven groups of hearts were used: group 1 underwent sham aerobic perfusion; group 2 was subjected to 40 min global ischemia without reperfusion; group 3, 40 min ischemia followed by 40 min reperfusion; group 4 was preconditioned with three cycles of 5 min global ischemia followed by 5 min of reperfusion (IPC), prior to 40 min ischemia; group 5 was subjected to IPC prior to standard ischemia/reperfusion; group 6 underwent standard ischemia/reperfusion and SOD infusion (150 U/ml) was begun 5 min before 40 min ischemia and continued during the initial 5 min of the reperfusion period; group 7 was subjected to 80 min aerobic perfusion with NO-synthase inhibitor, L-NAME, to produce a model of endothelial dysfunction independent from the ischemia/reperfusion. Coronary flow responses to acetylcholine (ACh) and sodium nitroprusside (SNP) were used as measures of endothelium-dependent and endothelium-independent vascular function, respectively. Reduction in coronary flow caused by NO-synthase inhibitor, L-NAME, served as a measure of a basal endothelium-dependent vasodilator tone. After completion of each experimental protocol, the hearts were stained with ruthenium red or lanthanum chloride for electron microscopy evaluation of the endothelial glycocalyx. While ischemia led only to a slightly flocculent appearance of the glycocalyx, in ischemia/reperfused hearts the glycocalyx was disrupted, suggesting that it is the reperfusion injury which leads to the glycocalyx injury. Moreover, the coronary flow responses to ACh and L-NAME were impaired, while the responses to SNP were unchanged in the ischemia/reperfused hearts. The disruption of the glycocalyx and the deterioration of ACh and L-NAME responses was prevented by IPC. In addition, the alterations in the glycocalyx and the impairment of ACh responses were prevented by SOD. The glycocalyx appeared to be not changed in the hearts subjected to 80 min aerobic perfusion with L-NAME. In conclusion: (1) the impairment of the endothelium-dependent coronary vasodilation is paralleled by the endothelial glycocalyx disruption in the postischemic guinea-pig hearts; (2) both these changes are prevented by SOD, suggesting the role of free radicals in the mechanism of their development; (3) both changes are prevented by IPC. We hypothesize, therefore, that alterations in the glycocalyx contribute to the mechanism of the endothelial dysfunction in the postischemic hearts.  相似文献   

10.
To investigate the mechanism underlying postischemic contractile dysfunction (myocardial stunning) we examined myocardial sulfhydryl group content, myofibrillar Ca2+-dependent Mg2+-ATPase activity and protein profile after global ischemia and reperfusion. The Langerdorff-perfused rabbit hearts were subjected to 15 min normothermic ischemia followed by 10 min reperfusion and myofibrils were isolated from homogenates of left ventricular tissues. Depressed contractile function during reperfusion was accompanied by a decrease in total sulfhydryl group content. However, myofibrillar protein profile was unchanged and Western immunoblotting analysis showed no significant differences in troponin I immunoreactive bands between control and stunned hearts. Likewise, myofibrillar Mg2+-ATPase activity was unaltered after ischemia and reperfusion. We conclude that myocardial stunning is not caused by altered myofibrillar function and protein degradation but may be partly due to the oxidative modification of as yet undefined proteins.  相似文献   

11.
Our study is designed to correlate nitrite concentration, an index of nitric oxide (NO) release with mast cell peroxidase (MPO), a marker of cardiac mast cell degranulation and cardioprotective effect of ischaemic preconditioning in isolated perfused rat heart subjected to 30 min of global ischaemia and 30 min of reperfusion. Ischaemic preconditioning, comprised of four episodes of 5 min global ischaemia and 5 min of reperfusion, markedly reduced the release of lactate dehydrogenase (LDH) and creatine kinase (CK) in coronary effluent and incidence of ventricular premature beats (VPBs) and ventricular tachycardia and fibrillation (VT/VF) during reperfusion phase. Ischaemia-reperfusion induced release of MPO was markedly reduced in ischaemic preconditioned hearts. Increased release of nitrite was noted during reperfusion phase after sustained ischaemia in preconditioned hearts as compared to control hearts. No alterations in the release of nitrite was observed immediately after ischaemic preconditioning. However, ischaemic preconditioning markedly increased the release of MPO prior to global ischaemia. It is proposed that cardioprotective and antiarrhythmic effect of ischaemic preconditioning may be ascribed to degranulation of cardiac mast cells. Depletion of cytotoxic mediators during ischaemic preconditioning and consequent decreased release of these mediators during sustained ischaemia-reperfusion may be associated with preservation of structures in isolated rat heart responsible for NO release.  相似文献   

12.
OBJECTIVES: Numerous mechanisms have been proposed to participate in adaptation of heart to ischaemia by ischaemic preconditioning. We have described previously a release of cardio-protective protein fraction during ischaemic preconditioning of dog heart. In the current study the effect of high soluble protein fraction (HS fraction) released from isolated perfused rat liver after ischaemia and reperfusion was examined on isolated perfused rat heart during ischaemia-reperfusion injury. METHODS: Livers were subjected to 30 or 60 min ischaemia followed with 120 min reperfusion. HS fraction was isolated using ammonium sulphate precipitation and dissolved in perfusion solution before Langendorf perfusion of isolated rat hearts. The protein pattern of HS fraction was detected with SDS-PAGE and western blot with ConA and anti ConA antibody. Hearts were then subjected to 20 min ischaemia followed by 20 min reperfusion. During reperfusion, the haemodynamic parameters of hearts were measured. Heart levels of adenine nucleotide were measured in HClO4 extracts using HPLC on C18 column. RESULTS: Liver ischaemia induced changes in protein pattern of HS fraction released from the liver during reperfusion period. Particularly, we registered an increase in amount of several low-molecular weight proteins and decreased amount of high-molecular weight proteins. Proteins in this fraction isolated from perfusate after liver ischaemia interact with ConA with lower intensity as proteins isolated from perfusate after control non-ischaemic condition. HS fraction isolated from perfusate after ischaemia and reperfusion of liver had beneficial effect on heart function during 20 min ischaemia and subsequent 20 min reperfusion, documented by: i) decrease of arrhythmia score from 2 to 1 in 5 min of reperfusion and from 2 to 0 in 10 min of reperfusion; ii) improved heart contractility monitored as stabilised [dP/dt]max and increased Q parameter; iii) increased coronary flow. Proteins isolated from liver perfused under control non-ischaemic condition did not induce similar effects. The stabilisation of heart haemodynamics, observed after administration of HS proteins isolated from perfusate after ischaemia and reperfusion was associated with slight increase in ATP and ADP levels as well as decrease in AMP level.  相似文献   

13.
A brief period of ischemia followed by timely reperfusion may lead to prolonged, yet reversible, contractile dysfunction (myocardial stunning). Damage to the myocardium occurs not only during ischemia, but also during reperfusion, where a massive release of oxygen-free radicals (OFR) occurs. We have previously utilized 2-DE and MS to define 57 protein spot changes during brief ischemia/reperfusion (15 min ischemia, 60 min reperfusion; 15I/60R) injury in a rabbit model (White, M. Y., Cordwell, S. J., McCarron, H. C. K., Prasan, A. M. et al., Proteomics 2005, 5, 1395-1410) and shown that the majority of these occur because of physical and/or chemical PTMs. In this study, we subjected rabbit myocardium to 15I/60R in the presence of the OFR scavenger N-(2-mercaptopropionyl) glycine (MPG). Thirty-seven of 57 protein spots altered during 15I/60R remained at control levels in the presence of MPG (15I/60R + MPG). Changes to contractile proteins, including myosin light chain 2 (MLC-2) and troponin C (TnC), were prevented by the addition of MPG. To further investigate the individual effects of ischemia and reperfusion, we generated 2-DE gels from rabbit myocardium subjected to brief ischemia alone (15I/0R), and observed alterations of 33 protein spots, including 18/20 seen in both 15I/60R-treated and 15I/60R + MPG-treated tissue. The tissue was also subjected to ischemia in the presence of MPG (15I/0R + MPG), and 21 spot changes, representing 14 protein variants, remained altered despite the presence of the OFR scavenger. These ischemia-specific proteins comprised those involved in energy metabolism (lactate dehydrogenase and ATP synthase alpha), redox regulation (NADH ubiquinone oxidoreductase 51 kDa and GST Mu), and stress response (Hsp27 and 70, and deamidated alpha B-crystallin). We conclude that contractile dysfunction associated with myocardial stunning is predominantly caused by OFR damage at the onset of reperfusion, but that OFR-independent damage also occurs during ischemia. These ischemia-specific protein modifications may be indicative of early myocardial injury.  相似文献   

14.
We investigated mechanical function and exogenous fatty acid oxidation in neonatal pig hearts subjected to ischemia, followed by reperfusion. Isolated, isovolumically-beating hearts, from pigs 12 h to 2 days of age, were perfused with an erythrocyte-enriched (hematocrit approximately 15%) solution (37 degrees C). All hearts were studied for 30 min. with a perfusion pressure of 60 mmHg (pre-ischemia). One group of hearts (low-flow ischemia, N = 12) was then perfused for 30 min. with a perfusion pressure of approximately 12 mmHg. In the other group (no-flow ischemic arrest, N = 9), the perfusion pressure was zero for 30 min. Following ischemia in both groups, the perfusion pressure was restored to 60 mmHg for 40 min. (reperfusion). Pre-ischemia parameters for all hearts averaged: left ventricular peak systolic pressure, 99.0 +/- 2.0 mmHg; end diastolic pressure, 1.9 +/- 0.2 mmHg; coronary flow, 3.4 +/- 0.1 ml/min per g; myocardial oxygen consumption, 56.6 +/- 1.6 microliter/min per g and fatty acid oxidation, 33.4 +/- 1.4 nmol/min per g. During low-flow ischemia, hearts released lactate, and the corresponding parameters decreased to: 30.7 +/- 0.9 mmHg; 1.2 +/- 0.3 mmHg; 0.8 +/- 0.1 ml/min per g; 26.6 +/- 2.3 microliters/min per g and 12.9 +/- 1.1 nmol/min per g, respectively. Early in reperfusion in both groups, all parameters, except for fatty acid oxidation, exceeded pre-ischemia values, before recovering to near pre-ischemia values. Late in reperfusion, however, rates of fatty acid oxidation exceeded pre-ischemia rates by approximately 60%. Thus, the neonatal pig heart demonstrated similar recovery following 30 min of low-flow ischemia or no-flow ischemic arrest.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

15.
Basic fibroblast growth factor (FGF-2) may protect the heart from ischemia-reperfusion injury (stunning) by stimulating nitric oxide (NO) production. To test this hypothesis, we pretreated coronary-perfused mouse hearts with 1 microg/ml FGF-2 or vehicle control before the onset of ischemia. Intracellular calcium (Ca(i)(2+)) was estimated by aequorin, and NO release was measured with an NO-selective electrode. Hearts perfused with FGF-2 maintained significantly better left ventricular (LV) function during ischemia than hearts perfused with vehicle. FGF-2 significantly delayed the onset of ischemic contracture and improved LV recovery during reperfusion. Ca(i)(2+) was similar in both groups at baseline during ischemia and reperfusion. L-N(6)-(1-iminoethyl)lysine, a selective inhibitor of inducible NO synthase (NOS2), obliterated the protective effects of FGF-2. In transgenic hearts deficient in the expression of NOS2 (NOS2-/-), FGF-2 did not attenuate ischemia-induced LV dysfunction. Measurements of NO release demonstrated that FGF-2 perfusion significantly increased NO in wild-type but not in NOS2-/- hearts. We conclude that basic FGF attenuates myocardial stunning independent of alterations in Ca(i)(2+) by stimulating NO production via an NOS2-dependent pathway.  相似文献   

16.
Apelin, the endogenous ligand of the G protein-coupled APJ receptor, is a peptide mediator with emerging regulatory actions in the heart. The aim of the present studies was to explore potential roles of the apelin/APJ system in myocardial ischaemia/reperfusion injury. To determine the cardiac expression of apelin/APJ and potential regulation by acute ischaemic insult, Langendorff perfused rat hearts were subjected to regional ischaemia (left coronary artery occlusion, 35 min) or ischaemia followed by reperfusion (30 min). Apelin and APJ mRNA expression were then determined in ventricular myocardium by rt-PCR. Unlike APJ mRNA expression, which remained unchanged, apelin mRNA was upregulated 2.4 fold in ventricular myocardium from isolated rat hearts undergoing ischaemia alone, but returned back to control levels after 30 min reperfusion. We then proceeded to test the hypothesis that treatment with exogenous apelin is protective against ischaemia/reperfusion injury. Perfused hearts were subjected to 35 min left main coronary artery occlusion and 120 min reperfusion, after which infarct size was determined by tetrazolium staining. Exogenous Pyr(1)-apelin-13 (10(-8 )M) was perfused either from 5 min prior to 15 min after coronary occlusion, or from 5 min prior to 15 min after reperfusion. Whilst ineffective when used during ischaemia alone, apelin administered during reperfusion significantly reduced infarct size (47.6+/-2.6% of ischaemic risk zone compared to 62.6+/-2.8% in control, n=10 each, p<0.05) in hearts subject to temporary coronary occlusion followed by reperfusion. This protective effect was not abolished by co-administration of the PI3K inhibitor wortmannin (10(-7 )M, infarct size 49.8+/-4.1%, n=4) or the P70S6 kinase inhibitor rapamycin (10(-9 )M, 41.8+/-8.8%, n=4). In conclusion these results suggest that apelin may be a new and potentially important cardioprotective autacoid, upregulated rapidly after myocardial ischaemia and acting through an unknown pathway.  相似文献   

17.
Free radicals produced during myocardial post-ischemic reperfusion are aggravating factors for functional disturbances and cellular injury. The aim of our work was to investigate the significance of the secondary free radical release during non ischemic perfusion and post-ischemic reperfusion and to evaluate the cardiovascular effects of the spin trap used. For that purpose, isolated perfused rat hearts underwent 0, 20, 30 or 60 min of a total ischemia, followed by 30 min of reperfusion. The spin trap: α-phenyl N-tert-butylnitrone (PBN) was used (3 mM). Functional parameters were recorded and samples of coronary effluents were collected and analyzed using Electron Paramagnetic Resonance (EPR) to identify and quantify the amount of spin adducts produced. During non ischemic perfusion, almost undetectable levels of free radical release were observed. Conversely, a large and long-lasting (30 min) release of spin adducts was detected from the onset of reperfusion. The free radical species were identified as alkyl and alkoxyl radicals with amounts reaching 40 times the pre-ischemic values. On the other hand, PBN showed a cardioprotective effect, allowing a significant reduction of rhythm disturbances and a better post-ischemic recovery for the hearts which were submitted to 20 min of ischemia. When the duration of ischemia increased, the protective effects of PBN disappeared and toxic effects became more important. Our results have therefore confirmed the antioxidant and protective properties of a spin trap agent such as PBN. Moreover, we demonstrated that the persistent post-ischemic dysfunction was associated with a sustained production and release of free radical species.  相似文献   

18.
Free radicals produced during myocardial post-ischemic reperfusion are aggravating factors for functional disturbances and cellular injury. The aim of our work was to investigate the significance of the secondary free radical release during non ischemic perfusion and post-ischemic reperfusion and to evaluate the cardiovascular effects of the spin trap used. For that purpose, isolated perfused rat hearts underwent 0, 20, 30 or 60 min of a total ischemia, followed by 30 min of reperfusion. The spin trap: alpha-phenyl N-tert-butylnitrone (PBN) was used (3 mM). Functional parameters were recorded and samples of coronary effluents were collected and analyzed using Electron Paramagnetic Resonance (EPR) to identify and quantify the amount of spin adducts produced. During non ischemic perfusion, almost undetectable levels of free radical release were observed. Conversely, a large and long-lasting (30 min) release of spin adducts was detected from the onset of reperfusion. The free radical species were identified as alkyl and alkoxyl radicals with amounts reaching 40 times the pre-ischemic values. On the other hand, PBN showed a cardioprotective effect, allowing a significant reduction of rhythm disturbances and a better post-ischemic recovery for the hearts which were submitted to 20 min of ischemia. When the duration of ischemia increased, the protective effects of PBN disappeared and toxic effects became more important. Our results have therefore confirmed the antioxidant and protective properties of a spin trap agent such as PBN. Moreover, we demonstrated that the persistent post-ischemic dysfunction was associated with a sustained production and release of free radical species.  相似文献   

19.
Previous studies demonstrated that preconditioning of a heart by repeated stunning can reduce the cellular injury to the heart from subsequent acute ischemic insult. To examine the possible biochemical mechanism for such myocardial preservation afforded by preconditioning, swine heart was subjected to four episodes of 5 min. stunning by occluding the left anterior descending coronary artery (LAD), followed by 10 min. of reperfusion after each stunning. Heart was then made regionally ischemic for 60 min. by LAD occlusion, followed by 6 hrs. reperfusion. Control heart was perfused for 60 min., followed by 60 min. ischemia and 6 hrs. reperfusion. The results of our studies indicated the stimulation of a number of antioxidative enzymes, including Mn-superoxide dismutase (Mn-SOD), catalase, glutathione peroxidase, and glutathione reductase, after repeated stunning and reperfusion. In addition, a number of new proteins were expressed after preconditioning the heart, including some oxidative-stress related proteins and 72 kDa heat-shock protein. These results suggest that preconditioning of a heart by repeated stunning may lead to strengthening of the oxidative defense system of the heart, which is likely to play a role in myocardial preservation during subsequent ischemic and reperfusion injury.  相似文献   

20.
Degradation of myosin light chain 1 (MLC1) by matrix metalloproteinase 2 (MMP-2) during myocardial ischemia/reperfusion (I/R) has been demonstrated. However, the exact mechanisms controlling this process remain unknown. I/R increases the phosphorylation of MLC1, but the consequences of this modification are not known. We hypothesized that phosphorylation of MLC1 plays an important role in its degradation by MMP-2. To examine this, isolated perfused rat hearts were subjected to 20 min global ischemia followed by 30 min of aerobic reperfusion. I/R increased phosphorylation of MLC1 (as measured by mass spectrometry). When hearts were subjected to I/R in the presence of ML-7 (a myosin light-chain kinase inhibitor) or doxycycline (an MMP inhibitor), improved recovery of contractile function was observed compared to aerobic controls, and MLC1 was protected from degradation. Enzyme kinetic studies revealed an increased affinity of MMP-2 for the phosphorylated form of MLC1 compared to non-phosphorylated MLC1. We conclude that MLC1 phosphorylation is an important mechanism controlling the intracellular action of MMP-2 and promoting degradation of MLC1. These results further support previous findings implicating post-translational modifications of contractile proteins as a key factor in the pathology of cardiac dysfunction during and following ischemia.  相似文献   

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