Effects of diazoxide preconditioning on mitochondrial respiratory function and enzyme activity in rats

AIM: To investigate the effects of the selective mitochondrial ATP-sensitive K+ channels opener diazoxide on mitochondrial respiratory function and enzyme activity in isolated rat myocardium under ischemia/reperfusion.METHODS: Observation was made on rat hearts perfused with Langendorff apparatus.72 Sprague-Dawley (SD) rats were randomly divided into 4 groups: normal group (NOR),ischemia reperfusion (IR),diazoxide group (DIA) and 5-hydroxydecanoate (5-HD) antagonized diazoxide group (5HD-DIA).Hearts isolated from SD rats were mounted on a Langendorff apparatus and started with a 20 min perfusion for equilibration.NOR went on perfusion for another 100 min after equilibration.IR underwent 40 min global ischemia and followed by 30 min reperfusion after 30 min stabilization.DIA was administered with K-H solution containing diazoxide at concentration of 50 μmol/L for 10 min before ischemia and reperfusion.5HD-DIA was infused with 100 μmol/L 5-HD (a specific mitochondrial ATP sensitive K+ channel blocker) and the same procedure was carried out as DIA group.Hearts were taken down to extract mitochondrial at the end-equation,before ischemia and at the end-reperfusion for determination of mitochondrial respiratory function and the enzyme activity of mitochondria.RESULTS: At the end of reperfusion,mitochondrial respiratory function (mitochondrial respiratory control rate,P/O ratio and state 3 respiration) and mitochondrial enzyme activity (NADH oxidase,succinate oxidase and cytochrome C oxidase) in DIA group were better than those in IR group and 5HD-DIA group (P<0.05),but worse than those NOR group (P<0.01).No significant difference in all parameters was observed between IR and 5HD-DIA (P>0.05).CONCLUSION: Preconditioning with mitochondrial ATP sensitive potassium channel opener,diazoxide,protects rat heart mitochondria against ischemia-reperfusion injury.The mechanisms are involved in the safeguarding of respiratory function and activity of enzymes of respiratory chain.     

Effect of diazoxide postconditioning on cardiac function and mitochondrial cardiolipin in isolated rat heart

AIM: To investigate the effect of diazoxide (D) postconditioning on Cardiac function and mitochondrial cardiolipin in isolated rat heart and to explore the protective effect of ATP sensitive potassium channel on diazo-xide postconditioning myocardium. METHODS: The myocardial ischemia/reperfusion injury model in isolated rat hearts was established by Langendorff apparatus. The isolated rat hearts were randomized into 4 groups (n=8): control group (control), myocardial ischemia/reperfusion injury group (I/R), diazoxide postconditioning group (I/R+D), 5- hydroxy decanoic acid (5-HD) plus diazoxide postconditioning group (I/R+5-HD+D). The hearts in each group were started with 20 min perfusion for equilibration. The hearts in control group perfused for 70 min; The hearts in I/R group was global ischemia for 40 min after ischemia reperfusion at 4 ℃ ST. Thomas cardioplegia, then reperfusion for 30 min; The hearts in I/R+D group were treated with diazoxide (50 μmol/L) in K-H perfusion for 5 min after global ischemia for 40 min, then reperfusion for 25 min; The hearts in I/R+5-HD+D group were treated with 5-HD (100 μmol/L) in K-H perfusion for 5 min before diazoxide postconditioning, then reperfusion for 20 min. The heart rate, coronary outflow volume, heart function, myocardial enzymes and myocardial mitochondrial cardiolipin at the end of perfusion in each group were determined. RESULTS: Compared with control group and I/R+D group, the heart rate, the concentration of heart phospholipid and the coronary outflow volume were reduced, the heart function was significantly impaired the contents of myocardial enzymes were increased in I/R group. However, no significant difference between I/R group and I/R+5-HD+D group was observed. CONCLUSION: The diazoxide postconditioning protects the myocardium by increasing mitochondrial cardiolipin content, reducing the release of myocardial enzymes, improving heart function and reducing myocardial reperfusion injury. The myocardial protective effect of diazoxide is completely blocked by 5- hydroxy decanoic acid.     

Effect of ischemic post-conditioning on myocardial mitochondrial function in isolated rat heart

AIM: To investigate the protective effect of ischemic post-conditioning on isolated rat myocardial mitochondrial function during ischemia/reperfusion, and to study the role of mitochondrial ATP-sensitive potassium channel (mitoK_ATP) in myocardial protection. METHODS: Sprague-Dawley male rats were randomized into 4 groups (n=8 in each group): control group (C), model group (M), ischemic post-conditioning group (IPO) and 5-hydroxydecanoate plus IPO group (5-HD+IPO). The hearts isolated from the SD rats were mounted on a Langendorff apparatus and started with a 20-minute perfusion for equilibration. In C group, the hearts went on perfusion for another 70 min after equilibration. In M group, 4 ℃ St. Thomas cardioplegic solution was administered prior to ischemia, followed by ischemia for 40-minute, and reperfusion for another 30 min. In IPO group, the hearts underwent 40-minute global ischemia after equilibration, then perfusion for 10 s and ischemia for another 10 s. The procedure was repeated 6 times before 28-minute reperfusion. In 5-HD+IPO group, the hearts were perfused with 5-HD (100 μmol/L in K-H solution) and treated as that in IPO group, then reperfusion for 23 min. The reactive oxygen species (ROS), mitochondrial membrane potential (MMP) and respiratory function of myocardial mitochondria were measured at the ends of equilibration and reperfusion. RESULTS: (1) Compared with the data collected at the end of equilibrium, the MMP was obviously decreased at the end of reperfusion in all groups, The highest in C group. MMP in 5-HD+IPO group was markedly higher than that in IPO group and M group. MMP in IPO group was higher than that in M group. (2) In contrast to that at the end of equilibrium, ROS was obviously increased at the end of reperfusion in all groups. However, ROS was observably higher in M group than that in the other 3 groups, and ROS in 5-HD+IPO group was markedly higher than that in IPO group and C group. ROS in IPO group was higher than that in C group. (3) The respiratory function of mitochondria was obviously injured at the end of reperfusion in all groups. The arrangement of the mitochondrial respiratory function from the best to the worse was C group > IPO group > 5-HD+IPO group > M group. CONCLUSION: Ischemic post-conditioning attenuates myocardial reperfusion injury by maintaining the stability of MMP, decreasing the generation of ROS and preserving the respiratory chain function of mitochondria. The mitoK_ATP antagonist 5-HD can not completely block the myocardial protective effect of ischemic post-conditioning. Myocardial protective effect of ischemic post-conditioning may achieve by activating mitoK_ATP, meanwhile the other factors may also take part in the myocardial protective processes.     

Effects of simulated ischemia/reperfusion on spontaneous action potentials in primary cultured sinoatrial node cells and the influence of pinacidil

AIM: To study the effects of ischemia/reperfusion (I/R) on primary cultured sinoatrial node (SAN) cells and the influence of pinacidil (a K_ATP channel activator). METHODS: The SAN cells were isolated from newborn rats and purified. The 48 h cultured cells were cultivated in following mediums: simulated reperfusion solution as normal control, simulated ischemia/reperfusion solution (I/R), Pinacidil+I/R (P+I/R), 5-HD+P+I/R and 5-HD+I/R. Spontaneous action potentials were recorded by ruptured-patch whole-cell technique in current clamp (I=0) and the maximum diastolic potential (MDP), upstroke velocity (UV), action potential overshoot (APO), interbeat interval (IBI) and action potential durations at 50% repolarization (APD₅₀) were measured. RESULTS: Compared with control group, simulated ischemia/reperfusion shorten APD₅₀, reduced UV, MDP and APO. Exposed to pinacidil, MDP of cells in I/R groups was hyperpolarized; IBI, UV and APO were increased; APD₅₀ was shorten. 5-HD couldn't block the effects of pinacdil on APD₅₀, IBI and MDP, but reversed its actions on increasing UV and APO. CONCLUSIONS: Pinacidil made changes of AP in I/R group by opening different K_ATP channels of SAN cells. The role of this changes on protection in SAN cells during ischemia/reperfusion requires further investigation.     

Effect of preconditioning with pioglitazone on ischemia reperfusion/hypoxia reoxygenation-induced mitochondrial structure and membrane potential in rats

AIM: To observe the effect of preconditioning with pioglitazone on ischemia reperfusion/hypoxia reoxygenation-induced mitochondrial ultramicro-structure and membrane potential in rats. METHODS: Sprague-Dawley rats were randomly divided into four groups: sham-operated (SO) group, ischemia reperfusion (IR) group, pioglitazone preconditioning group (Pio-P) and 5-HD+pioglitazone (5-HD+Pio) group. Apart from the SO group, IR, Pio-P and 5-HD+Pio groups were subjected to 30 min ischemia and 4 h reperfusion. The heart was quickly removed for observing the structure of mitochondria and measurement of the apoptosis index (AI) by TUNEL. Primary cultured cardiomyocytes of Sprague-Dawley rats were divided into control, hypoxic reoxygenation (HR) and different concentrations of Pio-P group. JC-1 staining flowcytometry was adopted to examine mitochondrial membrane potential (ΔΨm). RESULTS: The injury of mitochondrial structure in IR group was severer than that in Pio-P group, while the difference between 5-HD+Pio group and IR group was not evident. Flameng score in Pio-P group(1.62±0.60) was significantly lower than that in IR group (2.75±1.09), P<0.01. AI in Pio-P group (28.19%±4.93%) was lower than that in IR group (55.44%±6.63%),P<0.05. The rates of low ΔΨm cells in (5 μmol/L,10 μmol/L and 15 μmol/L) Pio-P group were (45.89±3.63)%, (17.13±1.37)% and (18.43±2.44)%, significantly lower than that in HR group (56.52%±2.87%),P<0.05, while the difference between 10 μmol/L group and 15 μmol/L group was not significant (P>0.05). CONCLUSION: Pioglitazone protects the heart from ischemia reperfusion/ hypoxia reoxygenation injury evidenced by improving mitochondrial ultrastructure and lessening the loss of mitochondrial membrane potential, and decreasing apoptosis. The cardioprotective effects can be inhibited by the blocker of mitochondrial ATP-sensitive potassium channels.     

全国设施蔬菜生产可持续发展学术研讨会在沈阳召开

会议由中国园艺学会主办 ,中国农业工程学会设施园艺工程专业委员会协办 ,沈阳农业大学园艺系承办 ,于 2 0 0 0年 4月 19日至 2 2日在沈阳农业大学召开。来自我国 13个省、自治区、直辖市的与会代表共 78人 ,会议论文 4 3篇 ,由沈阳农业大学学报专刊发表。经承办单位和与会者努力 ,会议圆满成功。开幕式由中国园艺学会副理事长李树德研究员主持 ,辽宁省科技厅、农业厅、沈阳市副食品局、沈阳农业大学的领导到会祝贺并发表讲话。会议就确定的主题进行了大会发言 ,小组讨论及现场考察。代表们欣喜地看到 ,近 2 0年来我国蔬菜设施生产迅猛发展 …     

Effect of L-arginine on function and structure of mitochondria in ischemia-reperfusion myocardial cells in rabbits

AIM: To study the effect of L-arginine (L-Arg) on function and structure of mitochondria in ischemia-reperfusion (MRI) myocardial cells. METHODS: Thirty rabbits were randomly divided into three groups (n=10 in each), control group, MIR group and MIR+L-Arg group. The mitochondrial respiratory function, Ca²⁺ concentration ([Ca²⁺]m), malondialdehyde (MDA) content and superoxide dismutase (SOD) activity were determined. Meanwhile, the contents of adenosine triphosphate (ATP), adenosine diphosphate (ADP), adenosine monophosphate (AMP), total adenylic acid number (TAN) and energy charge (EC) in the myocardial tissue were respectively measured. Moreover, the ultrastructure changes in myocardial mitochondria were observed during MIR. RESULTS: The mitochondrial respiratory control rate (RCR), velocity 3 (V₃), SOD, surface density (Sv) and specific surface (δ) in MIR+L-Arg group were higher than those in MIR group, velocity 4 (V₄), [Ca²⁺]m, MDA, volume density (Vv), horizental diameter (Hd) were lower than those in MIR group. ATP, ADP, TAN and EC levels of myocardial tissue were higher than those in MIR group. There was no significant difference between MIR+L-Arg and control group in V₃, V₄, SOD, MDA, Vv, Sv, δ, Nv, Vd, AMP and TNA. CONCLUSION: It is suggested that L-Arg improves the function and structure of mitochondria in myocardial cells in the reperfusion injury after myocardial ischemia by decreasing oxygen free radical level and Ca²⁺ overload in the mitochondria.     

Effects of non-wounded ischemic preconditioning on ischemia-reperfusion injury in isolated rat hearts

AIM:To observe the protective effect of non-wounded ischemic preconditioning on ischemic/reperfusion injury in isolated rat hearts. METHODS: 25 male SD rats, weighting (250±30) g, were randomly divided into three groups: control group (C,n=8), anoxia/reoxygenation group (A,n=8) and non-wounded legs ischemic preconditioning group (N-WIP,n=9).Hearts were isolated from rats and perfused on a Langendorff apparatus with a normal Krebs-Henseleit buffer (saturation 95% O₂+5% CO₂) at a constant pressure (8.33 kPa) and temperature (37 ℃) in C group; Following 15 min equilibration, hearts were subjected to 15 min of global ischemia and 15 min reperfusion (37℃) in A group; Rats were subjected to non-wounded leg repeated-brief ischemic preconditioning, and then treated in procedure similar to A group in N-WIP group.The activities of superoxide dismutase (SOD) and Ca²⁺-Mg²⁺-ATPase, malondialdehyde (MDA) content of efflux from coronary vessel and myocardium, myocardium monophasic action potential and contractile force were measured before ischemia, 15 minutes after ischemia and 5, 15 minutes after reperfusion. RESULTS:Compared with A group, non-wounded legs ischemic preconditioning reduced the incidence of reperfusion arrhythmias (P＜0.05), decreased the content of MDA of myocardium (P＜0.01), enhanced the activities of SOD (P＜0.01) and stabilized myocardial membranous potential,the activity of Ca²⁺-Mg²⁺-ATPase and contractile function. CONCLUSION:These results indicate that non-wounded leg ischemic preconditioning has a protective effect on ischemia-reperfusion injury in isolated rat hearts. The mechanism may be related to the strength of antioxidation, the stability of Ca²⁺-Mg²⁺-ATPase activity and membranous structure in myocardium.     

Effects of human urotensin II on ischemia/reperfusion injury in isolated perfused rat hearts

AIM: To investigate the effects of human urotensin II (hUII) on ischemia/reperfusion (I/R) injury in isolated rat hearts. METHODS: In the ischemia/reperfusion (I/R) model of isolated perfused rat hearts, the effects of hUII pretreatment on cardiac function was monitored with cardiac function software of MFL Lab200. ATP, total calcium, and malondialdehyde (MDA) content in myocardium were detected. The coronary perfusion flow (CPF) and lactate dehydrogenase (LDH) activity in coronary effluent were measured during reperfusion. RESULTS: In the hUII pretreated group, the release of LDH from myocardium was lower [(78.3±18.1)U/L] than I/R group [(109.3±23.9) U/L, P< 0.05], with decreased contents of MDA and calcium in myocardium (decreased by 24% and 27%, respectively, P< 0.05) and an increased myocardial ATP content [(3.8±0.4)μmol/g dw vs (2.2±0.4)μmol/g dw, P< 0.05)]. At the same time, hUII pretreatment increased CPF [(5.4±0.7) mL/min vs (3.8±0.8) mL/min in I/R group, P< 0.05], reduced left ventricular end-diastolic pressure (LVEDP) by 20% ( P< 0.05) with increased±d p /d t max [(217±38) kPa/s and (119±18) kPa/s vs (173±29) kPa/s and (82±25) kPa/s in I/R groups, respectively, P< 0.05]. hUII pretreatment also increased natrite/natrate (NO₂^-/NO₃^-) content in coronary effluent [(52.2±12.0)μmol/L vs (32.1±10.2)μmol/L in I/R group, P< 0.05)]. CONCLUSION: hUII pretreatment attenuated I/R injury in isolated perfused rat hearts. The protective mechanism might be associated with NO-mediated coronary vasodilation.     

Endogenous basic fibroblst growth factor is a protective factor against myocardial ischemia/reperfusion injury of rats

AIM: To observe the role of exogenous and endogenous basic fibroblst growth factor (bFGF) on myocardial ischemia/reperfusion(I/R) injury of rats.METHODS:bFGF and bFGF antiserum were applied to rat isolated I/R heart. Myocardial function, coronary effluent volume,protein and myoglobin content as well as LDH activity in coronary effluent fluid, myocardial calcium, MDA and ATP concentration as well as PKC, MAPK activity were measured. RESULTS:Compared with control, myocardial function in I/R group significantly decreased. Protein, myoglobin content and LDH activity in coronary effluent liquid as well as myocardial MDA and calcium content increased, while myocardial ATP concentration decreased(all P＜0.01). Compared with I/R group, ±LV dp/dt_max in bFGF group increased by 43% and 26%, respectively. LVEDP decreased by 40%. HRr/HRi and B/A augmented by 42% and 20%, respectively. Protein and myoglobin content as well as LDH activity lowered by 29%,30％ (all P＜0.01) and 33％ (P＜0.05) respectively. Myocardial MDA and calcium content decreased by 44% and 35%, respectively, while myocardial ATP level as well as PKC and MAPK activity increased by 34%,41％ and 10% (all P＜0.01), respectively. In bFGF antiserum group, ±LV dp/dt_max were 35% and 38% lower than those in I/R group. LVEDP increased by 93%. HRr/HRi and B/A decreased by 36% and 45%, respectively. Protein and myoglobin content as well as LDH activity augmented by 54%,96％ (all P＜0.01) and 34％ (P＜0.05) respectively. Myocardial MDA and calcium content increased by 24% and 50%, respectively, while myocardial ATP level as well as PKC and MAPK activity lowered by 28%,21％ and 8% (all P＜0.01), respectively. CONCLUSION:Endogenous bFGF is a protective factor against myocardial ischemia/reperfusion injury of rats.     

Role of mitochondrial KATP channels in cardioprotection of hyperpolarized cardioplegia

AIM:To study the protective effect of hyperpolarized cardioplegic arrest on reperfused rat heart performance and to investigate the role of mitochondrial ATP-sensitive K+ channels (mitoKATP) opening in the protection of hyperpolarized cardioplegia against ischemia/reperfusion damage. METHODS:Forty Sprague-Dawley rats were randomized into five groups (n=8 in each group): control group (Con); depolarized arrest group (D); hyperpolarized arrest group (H); depolarized cardioplegia with 5-hydroxydecanoate (5-HD) group (5HD+D); hyperpolarized cardioplegia with 5-HD group (5HD+H). The rat hearts were quickly removed to Langendorff apparatus. The heart perfusion was performed for 20 min with 37 ℃ Krebs-Henseleit buffer balanced with gas mixture (O2∶〖KG-*2〗CO2=95%∶〖KG-*2〗5%) at 5.8 kPa perfusion pressure, then cardial arrest was induced by different cardioplegic solution. Hearts were subjected to ischemia at 37 ℃ for 40 min followed by 30 min reperfusion. (1) The hemodynamics was detected at recovery after 30 min reperfusion. (2) Before ischemia and at the end-reperfusion, tissue was harvested for mitochondrial isolation and ultrastructure was observed by transmission electron microscopy (TEM). (3) Production of reactive oxygen species (ROS) was also determined at different time points. RESULTS:(1) Compared with end-equilibration, 30 min reperfusion caused significant differences in left ventricular developed pressure (LADP), left ventricular end-diastolic pressure (LVEDP), double product (DP), heart rate (HR), coronary flow (CF) (P<0.01). TEM showed that the ultrastructures of myocardial and mitochondrial were damaged remarkably. (2) When H group was compared with D, 5HD+H and Con group, significant differences were found in LVDP, LVEDP, DP, HR and CF (P<0.01). TEM showed that the myocardial and mitochondrial ultrastructures were improved remarkably. (3) The rate of ROS generating was lower in group H than that in other four groups at end-reperfusion (P<0.01). CONCLUSION:(1) Of the four cardioplegias, hyperpolarized cardioplegia is superior to improve myocardial performance, attenuates myocardial and mitochondrial injury, and reduces rate of ROS generating. (2) Mitochondrial preservation is one of mechanisms of myocardial protection in hyperpolarized cardioplegia, opening of mitoKATP enhances cardioprotection through decreasing ROS generating, providing better energe supply for reperfused myocardium.     

Effects of ischemic preconditioning on cardiac myocyte apoptosis and expression of bcl-2 during myocardial ischemia/reperfusion in rats

AIM:To explore the effect of ischemic preconditioning on cardiac myocyte apoptosis and the expression of bcl-2 during myocardial ischemia/reperfusion in rats. METHODS:We use TUNEL,immunohistochemical and in situ hybridization(ISH) methods to detect the cardiac myocyte apoptosis and the expression of bcl-2 during myocardial ischemia/reperfusion in rats. RESULTS:①The numbers of positive cardiac myocyte nuclear and the percentage of positive cardiac myocyte nuclear in IP+I/R_3h group decreased significantly(P<0.05,P<0.01)compared with I/R_3h group,respectively.②The numbers of bcl-2 protein positive cardiomyocyte and the percentage of bcl-2 protein positive cardiomyocyte in IP+I/R_3h group were higher(P<0.01)than that of I/R_3h group,respectively.The numbers of positive bcl-2 mRNA cardiomyocyte and the percentage of positive bcl-2 mRNA cardiomyocyte in IP+I/R_1h group were higher(P<0.01)than that of I/R_1h group,respectively.CONCLUSION:① The first window of IP's protection could reduce cardiomyocyte apoptosis significantly.② Up-regulating the protein expression of bcl-2 in cardiomyocytes during I/R may be one of the mechanisms of first window of IP's protection.     

Effects of several harmful factors on expression of glycine receptor α1 subunit in neonatal rat myocardial cells

AIM: To study the expression of glycine receptor α₁ subunit in neonatal rat myocardial cells and to investigate the effect of lipopolysaccharide (LPS), hypoxia/reoxygenation, isoproterenol (ISO) and high concentration of glucose (HG) on the expression of glycine receptor α₁ subunit in the neonatal rat myocardial cells. METHODS: Neonatal rat myocardial cells were cultured in vitro. The expression of glycine receptor α₁ subunit was detected by Western blotting. The neonatal rat myocardial cells were treated with LPS (20 mg/L), ISO (100μmol/L) or high concentration of glucose (25 mmol/L) for 24 h, or were exposed to hypoxia for 3 h followed by reoxygenation for 3 h. Subsequently, the cell viability was measured by CCK-8 assay, and the expression of glycine receptor α₁ subunit was determined by Western blotting. RESULTS: The expression of glycine receptor α₁ subunit in the neonatal rat myocardial cells was positively detectable by Western blotting. Compared with control group, no significant difference of the cell viability (P>0.05) in LPS group, ISO group, hypoxia/reoxygenation group and HG group was observed. The expression of glycine receptor α₁ subunit was increased (P<0.01) in LPS group, ISO group and hypoxia/reoxygenatio group, but decreased (P<0.01) in HG group. CONCLUSION: Glycine receptor α₁ subunit exists in the neonatal rat myocardial cells. A certain concentration of LPS or ISO, or hypoxia/reoxygenation for a certain period upregulate the expression of glycine receptor α₁ subunit, but HG downregulates the expression of glycine receptor α₁ subunit in cultured neonatal rat myocardial cells.     

Inhibitory effect of ginkgo-dipyridamole injection on ischemia/reperfusion injury in rat hearts in vitro

AIM：To investigate the effect of ginkgo-dipyridamole injection (GD) on ischemia/reperfusion (I/R) injury in rat hearts in vitro and its possible mechanism. METHODS：Forty male Sprague-Dawley rats were randomly divided into 5 groups (n=8): normal control (NC) group, I/R group, ischemic preconditioning (IPC)+I/R group, GD+I/R group and GD+LaCl3+I/R group. Cardiac function indexes, including heart rate (HR), left ventricular systolic pressure (LVSP) and the maximal rise/fall rate of left ventricular pressure (±dp/dtmax), were detected at 5 time points, including stabilizing point, 30 min after ischemia, and 5, 30 and 60 min after reperfusion. The activity of lactate dehydrogenase (LDH) and creatine kinase (CK) in coronary effluent at the five time points was assayed. The concentration of Ca2+ and the content of α-ketoglutarate dehydrogenase (α-OGDH) in myocardial mitochondria were determined at the end of the whole experiment. RESULTS：Compared with I/R group, the cardiac function indexes in IPC+I/R and GD+I/R groups were improved at the reperfusion period (P<0.05), the activity of LDH and CK in coronary effluent and the concentration of Ca2+ in mitochondria were significant reduced (P<0.01), and the content of α-OGDH was increased (P<0.05). However, the protective effect of GD was inhibited by LaCl3 (P<0.05). CONCLUSION：GD protects rat hearts against I/R injury by inhibiting calcium overload and improving mitochondrial enzyme activity to stabilize mitochondrial energy metabolism.     

Effects of remifentanil on monophasic action potential and transmural dispersion of repolarization in rabbit myocardium

AIM: To study the effect of remifentanil on monophasic action potential and transmural dispersion of repolarization (TDR) in the 3-layer myocardium of isolated rabbit hearts. METHODS: Adult rabbits (n=18, 2.0 ~ 2.5 kg) were used to isolate the hearts for preparing Langendorff perfusion model. The hearts were randomly divided into 3 groups after perfusion with K-H solution for 15 min: the perfusion in control group (C group) continued for 60 min; the hearts in remifentanil group (R group) were perfused with 12 μg/L remifentanil K-H solution for 60 min; the hearts in remifentanil+aminophylline group (RA group) were given 60-min perfusion of 12 μg/L K-H remifentanil+30 mg/L aminophylline. The HR and 3 layers of myocardial monophasic action potential (MAP) in the left ventricular anterior wall were recorded at time points after balanced infusion for 15 min (T₀), and continued perfusion for 15 min (T₁), 30 min (T₂) and 60 min (T₃). The monophasic action potential duration of repolarization at 90% (MAPD₉₀) and the transmural dispersion of repolarization (TDR) were calculated. The early afterdepolarization, delay afterdepolarization and arrhythmia were also observed. RESULTS: In R group, slower HR and prolonger MAPD₉₀ and TDR at T₁~T₃ were observed as compared with those at T₀ (P<0.05). R group showed slower HR and longer MAPD₉₀ and TDR than C group and RA group (P<0.05). CONCLUSION: Remifentanil slows the HR, extends the MAPD₉₀ and increases the TDR, thus being prone to induce reentry. Aminophylline makes HR faster and MAPD₉₀ shorter, thereby reducing the TDR.     

Expression of CD40-CD40L during rat myocardial ischemia-reperfusion injury

AIM:To investigate the expression of CD40 and CD40 ligand(CD40L) during myocardial ischemia/reperfusion injury in rats.METHODS:In the rat modal with myocardial ischemia/reperfusion(MI/R),the changes of CD40 and CD40L expression in blood and myocardial tissues were detected by flow cytometry and immunohistochemistry, respectively. There were seven animal groups in the study, including the normal group (n=3), the ischemia 30 min group(I_{30 min},n=6),the ischemia/reperfusion 1 min,5 min,10 min,20 min and 30 min groups(each group, n=6).RESULTS:The indexes of the expression of CD40 and CD40L in I_{30 min} group were higher than those in control group,(P＜0.05); the indexes of R_{5 min},R_{10 min} groups were higher than those in the I_{30 min} group (P＜0.05);the indexes were the highest in R_{5 min} and then decreased in R_{10 min},R_{20 min},R_{30 min} group. The immunohistochemical results revealed that. CD40-CD40L expression increased on the cardiocyte membraneduring the ischemia/reperfusion injury.CONCLUSION:CD40 and CD40L may participate in the development of myocardial ischemia/reperfusion injury.     

Protective effect of compound Danshen dripping pills on isolated rat myocardium with anoxin/reoxygenation

AIM: The experiment was designed to study the effect of compound Danshen dripping pills (DSDP) on myocardium with anoxin/reoxygenation. METHODS: The myocardial anoxin/reoxygenation model was made in perfused isolated rat heart. DSDP and isosorbide dinitrate (ID) were given at the time of pre-perfusion and reperfusion, then HPLC and H-600 electron microscope were used to detect the change of high energy phosphate and the ultrastructure of myocardial cell. RESULTS: ① The contents of AMP, ADP, ATP and AN in myocardium in only anoxin/reoxygenation group were obviously lower than those in the control group (P<0.01).② The contents of AMP, ADP, ATP and AN in myocardium in the groups with DSDP were higher than those in only anoxin/reoxygenation group (P<0.01), also higher than those in the groups with ID (P<0.01). In the two groups with DSDP, the contents of ATP and AN were close to normal (P>0.05). ③ In the groups with ID, the contents of AMP, ADP, ATP and AN were distinctively lower than those in the control group (P<0.01). CONCLUSION: These results indicated that DSDP administration could significantly increase the content of high energy phosphate in myocardium with anoxin/reoxygenation and decrease the ultrastructure injury of myocardial cells, and its protective effect was better than ID.     

Effects of EDRV and DIDS on reactive oxygen species levels in acute ischemia-reperfusion injured myocardium

AIM: To investigate the effects of chloride channel inhibitor 4,4- diisothiocyanostilbene-2,2- disulfonic acid (DIDS) and free radical scavenger edaravone(EDRV) on the production of reactive oxygen species in acute ischemia-reperfusion injured (I/RI) myocardium. METHODS: Male Sprague-Dawley rats, subjected to myocardial ischemia for 30 min and reperfusifor for 4 h, were divided into 5 groups: sham group, I/RI group, DIDS group, EDRV group and DIDS+EDRV group. The rats were treated with EDRV (10 mg/kg for 5 min) before reperfusion or/and DIDS (14 mg/kg,4 mL·kg^-1·h^-1 for 2 h) at the beginning of reperfusion by a program-controlled injection micropump . The myocardiac tissues were collected immediately at the end of reperfusion. The levels of ROS, OH· and O₂^- were determined by the methods of spectrofluorophotometry and colorimetry. Myocardial apoptosis was detected by TUNEL method. Serum superoxide dismutase (SOD) activity and malondialdehyde (MDA) concentration were measured by colorimetry. RESULTS: Compared with I/RI group, myocardial apoptotic index, the levels of ROS, O₂^-, OH· and MDA were significantly reduced, and SOD activity was significantly increased in DIDS group, EDRV group and DIDS+EDRV group (P<0.05). Compared with DIDS group, the levels of ROS,O₂^-, OH· and MDA were significantly decreased, and SOD activity was significantly increased in EDRV group (P<0.05).No statistical difference of myocardial apoptotic index between these two groups was observed (P>0.05). Compared with DIDS+ EDRV group, myocardial apoptotic index in DIDS group and EDRV group was significantly increased (P<0.05), and no significant difference of ROS, O₂^-, OH·, MDA and SOD between the two groups was found (P>0.05).CONCLUSION: DIDS and EDRV protect myocardial cells from apoptosis by inhibition of ROS activity. Combinative use of the two reagents has stronger cardioprotectiue effect, suggesting that they have different regulatory pathways.     

Effect of pressure phase plane derived τ and K on evaluation of left ventricular diastolic function in isolated rat heart during ischemia/reperfusion

AIM: To analyze and compare the changes of pressure phase plane (PPP) derived τ and K on isolated rat heart during ischemia/reperfusion, and to explore the value of PPP derived τ and K for evaluation of left ventricular diastolic dysfunction. METHODS: LVEDP, -(dp/dt)_max, τ and K were measured and calculated during ischemia/reperfusion in Sprague-Dawley rat hearts. Meanwhile, the level of lactate dehydrogenase (LDH) in the coronary effluent was measured, and the ultrastructure changes in myocardium were observed under electron microscope. RESULTS: Compared with control group, τ increased and K reduced significantly in each ischemic group in a time dependent manner (P<0.05). With prolonged ischemia, τ was even higher and K was even lower (P<0.05). Compared with control group, except ischemia 15 min, LDH in other groups increased significantly at 10 min and 20 min after reperfusion (P<0.05). Compared with ischemia 30 min, LDH of ischemia 45 min and ischemia 60 min were even higher at 10 min and 20 min after reperfusion (P<0.05). With prolonged ischemia, the abnormal changes of the myocardial ultrastructure were observed. CONCLUSION: PPP derived τ and K may be promising indexes for quantitative assessment of left ventricular diastolic function on isolated rat heart during ischemia/reperfusion, and indication of the severity of ischemia/reperfusion injury.