Effects of Mitochondrial ATP-sensitive K^+ Channel on Protein Kinase C Pathway and Airway Smooth Muscle Cell Proliferation in Asthma

The effects of ATP-sensitive mitochondrial K + channel(mitoK ATP) on mitochondrial membrane potential(Δψm),cell proliferation and protein kinase C alpha(PKCα) expression in airway smooth muscle cells(ASMCs) were investigated.Thirty-six Sprague-Dawley(SD) rats were immunized with saline(controls) or ovalbumin(OVA) with alum(asthma models).ASMCs were cultured from the lung of control and asthma rats.ASMCs were treated with diazoxide(the potent activator of mitoK ATP) or 5-hydroxydencanote(5-HD,the inhibitor of mitoK ATP).Rhodamine-123(R-123) was used to detect Δψm.The expression of PKCα protein was examined by using Western blotting,while PKCα mRNA expression was detected by using real-time PCR.The proliferation of ASMCs was measured by MTT assay and cell cycle analysis.In diazoxide-treated normal ASMCs,the R-123 fluorescence intensity,protein and mRNA levels of PKCα,MTT A values and percentage of cells in S phase were markedly increased as compared with untreated controls.The ratio of G 0 /G 1 cells was decreased(P<0.05) in diazoxide-treated ASMCs from normal rats.However,there were no significant differences between the ASMCs from healthy rats treated with 5-HD and the normal control group.In untreated and diazoxide-treated ASMCs of asthmatic rats,the R-123 fluorescence intensity,protein and mRNA levels of PKCα,MTT A values and the percentage of cells in S phase were increased in comparison to the normal control group.Furthermore,in comparison to ASMCs from asthmatic rats,these values were considerably increased in asthmatic group treated with diazoxide(P<0.05).After exposure to 5-HD for 24 h,these values were decreased as compared with asthma control group(P<0.05).In ASMCs of asthma,the signal transduction pathway of PKCα may be involved in cell proliferation,which is induced by the opening of mitoK ATP and the depolarization of Δψm.

Beneficial effects of adenosine triphosphate-sensitive K^+ channel opener on liver ischemia/reperfusion injury

AIM: To investigate the effect of diazoxide administration on liver ischemia/reperfusion injury.

Effect of nicorandil on infarct volume and marker enzyme activity in mitochondria of rats with cerebral ischemia/reperfusion injury

BACKGROUND： Recent studies have suggested that mitochondrial ATP-sensitive K＋ channel openers could reduce myocardium infarct size, and protect the function of the mitochondria. OBJECTIVE： To investigate the changes of cerebral infarction volume and the activity of marker enzymes in brain mitochondria of rats given the ATP-sensitive K＋ channel opener, nicorandil, before focal cerebral ischemia/reperfusion （I/R）. DESIGN, TIME AND SETTING： Randomized, controlled animal experiment, completed at the Brain Scientific Research Center of the Affiliated Hospital of Qingdao University from July to November 2007. MATERIALS： Sixty healthy male Wistar rats weighing 280-300 g. Nicorandil, 5-hydroxydecanoate （5-HD） and cytochrome C were purchased from Sigma in the USA. Standard malondialdehyde （MDA） and protein were purchased from Nanjing Jiancheng Biotechnology Institute. METHODS： Sixty rats were randomly divided into a sham operation group, a middle cerebral artery occlusion （MCAO） group, a nicorandil group and a nicorandil＋5-HD group. MCAO for 2 hours was performed in the MCAO group, nicorandil group and nicorandil＋5-HD group. A total of 5 mL saline were given to the MCAO group before MCAO. The nicorandil group was injected with the ATP-sensitive K＋ channel opener nicorandil 10 mg/kg intraperitoneally 30 minutes before MCAO. The nicorandil＋5-HD group was injected with 5-HD 10 mg/kg intravenously 15 minutes before the same treatment as the nicorandil group. MAIN OUTCOME MEASURES： Infarct volume by total brain slice calculation, activities of succinate dehydrogenase （SDH） and cytochrome oxidase （CO）, and content of MDA were observed at 22 hours of reperfusion after 2 hours MCAO. RESULTS： Sixty rats were included in the final analysis, without any loss. （1） Infarct volume： compared with the MCAO group and nicorandil＋5-HD group, the percentage of infarct volume was significantly decreased in the nicorandil group （P 〈 0.01）. （2） The content of MDA, expression of SDH and CO in brain： the expressions of SDH and CO in the sham operation group were significantly lower than those in the MCAO, nicorandil and nicorandil＋5-HD groups （P 〈 0.01）. The expressions of SDH and CO in the nicorandil group were significantly higher than those in the MCAO and nicorandil＋5-HD groups （P 〈 0.05）. The content of MDA in the brain of the nicorandil group was significantly lower than those in the MCAO and nicorandil＋5-HD groups （P 〈 0.01）. CONCLUSION： Nicorandil can significantly reduce the infarct volume in a rat MCAO model, increase the activity of the mitochondria and protect against cerebral I/R injury.

MitoK_(ATP)-PKC通路对人体肺动脉平滑肌细胞电压门控钾通道的影响

目的以人体肺动脉平滑肌细胞(HPASMCs)为研究对象,研究线粒体膜上ATP敏感的钾通道(MitoKATP)对HPASMCs膜电位及电压门控钾通道(KV1.5)表达的影响,以及蛋白激酶C(PKC)在其信号转导中的可能作用。方法从人正常肺组织分离出HPASMCs进行培养。利用激光共聚焦显微镜技术检测细胞线粒体膜电位(ΔΨm),全细胞膜片钳技术记录细胞膜电流变化,Western blot检测KV1.5蛋白和PKC-α的表达情况。结果①Diazoxide组肺动脉平滑肌细胞PKC-α的表达比正常对照组明显增强(P<0.05);这种作用可被5-羟基癸酸盐(5-HD)的作用所逆转;单独应用5-HD,平滑肌细胞PKC-α的表达与对照组比较差异无显著性意义。②Diazoxide作用24h可明显抑制Kv电流以及下调Kv1.5蛋白的表达(P<0.05);佛波酯(PMA)作用24h也可明显抑制Kv电流以及下调Kv1.5蛋白的表达(P<0.05),而加入R0-31-8220可以逆转PMA的这一作用;Diazoxide和PMA同时应用较其中之一单独应用对人肺动脉平滑肌细胞Kv电流和Kv1.5表达有更加明显的抑制作用(均P<0.05);Diazoxide与R0-31-8220同时应用则部分逆转了Diazoxide对肺动脉平滑肌细胞Kv电流和Kv1.5表达的抑制(均P<0.05)。结论MitoKATP的开放和ΔΨm的增加可抑制Kv通道的活性和表达,可能参与并影响了肺动脉高压的发生发展,PKC在其中可能起介导作用。

Regulatory role of mitochondria in oxidative stress and atherosclerosis

Mitochondrial physiology and biogenesis play a crucial role in the initiation and progression of cardiovascular disease following oxidative stress-induced damage such as atherosclerosis(AST).Dysfunctional mitochondria caused by an increase in mitochondrial reactive oxygen species(ROS)production,accumulation of mitochondrial DNA damage,and respiratory chain deficiency induces death of endothelial/smooth muscle cells and favors plaque formation/rupture via the regulation of mitochondrial biogenesis-related genes such as peroxisome proliferator-activated receptorγcoactivator(PGC-1),although more detailed mechanisms still need further study.Based on the effect of healthy mitochondria produced by mitochondrial biogenesis on decreasing ROS-mediated cell death and the recent finding that the regulation of PGC-1 involves mitochon- drial fusion-related protein(mitofusin),we thus infer the regulatory role of mitochondrial fusion/fission balance in AST pathophysiology.In this review,the first section discusses the possible association between AST-inducing factors and the molecular regulatory mechanisms of mitochondrial biogenesis and dynamics,and explains the role of mitochondria-dependent regulation in cell apoptosis during AST development. Furthermore,nitric oxide has the Janus-faced effect by protecting vascular damage caused by AST while being a reactive nitrogen species(RNS)which act together with ROS to damage cells.Therefore,in the second section we discuss mitochondrial ATP-sensitive K+ channels,which regulate mitochondrial ion transport to maintain mitochondrial physiology,involved in the regulation of ROS/RNS production and their influence on AST/cardiovascular diseases(CVD).Through this review,we can further appreciate the multi-regulatory functions of the mitochondria involved in AST development.The understanding of these related mechanisms will benefit drug development in treating AST/CVD through targeted biofunctions of mitochondria.

Protective role of mitochondrial K-ATP channel and mitochondrial membrane transport pore in rat kidney ischemic postconditioning

Background Previous studies suggested that mechanical intervention during early reperfusion, or ischemia postconditioning （Ipo）, could protect kidneys against renal ischemia reperfusion injury （RIRI）. However, the mechanisms responsible for this protection remain unclear. This study therefore investigated the protection afforded by Ipo in rat kidneys in vivo, and the roles of mitochondrial KATP channels （mitOKATP） and mitochondrial permeability transition pores （MPTPs）, by inhibiting mitOKATP with 5-hydroxydecanoate （5-HD）, and by directly detecting open MPTPs using calcein-AM and CoCl2.Methods Thirty-five male Sprague-Dawley rats were randomly assigned to sham-operation （S）, ischemia-reperfusion （I/R）,Ipo, ischemia reperfusion with 5-HD （I/R＋5-HD）, or Ipo with 5-HD （Ipo ＋5-HD） groups. Rats in each group were sacrificed after 6 hours of reperfusion by heart exsanguination or cervical dislocation under anesthesia. RIRI was assessed by determination of creatinine and blood urea nitrogen （BUN）, and by examination of histologic sections. The roles of mitoKATP and MPTP were investigated by analyzing fluorescence intensities of mitochondria, mitochondrial membrane potential,intracellular reactive oxygen species （ROS） and intracellular calcium, using appropriate fluorescent markers. The relationship between apoptosis and RIRI was assessed by determining the apoptotic index （Al） of kidney tubular epithelial cells.Results The RIRI model was shown to be successful. Significantly higher levels of creatinine and BUN, and abnormal pathology of histologic sections, were observed in group I/R, compared with group S. 5-HD eliminated the renoprotective effects of Ipo. Mitochondrial and mitochondrial membrane potential fluorescence intensities increased, and intracellular calcium, ROS fluorescence intensities and AI decreased in group Ipo, compared with group I/R. However, mitochondrial and mitochondrial membrane potential fluorescence intensities decreased, and intracellular calcium and ROS fluorescence intensities and AI increased in group Ipo＋5-HD, compared with group Ipo.Conclusions mitoKATP and MPTPs participated in Ipo-induced renoprotective mechanisms in rat kidneys subjected to RIRI, possibly through decreased renal tubular epithelial cell apoptosis.

从线粒体膜稳定作用探讨线粒体K(MITO-KATP)通道开放剂改善老年冠心病大鼠心肌缺血再灌注损伤的机制

目的从线粒体膜稳定作用探讨线粒体K+ATP(MITO-KATP)通道开放剂尼可地尔(Nicorandil,Nic)改善老年冠心病大鼠心肌缺血再灌注损伤的机制。方法选取60只健康雄性SD老年大鼠(18~20个月),体重400~600g,随机分为3组:假手术(Sham)组、模型(Model)组和尼可地尔(Nic)组,每组10只。建立老年冠心病大鼠心肌缺血再灌注(MI/R)模型,尼可地尔(Nic)组在再灌注之前,股静脉注射尼可地尔5mg/kg,假手术组和模型组注射等量的生理盐水。3组大鼠在术后24h进行腹主动脉取血,分别检测大鼠血清中,肌酸磷酸激酶同工酶(CK-MB)和乳酸脱氢酶(LDH)的水平变化;采用流式细胞仪测定大鼠心肌细胞线粒体膜电位的变化情况;采用WesternBlot法测定心肌细胞线粒体中p-Cx43蛋白变化情况,心肌组织中Bcl-2和Bax蛋白表达情况的变化。结果与Sham组相比,模型组大鼠血清中CK-MB和LDH的含量增加(P<0.05),说明心肌缺血再灌注会导致心肌细胞损伤;与模型组相比,尼可地尔组大鼠血清中CK-MB和LDH的含量下降(P<0.05),说明尼可地尔有抗心肌缺血的作用。采用阳离子绿色荧光染料罗丹明123对线粒体的膜电位进行检测,与Sham组相比,模型组大鼠心肌线粒体膜电位降低(P<0.05),而尼可地尔组大鼠心肌线粒体膜电位高于模型组(P<0.05),说明心肌细胞凋亡时会导致线粒体膜电位降低以及功能变化,而线粒体K+ATP通道开放剂尼可地尔可以缓解线粒体的损伤情况。WesternBlot结果表明,与Sham组相比,模型组大鼠心肌线粒体p-Cx43的蛋白表达下调,而尼可地尔组大鼠心肌线粒体p-Cx43的蛋白表达高于模型组,说明尼可地尔能够上调心肌线粒体p-Cx43的蛋白表达,维持线粒体的稳定性。与Sham组相比,模型组大鼠心肌组织中Bcl-2的蛋白表达下调,Bax蛋白表达上调;而尼可地尔组大鼠心肌组织中Bcl-2的蛋白表达上调,Bax蛋白表达下调,说明线粒体K+ATP通道开放剂尼可地尔可有效抑制心肌缺血再灌注导致的心肌细胞凋亡。结论线粒体K+ATP通道开放剂尼可地尔对心肌缺血再灌注损伤有保护作用,其机制可能是通过降低大鼠血清中CK-MB和LDH的含量,维持线粒体膜稳定性,抑制心肌细胞的凋亡。

NRGA1, a Putative Mitochondrial Pyruvate Carrier, Mediates ABA Regulation of Guard Cell Ion Channels and Drought Stress Responses in Arabidopsis

Abscisic acid （ABA） regulates ion channel activity and stomatal movements in response to drought and other stresses. Here, we show that the Arabidopsis thaliana gene NRGA1 is a putative mitochondrial pyruvate carrier which negatively regulates ABA-induced guard cell signaling. NRGA1 transcript was abundant in the A. thaliana leaf and par- ticularly in the guard cells, and its product was directed to the mitochondria. The heterologous co-expression of NRGA1 and AtMPC1 in yeast complemented a loss-of-function mitochondrial pyruvate carrier （MPC） mutant. The nrgal loss-of- function mutant was very sensitive to the presence of ABA in the context of stomatal movements, and exhibited a height- ened tolerance to drought stress. Disruption of NRGA1 gene resulted in increased ABA inhibition of inward K＋ currents and ABA activation of slow anion currents in guard cells. The nrgal/NRGA1 functional complementation lines restored the mutant＇s phenotypes. Furthermore, transgenic lines of constitutively overexpressing NRGA1 showed opposite stomatal responses, reduced drought tolerance, and ABA sensitivity of guard cell inward K＋ channel inhibition and anion channel activation. Our findings highlight a putative role for the mitochondrial pyruvate carrier in guard cell ABA signaling in response to drought.

Diazoxide对缺氧大鼠肺动脉平滑肌细胞内氧自由基的变化及细胞增殖的作用

目的:研究线粒体膜上ATP敏感钾通道(MitoKATP)开放剂diazoxide和线粒体膜电位(ΔΨm)在缺氧导致的大鼠肺动脉平滑肌细胞内氧自由基的变化及细胞增殖/凋亡失衡中的作用,探索缺氧性肺动脉重建和肺动脉高压形成的发生机制。方法:取大鼠正常肺组织,分离出肺动脉平滑肌细胞(PASMCs)进行常氧或慢性缺氧培养。将样本分为6组:①正常对照组;②线粒体膜上ATP敏感钾通道(MitoKATP)开放剂diazoxide组;③MitoKATP阻断剂5-HD组;④慢性缺氧(CH)组;⑤CH+diazoxide组;⑥CH+5-HD组。利用激光共焦显微镜(Leica SP-1 USA)成像检测线粒体膜电位,荧光染色检测细胞内氧自由基含量,流式细胞仪检测细胞周期和MTT法检测细胞增殖情况。结果:①Diazoxide作用24 h后,R-123荧光强度明显强于正常对照组,线粒体膜电位去极化,细胞内氧自由基含量明显高于正常对照组,细胞增殖明显多于正常对照组、凋亡少于正常对照组,P<0.05;而5-HD作用24 h后,上述指标与正常对照组相比较,均无显著差异,P>0.05;②慢性缺氧24 h,结果与di-azoxide组相似,R-123荧光强度明显强于正常对照组,线粒体膜电位去极化,细胞内氧自由基含量明显高于正常对照组,细胞增殖明显多于正常对照组、凋亡少于正常对照组,P<0.05;CH+diazoxide组,R-123荧光强度和线粒体膜电位去极化明显强于缺氧组,细胞内氧自由基含量明显高于缺氧组,细胞增殖明显多于缺氧组、凋亡少于缺氧组,P<0.05;CH+5-HD组,R-123荧光强度和线粒体膜电位去极化明显弱于缺氧组,细胞内氧自由基含量明显低于缺氧组,细胞增殖明显少于缺氧组、凋亡多于缺氧组,P<0.05;R-123荧光强度、MTT的A值与细胞内氧自由基含量均呈显著正相关;凋亡细胞百分比与细胞内氧自由基含量呈显著负相关。结论:本实验结果显示,diazox-ide能够通过开放线粒体膜上ATP敏感的钾通道,引起ΔΨm去极化,ΔΨm的变化影响细胞内氧自由基的含量,氧自由基可能作为信号分子通过影响肺动脉平滑肌细胞的增殖/凋亡的平衡,参与了缺氧性肺动脉重建和肺动脉高压的发生和发展过程。

线粒体ATP敏感性钾通道不参与异丙酚预处理的心肌保护

目的 观察异丙酚预处理对心肌缺血再灌注损伤的保护机制是否通过开放线粒体ATP敏感性K通道 (KATP)。方法 非循环式Langendorff离体心脏灌注模型 ,灌注 1h ,常温下行全心缺血 2 5min ,恢复再灌注 30min。通过Maclab仪记录左室舒张末压 (LVEDP)、左室发展压 (LVDP)、左室压上升和下降最大速率 (±dp/dtmax)。测恢复再灌注末心肌组织MDA含量。结果 恢复再灌注 30min末 ,对照组(Con)、异丙酚预处理组 (PP)、5 HD +PP和 5 HD组心肌组织的MDA含量分别为 (113 7± 2 0 9)、(89 4± 13 7)、(91 9± 14 4 )和 (114 8± 19 7)nmol·10 0mg-1。PP组和 5 HD+PP组的心肌MDA含量都明显低于Con组和 5 HD组 (P<0 0 5 ) ;PP组和 5 HD +PP组两组间的MDA差异无显著性 (P >0 0 5 )。恢复再灌注 30min末 ,Con组、PP组、5 HD+PP组和 5 HD组的LVEDP值分别为基础值的 5 1、3 2、3 6和 5 3倍。PP组和 5 HD +PP组LVEDP值的上升幅度均明显低于Con组和 5 HD组 (P <0 0 5 ) ,而 5 HD +PP组和PP组之间差异无显著性 (P >0 0 5 )。结论 异丙酚预处理的心肌保护不是通过开放线粒体ATP敏感性K通道 。

ATP敏感钾通道在硫化氢钠对抗β-淀粉样肽诱导细胞损伤中的作用

【目的】探讨ATP敏感性钾通道(KATP)在硫化氢(H2S)对抗β-淀粉样多肽(Aβ)诱导嗜铬细胞瘤细胞(PC12)细胞损伤中的作用。【方法】应用硫化氢钠(NaHS)作为H2S的供体,碘化丙啶(PI)染色流式细胞技术(FCM)检测细胞凋亡率,Hoechst染色检测细胞凋亡的形态学变化,罗丹明123(Rh123)染色FCM检测细胞线粒体膜电位(MMP),双氢罗丹明123染色FCM检测细胞内活性氧(ROS)的含量。【结果】20μmol/L和40μmol/LAβ25-35能明显地诱导PC12细胞凋亡,增加细胞凋亡率,并能明显地抑制PC12细胞MMP及增加细胞内ROS生成;100mol/L和200μmol/LNaHS本身不损伤PC12细胞,但能明显地抑制Aβ25-35的致细胞凋亡作用,降低PC12细胞的凋亡率,并能显著地抑制Aβ25-35引起的MMP降低及胞内ROS水平增多;在应用NaHS与Aβ25-35作用PC12细胞之前30min,应用KATP抑制剂Glybenclamide(Gly)(10μmol/L)对PC12细胞进行预处理,能部分地对抗NaHS的细胞保护作用,使PC12细胞凋亡率增加,MMP降低及ROS生成增多。【结论】NaHS能明显对抗Aβ25-35对PC12细胞的损伤作用,此细胞保护作用可能与NaHS保护PC12细胞的MMP及抑制胞内ROS生成有关;KATP通道抑制剂Gly能部分地阻断NaHS的细胞保护作用,提示KATP通道开放可能是NaHS对抗Aβ25-35损伤作用的机制之一。

开放线粒体ATP敏感性钾通道对大鼠局灶性脑缺血再灌注损伤的保护作用

目的 研究开放线粒体 ATP敏感性钾通道对大鼠局灶性脑缺血再灌注损伤的作用。方法 采用线栓法建立大鼠局灶性脑缺血再灌注损伤模型 ,将 38只大鼠随机分成 4组 :假手术组 (S)、缺血组 (I)、缺血 +二氮嗪组 (D)、缺血 +二氮嗪 +5 - HD组 (DH)。观察各组脑梗死体积和线粒体标志酶活性变化。结果 与 I组比较 ,D组脑梗死体积明显减少 (自 2 3.5 7± 7.83%减至 8.16± 3.81% ) ,线粒体标志酶活性明显增高 ,差异具有显著性 (P<0 .0 5 ) ,DH组与 I组比较无明显差异 (P>0 .0 5 )。结论 二氮嗪对大鼠局灶性脑缺血再灌注损伤具有保护作用 ,其机制与开放线粒体 ATP敏感性钾通道 。

3-硝基丙酸预处理对大鼠局灶性脑缺血再灌注损伤的保护作用

目的:研究3-硝基丙酸预处理对大鼠局灶性脑缺血再灌注损伤的作用。方法:采用线栓法建立大鼠局灶性脑缺血再灌注损伤模型,将38只大鼠随机分成4组,假手术组、缺血组、3-硝基丙酸预处理组、3-硝基丙酸预处理+5-羟癸酸盐组。观察各组脑梗死体积和线粒体标志酶活性变化。结果:与缺血组比较,3-硝基丙酸预处理组脑梗死体积明显减少(自23.57±7.83％减至10。50±2.37％),线粒体标志酶活性明显增高,差异具有显著性(P<O.01),3-硝基丙酸预处理+5-羟癸酸盐组与缺血组比较无明显差异(P>0.01)结论:3-硝基丙酸预处理对大鼠局灶性脑缺血再灌注损伤具有保护作用,其机理与开放线粒体ATP敏感性钾通道,维护线粒体功能和提高其耐受性有关。

二氮嗪对大鼠脑缺血再灌注细胞凋亡的影响

目的研究二氮嗪开放线粒体ATP敏感性钾通道对大鼠脑缺血再灌注细胞凋亡的影响。方法采用线栓法建立大鼠局灶性脑缺血再灌注损伤模型,将20只大鼠随机分成4组,假手术组、缺血组、缺血+二氮嗪治疗组和缺血+二氮嚷+MitoK_(ATP)通道特异性抑制剂5-HD组。观察各组凋亡细胞数和凋亡相关蛋白Bcl-2、Bax的变化。结果与缺血组比较,二氮嗪使凋亡细胞数明显减少(83.2±9.04 vs 123.96±13.45),Bcl-2表达增高(0.17±0.01 vs 0.13±0.01),Bax表达下降(0.15±0.02 vs 0.20±0.03),差异具有显著性(P<0.05)。5-HD能取消这些作用(P<0.05)。结论局灶性脑缺血再灌注损伤时,二氮嗪能通过上调半暗带区Bcl-2蛋白表达,下调Bax蛋白表达,减少神经元凋亡,对脑缺血损伤起保护作用。

二氮嗪对大鼠脑缺血再灌注损伤的保护作用及其机制

目的研究二氮嗪开放线粒体ATP敏感性钾通道(MitoKATP)对大鼠脑缺血再灌注(I/R)损伤的作用及其机制。方法采用线栓法建立大鼠局灶脑I/R损伤模型,将30只大鼠随机分成三组(假手术组、缺血组、缺血+二氮嗪治疗组),观察各组脑梗死体积和线粒体标志酶活性、凋亡细胞数变化。结果与缺血组比较,治疗组脑梗死体积明显减少〔(10782±2037)m3vs(28517±3429)m3〕,线粒体标酶活性明显增高〔SDH(3212±363)vs(2224±387),CO(208±27)vs(1332±247)〕,凋亡细胞数明显减少(12232±1156vs8704±1116)(P<001)。结论二氮嗪对大鼠I/R损伤具有保护作用,其机制与开放MitoKATP通道、维护线粒体功能、抑制细胞凋亡有关。

二氮嗪预处理对大鼠肝窦内皮常温缺血再灌注损伤的影响

目的:通过观察二氮嗪(Diazoxide)预处理对大鼠肝窦内皮常温缺血再灌注损伤(I/RI)的影响,探讨线粒体ATP敏感性钾通道(MitoKATP)在其中的可能作用。方法:32只成年健康雄性SD大鼠,随机分为4组,每组8只:①假手术组(Sham组);②对照组(Control组),进腹后行部分肝脏缺血再灌注(I/R);③二氮嗪组(Dia组),在行肝I/R前10min,静注Diazoxide (5 mg·kg^(-1));④5-HD+Dia组,在行肝I/R之前20min静注5-HD(10mg·kg^(-1)),10min后静注Diazoxide(5 mg·kg^(-1))。再灌注90min时测定各组血清谷丙转氨酶(ALT)、透明质酸(HA)水平和肝脏一氧化氮(NO)、内皮素(ET)含量;并进行肝组织病理形态学观察,包括光镜HE染色和透射电镜(TEM)超微结构检查;免疫组化检测细胞间粘附分子(ICAM-1)的表达。结果:与Sham组相比,Control组的血清ALT和HA水平,肝组织ET含量均明显升高(P<0.05);而肝组织NO含量明显降低(P<0.05)。与Control组相比,Dia组的ALT、HA及ET含量都降低(P<0.05)。肝组织中NO的含量升高。5-HD完全抵消了Dia的作用。HE染色和TEM检查提示Dia组较明显地减轻损伤,而5-HD+Dia组则与Control组相似。Dia组肝窦内皮细胞膜ICAM-1表达比例明显减少,且染色较淡,组间比较有显著差异(P<0.05);5-HD可以抵消Diazoxide减少ICAM-1表达的效应。结论:线粒体ATP敏感性钾通道(MitoKATP)开放剂的预处理对后继的肝脏I/RI中肝窦内皮的损伤有较好的保护作用。

缺血后处理对缺血-再灌注心肌的保护作用及其与线粒体ATP敏感性钾通道的关系

目的探讨缺血后处理(IPo)的心肌保护作用及与心肌线粒体三磷酸腺苷(ATP)敏感性钾通道(mitoKATP)的关系,为药物后处理的研发提供依据。方法40只Wistar大鼠,建立大鼠离体心脏Langendorff灌注模型,采用随机数字表法分为5组,每组8只,正常对照组(NC组):用K-H液持续灌注100min,不做任何处理;缺血-再灌注(I/R)组:全心缺血40min,再灌注60min;IPo组:全心缺血40min,再灌注10s,缺血10s,反复6次,然后持续再灌注58min;5-羟基癸酸(5-HD)组:全心缺血40min后,先用含5-HD(100μmol/L)的K-H液再灌注15min,再用不含5-HD的K-H液再灌注45min;IPo+5-HD组:全心缺血40min后,先用含5-HD(100μmol/L)的K-H液再灌注10s,缺血10s,反复6次,再用含5-HD的K-H液持续灌注13min,然后用不含5-HD的K-H液再灌注45min。观察比较各组心功能、冠状动脉流量(CF)、冠状动脉流出液中心肌肌钙蛋白I(cTnI)含量、心肌梗死(AMI)面积和心肌细胞超微结构改变。结果再灌注末IPo组左心室发展压(74.3±3.3mmHgvs.57.1±3.3mmHg,t=13.00,P=0.000)、+dp/dtmax(1706.6±135.6mmHg/svs.1313.3±96.2mmHg/s,t=6.28,P=0.000)、-dp/dtmax(1132.8±112.1mmHg/svs.575.7±67.7mmHg/s,t=13.48,P=0.000)、CF(6.49±0.30ml/minvs.3.70±0.24ml/min,t=28.60,P=0.000)与I/R组比较均升高;左心室舒张期末内压(10.9±1.7mmHgvs.26.2±1.5mmHg,t=-19.21,P=0.000),冠状动脉流出液中cTnI含量(0.62±0.01ng/mlvs.0.71±0.01ng/ml,t=-12.00,P=0.000)均降低,AMI面积与I/R组比较减少20.8%(P<0.05)。IPo+5-HD组对心肌的保护作用与IPo组相似,但作用轻于IPo组。电子显微镜观察结果表明,IPo和IPo+5-HD可减轻I/R引起的心肌纤维和线粒体损伤。结论IPo对I/R心肌有保护作用,其作用与mitoKATP的激活有关。

Diazoxide preconditioning antagonizes cytotoxicity induced by epileptic seizures

Diazoxide, an activator of mitochondrial ATP-sensitive potassium channels, can protect neurons and astrocytes against oxidative stress and apoptosis. In this study, we established a cellular mode of epilepsy by culturing hippocampal neurons in magnesium-free medium, and used this to investigate effects of diazoxide preconditioning on the expression of inwardly rectifying potassium channel （Kir） subunits of the ATP-sensitive potassium. We found that neuronal viability was significantly reduced in the epileptic cells, whereas it was enhanced by diazoxide preconditioning. Double immunofluorescence and western blot showed a significant increase in the expression of Kir6.1 and Kir6.2 in epileptic cells, especially at 72 hours after seizures. Diazoxide pretreatment completely reversed this effect at 24 hours after seizures. In addition, Kir6.1 expression was significantly upregulated compared with Kir6.2 in hippocampal neurons after seizures. These findings indicate that diazoxide pretreatment may counteract epileptiform discharge-induced cytotoxicity by suppressing the expression of Kir subunits.

ATP敏感性钾通道的靶向治疗研究进展

ATP敏感性钾通道(ATP-sensitive K+channel,KATP通道)存在于心血管、神经、胰腺、胃肠道、生殖系统等多种组织中,在生理、病理过程中发挥重要作用,是许多疾病的治疗靶点。KATP通道受多种因素调控,是一种将膜兴奋性与细胞的代谢状态耦合的配体门控钾通道。

K_(ATP)开放剂对大鼠局灶性脑缺血再灌注损伤的保护作用及其机制

目的观察ATP敏感性钾通道(KATP)开放剂尼可地尔(nicorandil)对大鼠脑缺血/再灌注(I/R)损伤的保护作用及其机制。方法将60只雄性Wistar大鼠随机分为4组:A组(假手术组)、B组(脑缺血再灌注组)、C组(脑缺血再灌注+尼可地尔组)及D组(脑缺血再灌注+尼可地尔+5-HD组),采用线栓法建立大鼠大脑中动脉闭塞(MCAO)模型,各组于脑缺血2h后进行再灌注,再灌注22h后观察各组大鼠神经功能评分、脑梗死体积、线粒体标志酶活性和脂质过氧化降解产物丙二醛(malondialdehyde,MDA)的含量。结果(1)B、C、D组再灌注22h后神经功能评分显著低于A组,脑梗死体积、脂质过氧化物MDA含量均显著高于A组,线粒体标志酶活性SDH、CO表达显著低于A组(P<0.01);(2)与B、D组比较,C组神经功能评分明显升高,脑梗死体积、MDA含量明显减少,SDH、CO活性明显增高(P<0.01);(3)B组和D组各指标之间比较差异均无显著性(P>0.05)。结论尼可地尔对大鼠脑缺血再灌注损伤具有保护作用,其机制可能与开放mitoKATP通道、维护线粒体功能、减少氧自由基产生有关。