蛋白激酶C对大鼠离体肺动脉环张力及其反应性的调节作用

目的 :观察蛋白激酶C(PKC)对大鼠离体肺动脉环张力及反应性的调节作用。方法 :取Wistar大鼠肺动脉 ,观察在离体情况下PKC激活剂PMA及PKC抑制剂RO3 182 2 0对肺动脉环张力的直接作用 ;对氯化钾 (KCl)、5 羟色胺 (5 HT)和缺氧引起的收缩反应的影响 ;以及PMA对乙酰胆碱 (ACh)介导的内皮依赖性舒张 (EDR)和硝普钠(SNP)介导的内皮非依赖性舒张 (EIDR)反应的影响。结果 :①PMA(5 0 0nmol/L)使肺动脉环产生缓慢增强、持久的收缩 ,随PMA浓度增加而增强 ,RO3 182 2 0 (5 μmol/L)可完全阻断PMA的上述作用 ;②PMA可增强肺动脉对KCl、5 HT的收缩反应 ,该作用随PMA浓度增加而增强 ;③RO3 182 2 0 (5 μmol/L)几乎可以完全阻断离体肺动脉环对缺氧的第二相收缩反应 ;④PMA(10nmol/L)在 10min内完全逆转ACh(10 μmol/L)介导的EDR ,PMA(10nmol/L)还可使ACh的浓度一反应显著减弱 ,达到最大舒张反应的一半时对应的ACh浓度 (EC50 )显著增加 ,最大舒张反应明显减小 ;而PMA对SNP介导的EIDR无显著影响。结论 :PKC在与肺动脉张力及反应性的调节有关的细胞内生物信号传递过程中具有重要作用。     

过氧亚硝基阴离子诱导离体兔肺动脉舒张反应的特性

实验用离体血管环张力测定技术,观察过氧亚硝基阴离子（ONOO）对离体预收缩的兔肺动脉的舒张反应、肺动脉内皮细胞对舒张反应的影响,并初步探讨其病理意义。结果显示,ONOO可剂量依赖性引起预收缩兔肺动脉舒张。分解的ONOO也有舒张作用,但其效应明显低于ONOO的作用,比较观察表明,ONOO的舒张效应显著低于硝普钠（SNP）和乙酰胆碱（ACh)。与内皮完整2的肺动脉比较,ONOO对去内皮肺动脉的舒张作用明显增加,剂量依赖性舒张反应曲线明显左移。肺动脉对ONOO重复作用时的舒张反应有递减趋势。在本实验条件下,ONOO舒张前后的肺动脉,对ACh的舒张反应无明差异。结果表明,ONOO对肺动脉的舒张作用较弱,此作用受到内皮细胞的抑制性调节并有快速去敏性。     

NO在CCK—8减轻肿瘤坏死因子诱导兔肺动脉反应性变化中的作用

为探讨八肽胆囊收缩素（CCK－8）缓解内毒素休克时肺动脉高压的作用机制,应用离体血管环张力测定技术及一氧化氮合酶（NOS）检测方法,观察了一氧化氮（NO）在CCK－8减轻肿瘤坏死因子－α（tumor necrosis factor-al-pha,TNF-α）的抑制肺动脉内皮依赖性舒张反应中的作用。结果显示：TNF－α（4000U／ml）孵育2h时,肺动脉对10^-6mol/L苯肾上腺素(phenylephrine,PE）和10^-6mol/L乙酰胆碱（ACh）的收缩反应及内皮依赖性舒张反应均无明显变化。TNF－α孵育7或14h时,肺动脉对10^-6mol/L ACh介导的内皮依赖性舒张反应降低,CCK－8（0.5μg/ml）可逆转TNF－α的上述作用,CCK－8本身对正常肺动脉反应性无明显影响。TNF－α、CCK－8对PE引起的收缩反应无显著影响。L－精氨酸（L－Arg）可使TNF－α7h内皮依赖性舒张作用恢复。氨基胍（AG）不影响各组肺动脉对10^-6mol/L ACh的内皮依赖性舒张反应,而使TNF－α组肺动脉环对10^-6mol/L PE的收缩反应显著增加。L－硝基精氨酸（L－NNA）使各组肺动脉环对10^-6mol/L ACh反应由舒张变为收缩,对10^-6mol/L PE的收缩反应显著增强。检测7h各组NOS活性,TNF－α组、TNF－α＋CCK－8组均较对照组显著增加,CCK－8组与对照组比较无显著差异。上述结果提示,CCK－8可逆转TNF－α对内皮依赖性舒张反应的抑制作用,此作用可能与NO有关。     

一氧化碳对大鼠离体肺动脉的舒张作用

本研究观察了一氧化碳 (CO)对离体大鼠肺动脉的舒张作用。制备Wistar大鼠肺动脉环 ,作出ACh浓度效应曲线之后 ,肺动脉环用一氧化氮合成酶抑制剂L NAME 3 0 μmol/L (n =10 )或血红素氧化酶抑制剂ZnPPIX 10μmol/L +L NAME 3 0 μmol/L (n =10 )孵育 3 0min ,再制备一个ACh的浓度效应曲线 ,观察ZnPPIX对ACh的浓度效应曲线的影响。另取一组肺动脉环 ,分为内皮完整组和去内皮组 ,观察外源性CO对肺动脉环张力的影响。结果表明 ,用L NAME孵育后 ,ACh的血管舒张反应受抑 ,最大抑制率为 5 0 4± 9 2 % ;用ZnPPIX +L NAME孵育后 ,ACh的血管舒张反应进一步受抑 ,最大抑制率为 84 4± 11 2 %。外源性CO无论对内皮完整组还是去内皮组肺动脉都有舒张作用。本研究提示 ,ZnPPIX可抑制ACh的内皮依赖性肺动脉舒张反应 ,CO是一个内皮源性的血管舒张因子 ,外源性CO可舒张肺动脉     

ERK1/2参与自发性高血压大鼠离体血管环对apelin-13舒张反应性降低作用

研究自发性高血压大鼠(spontanously hypertensive rat,SHR)离体血管环对G蛋白偶联受体APJ的内源性配体apelin-13的血管收缩与舒张反应及其与一氧化氮(NO)和ERK1/2通路关系．采用离体血管环体外灌流方法用Power-Lab生物信息采集仪检测血管环的张力．实验分组如下：新福林(Phenylephrine,PE)组,乙酰胆碱(acetylcholine,Ach)组,apelin-13组,apelin-13 + PE组,apelin-13 + Ach组,PD98059(ERK1/2抑制剂) + PE组,PD98059 + Ach组,LNNA(L-nitro-arginine,硝基左旋精氨酸,一氧化氮合酶抑制剂) + PE组,LNNA+Ach组,apelin-13(预孵育) + PD98059 + PE组,apelin-13(预孵育)+PD98059+ Ach组,apelin-13(预孵育) + LNNA + PE组和apelin-13(预孵育) + LNNA + Ach组,以WKY大鼠血管环为对照组．培养大鼠血管平滑肌细胞,Western blot检测ERK1/2蛋白表达．结果显示：a．apelin-13对于有内皮的血管表现出浓度依赖性舒张作用,血管舒张百分比SHR < WKY大鼠,而对于去除内皮血管,apelin-13则表现出收缩血管的作用,且收缩张力SHR>WKY大鼠,apelin-13预孵育,能减少SHR和WKY大鼠血管对新福林的缩血管反应性,增加对乙酰胆碱的舒张反应性;b．NOS抑制剂LNNA阻断NO形成后,血管环对apelin-13的舒张反应明显抑制,且SHR组较WKY组对apelin的舒张反应减少更明显,提示apelin-13的舒血管效应至少部分依赖NO通路,而SHR高血压大鼠NO通路障碍减弱了apelin对血管的舒张作用;c．ERK1/2抑制剂PD98059预孵育后血管环对apelin-13表现出浓度依赖性的收缩,与去除内皮后apelin-13的收缩血管效应趋势一致,血管收缩张力SHR＞WKY大鼠,PD98059逆转了apelin-13引起的血管舒张效应;d．Apelin-13促大鼠VSMCs ERK1/2磷酸化增加并呈剂量依赖性和时间依赖性,ERK1/2抑制剂PD98059可以减少apelin-13诱导ERK1/2的磷酸化．结果表明,自发性高血压大鼠离体血管环对apelin-13舒张反应性降低, NO通路和ERK1/2通路介导了apelin-13的舒张血管作用．     

慢性缺氧对大鼠肺动脉内皮依赖性舒张反应及cGMP含量的影响

本实验观察了慢性缺氧对大鼠肺动脉内皮依赖性舒张反应和肺动脉内环磷酸鸟苷(cGMP)含量的影响。乙酰胆碱(ACh)和三磷酸腺苷(ATP)可使正常大鼠的离体肺动脉产生内皮依赖性舒张反应,其舒张作用不受消炎痛的影响,但被甲烯蓝完全抑制。慢性缺氧明显减低了 ACh 和 ATP 诱发的大鼠肺内和肺外动脉的内皮依赖性舒张反应。当 ACh 浓度为10~(-6)mol/L 时,缺氧组大鼠肺内和肺外动脉舒张百分数分别为对照组的61.3%和59.2%;当 ATP浓度为1.8×10~(-5)mol/L 时,缺氧组大鼠肺内和肺外动脉舒张反应分別为对照组的64.9%和55.3%。慢性缺氧也减低了硝普钠(SNP)诱发的大鼠肺动脉非内皮依赖性舒张反应。慢性缺氧显著减低了大鼠肺动脉内 cGMP 的含量。缺氧组和对照组大鼠肺动脉内 cGMP 的基础含量分别是51.9±5.7 pmol/g wet wt.(n=14)和84.9±9.7 pmol/g wet wt.(n=14),p<0.01;经 10~(-7)mol/L ACh 刺激后分别是91.4±7.3 pmol/g wet wt.(n=5)和240.8±30.6pmol/g wet wt.(n=5),p<0.01。慢性缺氧可能抑制了肺动脉平滑肌细胞胞浆中可溶性鸟苷酸环化酶,从而减低了肺动脉对内皮舒张因子和 SNP 的舒张反应性。     

缺血/缺氧对自发性高血压大鼠肠系膜动脉血管舒缩功能的影响及其可能机制

高血压引起的脑卒中、冠心病等严重并发症的发生,均与组织缺血/缺氧导致的动脉血管痉挛有关。为了研究高血压大鼠肠系膜血管缺血/缺氧后的功能学改变,本研究采用三气培养箱模拟缺血/缺氧条件处理自发性高血压大鼠(spontaneously hypertensive rats,SHR)肠系膜动脉血管环,运用敏感的肌张力描记技术测定血管环对不同血管活性物质的反应性。结果显示:与WKY组大鼠相比,SHR组大鼠肠系膜动脉血管对收缩剂KCl和苯肾上腺素(phenylephrine,PE)的反应性明显提高,对内皮依赖的血管舒张剂乙酰胆碱(acetylcholine,ACh)的反应性显著降低;而与SHR组和急性缺血/缺氧对照(WKY+H)组相比较,高血压合并急性缺血/缺氧(SHR+H)组对KCl和PE的收缩反应显著性增加,对ACh的舒张反应明显降低。N-硝基-L-精氨酸甲酯(L-NAME)存在时,SHR+H组和SHR组血管环对ACh的舒张反应没有明显变化,而WKY组血管对ACh的舒张反应显著降低。与SHR组相比,SHR+H组CaCl2诱导的钙依赖性收缩曲线明显左移。在无钙K-H液中,SHR+H组PE和咖啡因(caffeine)诱导的...     

八肽胆囊收缩素减轻肿瘤坏死因子诱导的离体兔肺动脉反应性变化及内皮细胞损伤

为探讨八肽胆囊收缩素（ＣＣＫ－８）缓解内毒素休克时肺动脉高压的作用机制,应用离体血管环张力测定技术及扫描电镜方法,观察了ＣＣＫ－８对肿瘤坏死因子α（ＴＮＦ－α）引起的肺动脉反应性及肺动脉内皮细胞超微结构变化的影响。结果显示：离体脑动脉经ＴＮＦ－α（４０００Ｕ／ｍｌ）孵育２ｈ对苯肾上腺素（ＰＥ）的收缩反应、对乙酰胆碱（ＡＣｈ）及硝普钠（ＳＮＰ）的内皮依赖性及非内皮依赖性舒张反应均无明显影响。ＴＮＦ－     

褪黑素改善内毒素血症大鼠血管反应性

观察褪黑素(melatonin,MT)对脂多糖(lipopolysaccharide,LPS)诱导的体循环和肺循环血管反应性失调的影响,并探讨可能的作用机制。实验分为溶剂对照组、LPS组、LPS+MT组和MT组。制备离体胸主动脉环和肺动脉环,应用血管张力检测技术检测各组血管环对苯肾上腺素(phenylephrine,PE)和乙酰胆碱(acetylcholine,ACh)的反应性并绘制累积剂量反应曲线;制备各组血管组织匀浆,测定丙二醛(malondialhyde,MDA)和超氧化物歧化酶(superoxidedismutes,SOD)含量变化。结果显示:与对照组相比,LPS6h后胸主动脉对PE的收缩反应减弱(P<0.01),对PE(1×10–8~1×10–5mol/L)累积剂量反应曲线下移;而肺动脉对ACh的舒张反应显著下降(P<0.01),对ACh(1×10–8~1×10–5mol/L)累积剂量反应曲线下移。加用MT可显著改善LPS诱导的胸主动脉对缩血管剂PE的低反应性,同时可逆转LPS对肺动脉舒张反应的抑制,LPS+MT组胸主动脉对PE的累积剂量反应曲线和肺动脉对ACh的累积剂量反应曲线位于对照组和LPS组之间;MT还可对抗LPS导致的脂质过氧化,使MDA含量减少,提高抗氧化酶SOD的活性。上述结果提示,MT可改善内毒素血症大鼠的血管反应性失调,抗氧化途径可能是其发挥保护作用的机制之一。     

慢性缺氧对自发性高血压大鼠血液动力学和血管反应性的影响

本研究观察了鼠龄10周的自发性高血压大鼠(SHR)在慢性缺氧条件下(模拟海拔5000m,15d)体动脉压(SBP)、平均肺动脉压(MPAP)、左、右心室收缩指数(LVIC、RVIC)和舒张指数(LVIR、RVIR)以及血管反应性的变化。结果表明,慢性缺氧明显阻抑SHR大鼠SBP升高(P<0.05),但使SHR大鼠MPAP升高(P<0.001)。慢性缺氧还可增大SHR大鼠LVIC和LVIR,增强SHR大鼠胸主动脉对乙酰胆碱(ACh)的舒张反应,减弱其对5-羟色胺(5-HT)的收缩反应。SHR大鼠肺动脉对ACh和5-HT的反应则与主动脉相反。实验结果提示,慢性缺氧阻抑SHR大鼠血压升高与血管反应性的改变有关。     

Glutathione depletion in vivo enhances contraction and attenuates endothelium-dependent relaxation of isolated rat aorta

Ten-day administration of the glutamate-cysteine ligase inhibitor L-buthionine-[S,R]-sulfoximine (BSO; 20 or 30 mM in drinking water) to adult male Sprague-Dawley rats induced 50-60% glutathione depletion (p<0.001) and elevated aortic ring reactive oxygen species release and tissue and plasma H2O2 concentrations (p<0.001) compared to control animals (CON) that consumed normal drinking water. In contrast to previous studies using tail cuff plethysmography methods, BSO had no significant effect on systolic blood pressure assessed by indwelling femoral artery catheters in conscious animals (10-day values, 119+/-3 mn Hg vs 122+/-4 mm Hg in CON vs BSO, respectively). Thoracic aorta rings were excised for in vitro assessment of vasomotor function. BSO shifted the phenylephrine (PE) dose-response curve to the left (p=0.003), lowering the EC50 for PE contraction (from -6.752+/-0.056 to -7.056+/-0.055 log units; p=0.001). Endothelium-dependent relaxation to acetylcholine (ACh) was significantly blunted (p=0.019) and the EC50 for ACh relaxation was significantly increased (from -7.428+/-0.117 to -7.129+/-0.048 log units; p=0.02) in BSO vs CON. Endothelium-independent vasorelaxation to sodium nitroprusside was similar in BSO and CON groups. Thoracic aorta immunoblot analyses revealed increases in endothelial nitric oxide synthase, superoxide dismutase 1 and 2, and soluble guanylate cyclase in BSO vs CON (all p<0.01). Thus, enhanced PE contraction, blunted endothelium-dependent relaxation, and adaptations in nitric oxide bioavailability pathways provide the first evidence of chronic, in vivo BSO-induced, oxidative stress-mediated direct effects on the vasomotor function of arteries.     

Coronary reperfusion in dogs inhibits endothelium-dependent relaxation: role of superoxide radicals

Previous studies indicate that release of superoxide radicals during coronary reperfusion following occlusion may relate to the loss of endothelium-dependent coronary arterial relaxation. We examined coronary arterial ring relaxation in dogs subjected to temporary circumflex (Cx) coronary artery occlusion and treated with saline or the superoxide radical scavenger superoxide dismutase (SOD). In dogs treated with saline, Cx coronary ring relaxation in response to leukotriene D4 (LTD4) and acetylcholine (ACh) was attenuated (p less than 0.01), but coronary relaxation in response to nitroglycerin was preserved, suggesting loss of endothelium-dependent relaxation following coronary reperfusion. In contrast, Cx coronary relaxation in response to LTD4 and ACh was preserved in the SOD-treated dogs (p less than 0.01 compared to saline-treated dogs). To further examine the role of superoxide radicals in the loss of endothelium-dependent relaxation, normal nonischemic canine coronary artery and rat aortic rings were exposed to a superoxide radical generating system of xanthine and xanthine oxidase in vitro. Xanthine plus xanthine oxidase treatment caused a significant (p less than 0.01) decrease in the relaxant effects of ACh. Pretreatment of rat aortic rings with SOD protected against the loss of ACh-induced relaxation. These observations suggest that release of superoxide radicals during reperfusion is the basis of loss of endothelium-dependent coronary arterial relaxation. Treatment with superoxide radical scavengers prior to coronary reperfusion protects against this loss.     

Inhibitory effect of valves on endothelium-dependent relaxations to calcium ionophore in canine saphenous vein

The present study was designed to evaluate endothelium-dependent relaxation to the calcium ionophore A-23187 in isolated canine saphenous veins. Isometric force recordings and cGMP measurements using isolated veins with and without valves were performed. During contractions to U-46619 (3 x 10(-7) M), endothelium-dependent relaxations to A-23187 (10(-9)-10(-6) M) were significantly reduced in rings with valves compared with rings without valves. Endothelial removal abolished A-23187-induced relaxation. Relaxations to forskolin (FK; 10(-8)-10(-5) M) and diethylaminodiazen-1-ium-1,2-dionate; DEA-NONOate, 10(-9)-10(-5) M) were identical in rings with and without valves. In rings without valves, a nitric oxide synthase inhibitor, N(G)-nitro-L-arginine methyl ester (L-NAME; 3 x 10(-4) M), and a cyclooxygenase inhibitor, indomethacin (10(-5) M), partially reduced A-23187-induced relaxation. However, in rings with valves, L-NAME had no effect, whereas indomethacin abolished the relaxation to A-23187. A selective soluble guanylate cyclase inhibitor, 1H-[1,2,4]-oxadiazolo [4,3-a]quinoxalin-1-one (ODQ; 3x10(-6) M), had no effect on the relaxation to A-23187 in either group. In contrast, ODQ abolished the A-23187-induced increase in cGMP levels, suggesting that relaxation to nitric oxide released by A-23187 is independent of increases in cGMP. These results demonstrate that endothelium-dependent relaxation to A-23187 is reduced in regions of veins with valves compared with relaxation in the nonvalvular venous wall. Lower production of nitric oxide in endothelial cells of valvular segments appears to be a mechanism responsible for reduced reactivity to A-23187.     

Depletion of arterial L-arginine causes reversible tolerance to endothelium-dependent relaxation

This study examined the influence of lowered arterial levels of L-arginine on endothelium-dependent relaxation of isolated rings of bovine pulmonary artery. Incubation of arterial rings under tension for 24 hr in oxygenated Krebs bicarbonate solution at 37 degrees C resulted in the development of marked or complete tolerance to A23187 (calcium ionophore)- and acetylcholine-elicited relaxation. Relaxant responses to nitric oxide were unaffected. Addition of L-arginine did not relax control rings but did elicit marked endothelium-dependent relaxation of tolerant rings that was inhibited by oxyhemoglobin or methylene blue. L-Arginine also restored acetylcholine-elicited relaxation. Inclusion of L-canavanine in the 24 hr incubations protected against the development of tolerance. The tissue concentration of arginine was 3-fold lower in tolerant than control arterial rings and L-canavanine restored arterial arginine levels to control values. Therefore, depletion of arterial L-arginine causes reversible tolerance to endothelium-dependent relaxation.     

Maturational modulation of endothelium-dependent vasodilatation in ovine cerebral arteries

To address the hypothesis that maturation enhances endothelial vasodilator function in cerebral arteries, relaxant responses to ADP and A-23187 were determined in ovine carotid and cerebral arteries harvested from 25 newborn lambs (3-7 days) and 23 adult sheep. Maturation significantly increased pD(2) values for A-23187 (newborn range: 4.9 +/- 0.3 to 5.4 +/- 0.3; adult range: 6.0 +/- 0.2 to 7.1 +/- 0.2) and the maximal vasodilator response to A-23187 by 10-18%. In contrast, maturation decreased maximum responses to ADP by 5-25% with no change in pD(2). The magnitudes of endothelium-dependent relaxation were not affected by 10 microM indomethacin but were virtually abolished by 100 microM N(G)-nitro-L-arginine methyl ester/L-nitro arginine, indicating that nitric oxide (NO) is the primary endothelium-dependent vasodilator in these arteries. Maturation also modestly decreased endothelial NO synthase (eNOS) abundance in both carotid (32%) and cerebral (26%) arteries. Together, these findings reinforce the view that receptor coupling to endothelial activation is tightly regulated and may offset underlying changes in maximal endothelial vasodilator capacity. This capacity, in turn, appears to increase with postnatal age despite major growth and expansion of endothelial cell size and vascular wall volume. In ovine cerebral arteries, endothelial vasodilator capacity appears completely dependent on eNOS activity but not on cyclooxygenase activity. In turn, eNOS activity appears to be postnatally regulated by mechanisms independent of changes in eNOS abundance alone.     

Thiopental inhibits nitric oxide production in rat aorta

We studied whether thiopental affects endothelial nitric oxide dependent vasodilator responses and nitrite production (an indicator of nitric oxide production) elicited by acetylcholine, histamine, and A23187 in rat aorta (artery in which nitric oxide is the main endothelial relaxant factor). In addition, we evaluated the barbiturate effect on nitric oxide synthase (NOS) activity in both rat aorta and kidney homogenates. Thiopental (10-100 microg/mL) reversibly inhibited the endothelium-dependent relaxation elicited by acetylcholine, histamine, and A23187. On the contrary, this anesthetic did not modify the endothelium-independent but cGMP-dependent relaxation elicited by sodium nitroprusside (1 nM - 1 microM) and nitroglycerin (1 nM - 1 microM), thus excluding an effect of thiopental on guanylate cyclase of vascular smooth muscle. Thiopental (100 microg/mL) inhibited both basal (87.8+/-14.3%) and acetylcholine- or A23187-stimulated (78.6+/-3.9 and 39.7+/-5.6%, respectively) production of nitrites in aortic rings. In addition the barbiturate inhibited (100 microg/mL) the NOS (45+/-4 and 42.8+/-9%) in aortic and kidney homogenates, respectively (measured as 14C-labeled citrulline production). In conclusion, thiopental inhibition of endothelium-dependent relaxation and nitrite production in aortic rings strongly suggests an inhibitory effect on NOS. Thiopental inhibition of the NOS provides further support to this contention.