内源性一氧化碳与一氧化氮在高血压发病中的相互作用 …

目的和方法：采用ＨＯ活性抑制剂诱导大鼠高血压模型,观察血压变化、主动脉ＨＯ和ＮＯＳ活性、ＣＯ和ＮＯ产生释放,并测定血浆和主动脉平滑肌组织中ｃＧＭＰ含量,以探讨内源性ＮＯ和ＣＯ在高血压发生机制中的作用及其相互关系。结果：大鼠应用ＨＯ抑制剂ＺｎＤＰＢＧ腹腔注射２周后,继续饲养到第４周出现持续而稳定的高血压,同时总ＮＯＳ（ｔＮＯＳ）和诱导型ＮＯＳ（ｉＮＯＳ）的活性分别增加４５．４％和７３．３％（均为Ｐ〉     

内毒素诱导兔肺动脉平滑肌iNOS生成中NF—κB作用的探讨

目的和方法：实验采用内毒素的主要成分脂多糖（ＬＰＳ）离体孵育去内皮兔肺动脉环方法,观察血管收缩性的改变,并加入诱生型ＮＯ生成抑制剂氨基胍（ＡＧ）以及核转录因子（ＮＦκＢ）的拮抗剂吡咯烷二硫代氨基甲酸盐（ＰＤＴＣ）后观察了血管收缩性的变化。结果：ＬＰＳ孵育１６ｈ后血管环对新福林（ＰＥ）的反应性明显减低（Ｐ＜０．０１）,与ＬＰＳ孵育组比较,ＬＰＳ与ＡＧ共同孵育后血管环反应性增加,ＰＤＴＣ预孵育血管环后再用ＬＰＳ孵育,血管环反应性也较ＬＰＳ孵育的血管环反应明显增加。经ＬＰＳ孵育的血管环用ＮＯ生成抑制剂Ｌ硝基精氨酸（ＬＮＮＡ）处理后,对血管收缩剂ＰＥ的反应性有明显增加,而ＰＤＴＣ预孵育组的血管环用ＬＮＮＡ处理后收缩反应性无明显增加。结论：ＬＰＳ离体孵育去内皮肺动脉后,血管平滑肌ｉＮＯＳ诱生,致使血管反应性降低,而ＮＦκＢ在肺动脉平滑肌ｉＮＯＳ诱生中起信息传递作用。     

耐力训练对大鼠肝脏,股四头肌谷胱甘肽抗氧化系统酶活性的影响

目的和方法：本文通过检测大鼠肝脏、股四头肌中ＧＳＨＰＸ、谷胱甘肽转硫酶（ＧＳＴ）、谷胱甘肽还原酶（ＧＲ）活性及脂质过氧化（ＬＰＯ）产物丙二醛（ＭＤＡ）的含量变化,观察耐力训练对大鼠机体产生内源性自由基及谷胱甘肽抗氧化系统酶活性的影响。结果：ＳＤ雄性大鼠经１１周跑台训练后,安静状态时肝脏中ＭＤＡ含量下降,ＧＳＨＰＸ、ＧＳＨ活性下降,股四头肌中ＧＳＨＰＸ、ＧＳＴ活性升高;９０ｍｉｎ定量负荷运动使大鼠肝脏中ＭＤＡ含量升高,ＧＳＨＰＸ、ＧＳＴ、ＧＲ活性均下降,但训练组ＧＳＨＰＸ、ＧＳＴ活性恢复较快。结论：大鼠经耐力训练后提高了谷胱甘肽抗氧化系统酶的抗氧化功能,表现了良好的运动适应性,且恢复较快。值得注意的是训练组大鼠ＧＲ活性在运动后恢复期存在下降趋势,其机理有待进一步研究。     

高氧预适应对大鼠心肌缺血损伤时抗氧化酶的影响

抗氧化酶具有减轻心肌缺血再灌注损伤的作用,在抗氧化酶中,比较重要的是超氧化物歧化酶（ＳＯＤ）,谷胱甘肽过氧化物酶（ＧｌｕｔａｔｈｉｏｎｅＰｅｒｏｘｉｄａｓｅ,ＧＳＨｐｘ）和过氧化氢酶（ＣＡＴ）。为了解高氧预适应（ＨｙｐｅｒｏｘｉｃＰｒｅｃｏｎｄｉｔｉｏｎｉｎｇ,ＨＯＰ）对大鼠心肌缺血损伤时抗氧化酶的影响,本实验将实验组大鼠放入高压氧舱内,每日吸８０－８５％氧气（１ａｔｍ,１５－２０％为氮气）６ｈ,连续７ｄ。利用Ｌａｎｇｅｎｄｏｒｆ装置做成心肌缺血再灌注模型。实验动物随机分为二个部分。第一部分可逆性心肌缺血（ＨＯＰＡ组与对照Ａ组）：缺血１０ｍｉｎ,再灌注６０ｍｉｎ。观察冠脉回流液中ＳＯＤ活力,检测心肌内抗氧化酶活力（ＳＯＤ,ＧＳＨｐｘ,ＣＡＴ）。第二部分不可逆性心肌缺血（ＨＯＰＢ组与对照Ｂ组）：缺血６０ｍｉｎ,再灌注６０ｍｉｎ。测定冠脉回流液中肌酸磷酸激酶（ＣＰＫ）含量,ＳＯＤ及心肌内抗氧化酶活力。结果表明：对于可逆性心肌缺血：ＳＯＤ,ＧＳＨｐｘ活力升高;对于不可逆性心肌缺血损伤：ＨＯＰ能减少ＣＰＫ释放,ＳＯＤ活力升高。     

大鼠心脏预处理后产生的内源性保护物质的研究

以外源性腺苷前质硫酸腺嘌呤大鼠心脏预处理和经典缺血预处理建立模型,监测心脏内源性保护物质的变化。方法：采用２５０～３００ｇＳＤ大鼠３２只分成４组,即假手术组（ＳＯ组）、缺血再灌组（Ｉ／Ｒ组）、经典缺血预处理组（ＩＰＣ组）及硫酸腺嘌呤预处理组（ＡＳＰＣ组）。比较各组心肌内源性保护物质的变化。结果：ＩＰＣ组、ＡＳＰＣ组均显示缩小心梗面积、改善心功能的ＩＰＣ效应,同时,肌酸激酶（ＣＫ）、过氧化氢酶（ＣＡＴ）、５”核苷酸酶（５’ＮＴ）、超氧化物歧化酶（ＳＯＤ）活性增强以及一氧化氮（ＮＯ）含量增高,热休克蛋白７０（ＨＳＰ７０）ｍＲＮＡ表达增强。结论：ＣＫ、ＣＡＴ、５’ＮＴ、ＳＯＤ、ＮＯ及ＨＳＰ７０是大鼠腺苷性和缺血性心脏预处理后产生的重要的内源性保护物质。     

钙对水稻幼苗抗冷性的影响

ＣａＣｌ２浸种提高水稻幼苗叶片中结合态钙、内源抗氧化剂（ＧＳＨ、ＡｓＡ）含量和膜保护酶（ＣＡＴ、ＳＯＤ和ＰＯＤ）活性,也增加可溶性蛋白质中煮沸稳定蛋白质（ｂｏｉｌｉｎｇ－ｓｔａｂｌｅｐｒｏｔｅｉｎ）的含量。冷胁迫期间,ＣａＣｌ２并能减少因冷胁迫引起的ＧＳＨ、ＡｓＡ含量,ＣＡＴ、ＳＯＤ和ＰＯＤ活性以及煮沸稳定蛋白质下降的程度。在恢复期间,经ＣａＣｌ２处理的幼苗其ＧＳＨ、ＡＳＡ、ＣＡＴ、ＳＯＤ和ＰＯＤ以及煮沸稳定蛋白质水平均有回升。     

低氧大鼠肺动脉内皮细胞VEGF变化与PKC活性关系的探讨

目的：探讨低氧培养大鼠肺动脉血管内皮细胞ＶＥＧＦ的表达变化与ＰＫＣ活性的关系。方法：培养大鼠肺动脉血管内皮细胞,观察低氧（１％Ｏ２）培养不同时间大鼠肺动脉血管内皮细胞浆、膜ＰＫＣ活性和培养液中ＶＥＧＦ水平变化;加入ＰＫＣ抑制剂（ｓｔａｕｒｏｓｐｏｒｉｎｅ）后,测定低氧、常氧培养不同时间二者的变化。结果：低氧时膜ＰＫＣ活性和培养液中ＶＥＧＦ水平明显升高（Ｐ＜０．０１）。而加入ＰＫＣ抑制剂后,常氧和低     

6BA诱导的带正电荷的葡萄叶过氧化物酶

河岸葡萄叶的带正电荷过氧化物酶（ｃａｔｉｏｎｉｃ ｐｅｒｏｘｉｄａｓｅ, ＣＰＯＤ） 可受６ＢＡ 诱导,但盐、Ｈ２Ｏ２ 或Ｆｅ２＋＋ Ｈ２Ｏ２ 均使叶片ＣＰＯＤ 活性明显下降,而高浓度的无机盐明显刺激纯ＣＰＯＤ 活性增加。在以愈创木酚为底物时ＣＰＯＤ 最适ｐＨ 为４ ．６０ ～５ ．７５ ,对Ｈ２Ｏ２ 的表观Ｖｍａｘ 和Ｋｍ 值分别为１１０ Ｕ／ｍｇ 蛋白和１ ．１５ｍ ｍｏｌ／Ｌ。     

肺血管EDNO及其合酶在大鼠低氧性肺动脉高压形成中的作用

本研究观察了低氧对大鼠肺组织和血管内皮一氧化氮合酶（ＮＯＳ）活性及内皮衍生一氧化氮（ＥＤＮＯ）依赖性舒张反应的影响,以及ＮＯＳ抑制剂（Ｌ－ＮＡＭＥ）对常氧和低氧大鼠肺组织和血管内皮ＮＯＳ活性及颈、肺动脉血压（ＣＡＰｓ、ｍＰＡＰ）的作用。结果表明常氧大鼠肺泡内无肌性血管内皮未见ＮＯＳ活性,其肺血管床对ＥＤＮＯ依赖性舒血管物质ＢＫ没有反应,注射Ｌ－ＮＡＭＥ后大鼠ｍＰＡＰ略有降低,ＣＡＰｓ有所升高。低氧大鼠肺泡内无肌性血管内皮显示ＮＯＳ活性,对ＢＫ的ＥＤＮＯ依赖性舒张反应呈剂量依赖性增大,注射Ｌ－ＮＡＭＥ使低氧大鼠ｍＰＡＰ显著降低（Ｐ＜０．０１）,ＣＡＰｓ显著升高（Ｐ＜０．０５）。提示肺血管ＥＤＮＯ及其合酶在维持正常成年大鼠肺循环低压低阻中的生理作用值得进一步探讨;低氧引起肺血管内皮ｅｃＮＯＳ活性增加和ＥＤＮＯ生成增多可能起到限制肺动脉压过度升高的调制作用,也可能对肺血管内皮产生毒性作用,反而促进肺动脉高压的发生和发展。     

内源性CO对内皮素促大鼠主动脉平滑肌细胞增殖及MAPK活性的影响

血红素加氧酶（ｈｅｍｅ ｏｘｙｇｅｎａｓｅ,ＨＯ）是血红素分解代谢过程中的限速酶,它能使细胞内的血红素降解成胆绿素和一氧化碳（ｃａｒｂｏｎｍｏｎｏｘｉｄｅ,ＣＯ）,近来资料表明内源性一氧化碳对生理和病理状态下的血管张力有重要的调节作用,目前尚不不禁内源性ＨＯ／ＣＯ刘否参与平滑肌细胞增殖过程的调节,本实验在体内培养的大鼠主动脉平滑肌细胞模型上,用血色素加氧酶抑制剂卟啉锌－９（ｚｉｎｃ ｐｒｏｔｏｐｏ     

内源性一氧化碳在大鼠败血症性休克时 低血压发生机制中的作用

A sepsis model induced by cecal ligation and puncture was used to study the role of endogenous carbon monoxide in hypotension pathogenesis of rats during septic shock. After administration of zinc deuteroporphyrin 2,4-bisglycol (ZnDPBG),an inhibitor of heme oxygenase (HO),blood pressure (BP),HO activity and carbon monoxide (CO) release from vascular muscle tissue were measured. The results showed that BP of sepsis rats,including systolic and diastolic arterial BP,decreased significantly while HO activity and CO content were significantly increased. In contrast,after administration of ZnDPBG,BP of sepsis rats was significantly increased while the HO activity and CO production were significantly decreased. These findings suggest that HO activity and CO release within vascular musculature are increased during septic shock;inhibition of HO may elevate BP of rats during septic shock through a decrease of endogenous CO production. It is concluded that endogenous CO derived from vascular muscle cells plays an important role in regulating vascular tone,and the up-regulation of HO activity followed by subsequent CO production contributes to hypotension pathogenesis during septic shock.     

内源性一氧化碳在大鼠败血症休克时低血压发生机制中的作用

A sepsis model induced by cecal ligation and puncture was used to study the role of endogenous carbon monoxide in hypotension pathogenesis of rats during septic shock. After administration of zinc deuteroporphyrin 2,4-bisglycol (ZnDPBG),an inhibitor of heme oxygenase (HO),blood pressure (BP),HO activity and carbon monoxide (CO) release from vascular muscle tissue were measured. The results showed that BP of sepsis rats, including systolic and diastolic arterial BP, decreased significantly while HO activity and CO content were significantly increased. In contrast, after administration of ZnDPBG, BP of sepsis rats was significantly increased while the HO activity and CO production were significantly decreased. These findings suggest that HO activity and CO release within vascular musculature are increased during septic shock; inhibition of HO may elevate BP of rats during septic shock through a decrease of endogenous CO production. It is concluded that endogenous CO derived from vascular muscle cells plays an important role in regulating vascular tone, and the up-regulation of HO activity followed by subsequent CO production contributes to hypotension pathogenesis during septic shock.     

内源性一氧化碳在大鼠高血压发病中的作用

本实验研究内源性血红素氧化酶／一氧化碳系统在大鼠高血压发病听作用。２,４二甘油次卟啉锌是体内ＨＯ活必抑制剂 。     

Metabolic syndrome increases endogenous carbon monoxide production to promote hypertension and endothelial dysfunction in obese Zucker rats

Vascular heme oxygenase (HO) metabolizes heme to form carbon monoxide (CO). Increased heme-derived CO inhibits nitric oxide synthase and can contribute to hypertension via endothelial dysfunction in Dahl salt-sensitive rats. Obese Zucker rats (ZR) are models of metabolic syndrome. This study tests the hypothesis that endogenous CO formation is increased and contributes to hypertension and endothelial dysfunction in obese ZR. Awake obese ZR showed increased respiratory CO excretion, which was lowered by HO inhibitor administration [zinc deuteroporphyrin 2,4-bis glycol (ZnDPBG) 25 micromol.kg(-1).24 h(-1) ip]. In awake obese ZR, chronically instrumented with femoral arterial catheters, blood pressure was elevated but was decreased by the HO inhibitor ZnDPBG. Body weight, blood glucose, glycated hemoglobin, plasma insulin, total and LDL cholesterol, oxidized LDL, and triglyceride levels were elevated in obese ZR, and, except for LDL cholesterol, were unchanged by HO inhibition. Total HO-1 protein levels were not different between lean and obese ZR aortas. In vitro experiments used isolated skeletal muscle arterioles with constant pressure and no flow, or constant midpoint, but altered endpoint pressures to establish graded levels of luminal flow. In obese ZR arterioles, responses to ACh and flow were attenuated. Acute in vitro pretreatment with an HO inhibitor, chromium mesoporphyrin, enhanced ACh and flow-induced dilation and abolished the differences between groups. Furthermore, exogenous CO prevented the restoration of flow-induced dilation by the HO inhibitor in obese ZR arterioles. These results suggest that HO-derived CO production is increased and promotes hypertension and arteriolar endothelial dysfunction in obese ZR with metabolic syndrome independent of affecting metabolic parameters.     

内源性一氧化碳减轻大鼠双侧后肢缺血再灌注所致的肺损伤

通过观察血红素氧化酶（HO）阻断剂－－锌原卟啉（ZnPP)对肺组织、肺泡间质多形核白细胞数目肺组织丙二醛含量和湿重干重之比的影响,并对肺组织HO活性和血内碳氧血红蛋白水平（COHb）进行检测,以探讨内源性HO／一氧化碳（CO）在肢体缺血再灌注（I／R）所致肺损伤中的作用。结果发现,大鼠双侧后肢I／R可导致急性肺损伤,同时使肺组织中HO活性和血内COHb水平显著升高;应用ZnPP预处理可使HO活性和COHb水平显著降低,但肺损伤却进一步加重。上述实验结果表明,肢体I／R致肺损伤时,肺组织中HO活性和内源性CO生成增多或减轻大鼠肢体I／R所致的肺损伤。     

Thermoregulatory response to hypoxia after inhibition of the central heme oxygenase–carbon monoxide pathway

(1) Centrally acting carbon monoxide (CO) seems to play thermoregulatory actions, but no report exists about its role in hypoxia-induced anapyrexia. (2) CO arises from the catabolism of heme by heme oxygenase (HO), an enzyme that is overexpressed during hypoxia. Thus, we tested the hypothesis that the central HO–CO pathway modulates hypoxia-induced anapyrexia by means of intracerebroventricular injection of the HO inhibitor ZnDPBG. (3) Core temperature (T_C) of awake rats was determined by biotelemetry. ZnDPBG did not alter basal T_c, but it exacerbated hypoxia-induced anapyrexia, indicating that the central HO–CO pathway is a modulator of hypoxia-induced anapyrexia, probably preventing excessive decreases in T_c.     

The regulating effect of heme oxygenase/carbon monoxide on hypoxic pulmonary vascular structural remodeling

Hypoxic pulmonary vascular structural remodeling (HPVSR) is the important pathologic basis of hypoxic pulmonary hypertension (HPH). The discoveries of endogenous gaseous messenger molecules, nitric oxide (NO) and carbon monoxide (CO), have been moving the research of HPVSR to a very new phase. But the effect and significance of heme oxygenase (HO)/CO on the development of HPVSR have not been fully understood. In this study, we observed the alteration of endogenous HO/CO system in five time points during 14 days and found that the content of CO in lung homogenates in rats with HPVSR increased in a time-dependent double-peak manner. Exogenous supply of ZnPP-IX, an inhibitor of HO-1, decreased the content of CO in lung homogenate, decreased the expression of Fas and apoptotic cells in pulmonary artery smooth muscle cells (PASMCs), up-regulated the expression of PCNA in PASMCs, and worsened HPH and HPVSR of hypoxic rats. Meanwhile, exogenous supply of CO played an adverse action. The results showed that the up-regulation of HO/CO exerted a protective role in the development of HPVSR.     

Heme oxygenase-mediated vasodilation involves vascular smooth muscle cell hyperpolarization

Chronic hypoxia is associated with both blunted agonist-induced and myogenic vascular reactivity and is possibly due to an enhanced production of heme oxygenase (HO)-derived carbon monoxide (CO). However, the mechanism of endogenous CO-meditated vasodilation remains unclear. Isolated pressurized mesenteric arterioles from chronically hypoxic rats were administered the HO substrate heme-l-lysinate (HLL) in the presence or absence of iberiotoxin, 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ), ryanodine, or free radical spin traps (N-tert-butyl-alpha-phenylnitrone and 4,5-dihydroxy-1,3-benzenedisulfonic acid disodium salt). The effects of HLL administration on vascular smooth muscle (VSM) membrane potential were assessed in superior mesenteric artery strips in the presence and absence of zinc protoporphyrin IX or iberiotoxin. The vasodilatory responses to exogenous CO were assessed in the presence and absence of ODQ or iberiotoxin. HLL administration produced a dose-dependent vasodilatory response that was nearly eliminated in the presence of iberiotoxin. Neither ODQ, spin traps, nor ryanodine altered the vasodilatory response to HLL, although ODQ abolished the vasodilatory response to S-nitroso-N-acetyl-penicillamine. HLL administration produced a zinc protoporphyrin IX- and iberiotoxin-sensitive VSM cell hyperpolarization. Iberiotoxin and ODQ inhibited the vasodilatory response to exogenous CO. Thus the vasodilatory response to endogenous CO involves cGMP-independent activation of VSM large-conductance Ca2+-activated K+ channels and does not likely involve the formation of Ca2+ sparks emanating from ryanodine-sensitive stores.