缺氧时肺动脉内皮细胞与肺动脉平滑肌细胞增殖的相互影响

血管内皮细胞和血管平滑细胞在结构和功能上关系密切,两者的相互在与血管舒缩笔血和壁结构。本文观察了培养的小牛肺动脉内皮细胞（ＰＡＥＣｓ）和肺动平滑肌细胞（ＰＡＳＭＣＳ）缺氧时在细胞增殖方面的相互影响。ＰＡＳＭＣＳ常氧条件培养基（ＣＭ）可使ＰＡＥＣＳ的＾３Ｈ－ＴｄＲ掺入降低约５８％,缺氧ＣＭ对ＰＡＥＣＳ的＾３Ｈ－ＴｄＲ掺入无明显的抑制作用;ＰＡＥＣＳ的常氧ＣＭ使ＰＡＳＭＳ的＾３Ｈ－ＴｄＲ掺入升高约６０     

生长抑素对实验性癫痫大鼠海马CA1区的作用

在大鼠海马ＣＡ１区微量注射０．０３－０．３ｎｍｏｌ生长抑素（ｓｏｍａｔｏｓｔａｔｉｎ,ＳＳ）后,皮层脑电出现单个或成串的棘尖波,平均脑电总功率著升高,并且在一定范围内（０．００６－０．１５ｎｍｏｌ）具有剂量依赖性。在海马ＣＡ１微量注射０．０３－０．３ｎｍｏｌＳＳ可诱发大鼠表现出痫样行为,并可加重红藻氨酸诱导的大鼠痫样活动。在９５个大鼠海马脑片上细胞外记录ＳＳ对ＣＡ１区青霉素诱导的１１４个痫样放电单     

川芎嗪加强豚鼠乳头状肌慢内向电流的作用

川芎嗪剂量依赖性地平加正常豚鼠乳头状肌收缩力（ＦＣ）,延长快反应动作电位时程（ＡＰＯ）。川芎嗪使氯化钡或组织胺诱发的慢反应电位（ＳＡＰ）的动作电位幅值（ＡＰＡ）,ＡＰＤ,最大除极速率（Ｖｍａｘ）及ＦＣ呈剂量依赖性增加。３．０ｍｍｏｌ／Ｌ的川芎嗪可直接诱发高钾除极化,钠通道失活的豚鼠乳头状肌的ＳＡＰ和收缩,加入１μｍｏｌ／Ｌ维拉帕米后１０ｍｉｎ内,ＳＡＰ及收缩逐步消失,但川芎嗪不能在儿茶酚胺耗竭或普     

学习过程中MF—CA3与PP—CA3突触传递效应的变化

应用慢性电极埋植技术以电生理学结合行为学的方法,探查在学习过程中大鼠海马ＣＡ３区两种不同输入突触（ＭＦ－ＣＡ３突触和ＰＰ－ＣＡ３突触）塑性变化及其相互关系。结果如下：（１）在分辨反应的建立过程中,在ＣＡ３区由ＭＦ诱导（ＭＦ－ＣＡ３）的群体锋电位和由ＰＰ诱地（ＰＰ－ＣＡ３）的群休锋电位,两者的峰值同步增大,同步达最高水平,且ＰＳ峰值达最高水平先于行为反应达学会标准;（２）在自然消退过程中,两者的ＰＳ     

四乙铵对缺氧时海马脑片诱发电位的影响

四乙铵对缺氧时海马脑片诱发电位的影响李凤敏徐淑梅沙日娜１（天津医科大学生理教研室,天津３０００７０,天津职工医学院生理教研室,天津３０００５２）海马脑片缺氧后,ＣＡ１区锥体神经元诱发群锋电位（ｐｏｐｕｌａｔｉｏｎｓｐｉｋｅ,ＰＳ）呈现出一个特征性的时...     

学习过程中MF－CA3与PP－CA3突触传递效应的变化

应用慢性电极埋植技术以电生理学结合行为学的方法,探查在学习过程中大鼠海马ＣＡ３区两种不同输入突触（ＭＦ－ＣＡ３突触和ＰＰ－ＣＡ３突触）的可塑性变化及其相互关系。结果如下：（１）在分辨反应的建立过程中,在ＣＡ３区由ＭＦ诱发（ＭＦ－ＣＡ３）的群体锋电位（ｐｏｐｕｌａｔｉｏｎｓｐｉｋｅ,ＰＳ）和由ＰＰ诱发（ＰＰ－ＣＡ３）的群体锋电位,两者的峰值同步增大,同步达最高水平,且ＰＳ峰值达最高水平先于行为反应达学会标准;（２）在自然消退过程中,两者的ＰＳ峰值也是同步恢复至训练前水平的。结果表明,在ＣＡ３区这两种输入突触的习得性ＬＴＰ的产生和消退都是同步的,提示了它们之间可能具有协同作用。     

内皮素－1对缺氧肺动脉平滑肌细胞的增殖作用

内皮素（ＥＴ）是至今所发现的最强的内源性血管收缩肽,近年来发现ＥＴ－１能促进血管平滑肌细胞增殖。本研究表明ＥＴ－１对缺氧培养的肺动脉平滑肌细胞（ＰＡＳＭＣ）有剂量依赖的增殖作用,缺氧可促进ＰＡＳＭＣ的ＤＮＡ合成且增加ＥＴ－１的丝裂原作用。ＥＴ－１的丝裂原作用主要由其Ａ型受体（ＥＴＲ＿Ａ）所介导,ＥＴＲ＿Ａ的特异拮抗剂ＢＱ１２３可显著抑制缺氧以及缺氧与ＥＴ－１协同所产生的增殖作用,而且发现ＥＴＲ＿Ａ在缺氧培养的ＰＡＳＭＣ中的表达显著高于常氧对照组ＰＡＳＭＣ。本研究表明ＥＴ－１参与了缺氧性肺动脉结构重组,而缺氧可增强ＰＡＳＭＣ对ＥＴ－１的增殖反应性。     

血管紧张素Ⅱ对大鼠心肌肌浆网Ca~(2+),Mg~(2+)-ATPase基因转录调节的影响

观察血管紧张素Ⅱ（ＡｎｇⅡ）对心肌肌浆网Ｃａ２＋,Ｍｇ２＋－ＡＴＰａｓｅ基因（ＳＥＲＣＡ２ａ）转录调节的影响,评价ＤＭＰ８１１对此效应的干预作用．６周龄雄性ＳＤ大鼠随机分为３组,每组６只．组１：生理盐水输注;组２：ＡｎｇⅡ输注＋ＤＭＰ８１１管饲（３ｍｇ·ｄ－１·ｋｇ－１）;组３：ＡｎｇⅡ输注（２００ｎｇ·ｍｉｎ－１·ｋｇ－１．１周后称其体重,取心脏并称重,提取心脏总ＲＮＡ后采用Ｎｏｒｔｈｅｒｎｂｌｏｔ的方法检测ＳＥＲ－ＣＡ２ａ的转录水平,采用ＲＴ－ＰＣＲ检测ＡｎｇⅡ１型受体（ＡＴ１）ｍＲＮＡ水平．实验后,组３心重（ＣＷ）、心重／体重（Ｃ／Ｂ）、ＡＴ１受体转录水平均高于组１（分别增加４．７±０．４％,４．９±０．９％和２４．７±３．５％;Ｐ＜０．０１）,而ＳＥＲＣＡ２ａ基因转录水平显著低于组１（降低２０．１±３．０％,Ｐ＜０．０１）,并且ＳＥＲＣＡ２ａｍＲＮＡ水平与ＡＴ１受体ｍＲＮＡ水平呈负相关（ｒ＝－０．７４,Ｐ＜０．０１）．ＡｎｇⅡ导致的上述改变能被ＤＭＰ８１１完全阻断．ＡｎｇⅡ通过其Ⅰ型受体的介导,诱导了ＳＥＲＣＡ２ａ的转录下调     

腺苷对缺氧时海马神经元内游离Ca^2＋的影响

实验用Ｆｌｕｏ－３负载细胞,在激光扫描共聚焦显微镜下直接监测缺氧后分散培养的大鼠海马ＣＡ１区神经元内游离Ｃａ＾２＋浓度（［Ｃａ＾２＋］ｉ）的变化,观察腺苷对这种变化的影响并初步探讨其作用机制。结果发现,急性缺氧使海马神经元［Ｃａ＾２＋］ｉ显著升高;腺苷（１００μｍｏｌ／Ｌ）明显抑制缺氧引起的［Ｃａ＾２＋］ｉ增高,腺苷Ａ１受体拮抗剂ＣＰＴ以及Ｋ＾＋通道阻断剂４－ＡＰ和ＡＴＰ敏感性Ｋ＾＋通道阻断剂ｇｌ     

脑缺血／再灌流选择性CA1区损害对海马θ节律的影响

本实验观察了乌拉坦浅麻醉下的大鼠海马不同部位在脑缺血／再灌流所致的选择性ＣＡ１区损害前后θ节律的变化,以及海马部位的组织病理改变。结果发现在缺血前和对照组,单侧海马慢性植入电极记录到的同侧海马浅θ波和深１－θ波位相一致,且与深２－θ波位相相反。深２－θ暂时消失时,浅θ和深１－θ仍可正常存在;浅θ和深１－θ消失时,深２－θ亦可存在。双侧海马电活动记录组,观察到的浅θ和对侧的深２－θ波无恒定位相关系。前脑缺血２０ｍｉｎ,再灌流１２ｈ内,海马各部θ节律可逐渐恢复至缺血前水平。２４ｈ后,波幅再次明显降低,而位相关系无变化。４８ｈ后,光镜下可见ＣＡ１区神经元发生损害;海马其余部位及隔区神经元无明显病理改变。实验结果提示：海马浅θ和深１－θ具同一发生器,深２－θ为另一发生器产生。ＣＡ１区神经元功能结构的完整,对于海马各部θ节律的维持起着重要作用。脑缺血／再灌流后海马θ节律的变化反映ＣＡ１区神经元受到损害。     

Downregulation of nitric oxide in the brain of mice during their hypoxic preconditioning.

An animal model of hypoxic preconditioning was produced in mice by repeated exposure to autohypoxic condition. The animals' tolerance times to hypoxia were 1.7, 1.8, 2.1, and 2.3 times longer in runs 2, 3, 4, and 5, respectively, than that in run 1, and their oxygen consumption and heart and respiration rates were progressively and significantly slowed down during the repetitive exposure to hypoxia. L-Arginine concentration, nitric oxide (NO) synthase-positive cells, NO synthase activity, and NO content in the whole brain and the subregions telencephalon, diencephalon, and brain stem were significantly increased during the first exposure and were, instead of continuing to increase, significantly decreased in run 4 after the second and third exposure. Tolerance times under the hypoxic condition were significantly shortened and prolonged when preadministration of L-arginine and its analog, respectively, was made. These results indicate that NO in the brain is downregulated under condition of hypoxic preconditioning and negatively involved in increased tolerance to hypoxia.     

急性重复缺氧对小鼠脑组织腺苷及其A1受体的影响

分别应用酶鉴别分光光度法和放射性配体结合法测定小鼠脑组织腺苷（ａｄｅｎｏｓｉｎｅ,ＡＤＯ）含量及Ａ１受体在急性重复缺氧过程中的变化。发现经急性重复缺氧处理的动物全脑内ＡＤＯ含量有一定程度的累积增加,尤其在海马、脑桥和延髓处的增加较为显著;各脑区Ａ１受体的数目显著低于正常对照组,但海马、脑桥和延髓处Ａ１受体的亲和力显著高于正常对照组。结果提示,重复缺氧后虽然脑内Ａ１受体数目减少,但由于海马、脑桥和延髓处Ａ１受体的亲和力升高,累积增加的ＡＤＯ和Ａ１受体结合后,抑制神经细胞兴奋性的作用仍可能得到加强,从而使ＡＤＯ仍能更好地发挥抑制性神经调制作用。     

Role of excitatory amino acids in hypoxic preconditioning.

We examined the effects of the extrinsic ionotropic NMDA receptor agonist (aspartate) and antagonist (ketamine) on the hypoxic preconditioning of mice and the concentration changes of intrinsic excitatory amino acids (EAAs), aspartate and glutamate, in the whole brain and different brain regions during preconditioning by an HPLC method. Our results showed that aspartate and ketamine significantly prolonged and shortened the standard tolerance time of mice during preconditioning and survival time in hypobaric chambers, respectively. After the 1st exposure, EAA concentrations in the whole brain and brain regions were increased. After run 4, they were decreased or maintained. It is suggested that the activation and suppression of ionotropic NMDA receptors is harmful and beneficial to hypoxic preconditioning, respectively. Degradation and/or inactivation of EAAs might be beneficial to the tolerance of mice to hypoxia.     

Changes of adenosine and its A(1) receptor in hypoxic preconditioning.

Effects of hypoxic preconditioning on adenosine (ADO) and its A(1) receptor were studied in Kunming mice. The ADO content and its metabolites in the brain were measured by a specific enzymatic method; a radioligand binding method was used to study the ADO A(1) receptor. The ADO content of the hippocampus in group C (exposure to 4 runs of hypoxia) was markedly higher than that in group A (control, without exposure to hypoxia and B (exposure to 1 run of hypoxia), showing that the ADO content could be cumulatively increased in the hippocampus, which was more sensitive to ischemia and hypoxia, during acute and repeated exposure to hypoxia. A(1) receptor density in group C was significantly lower than in group A and no difference was seen between groups B and C; A(1) receptor affinity in the hippocampus, pons and medula oblongata in group C was significantly higher than in group A, implying that during hypoxic preconditioning there might be some mechanisms preventing A(1) receptor density from decreasing further and making A(1) receptor affinity increase in some brain regions. These results indicate that cumulatively increased ADO in the hippocampus via A(1) receptor may play a neuroprotective role in the CNS as an inhibitory neuromodulator and thus contribute to the formation and development of acute hypoxic adaptation or tolerance.     

Protein binding of NADH on chemical preconditioning

Chemical preconditioning, an emerging neuroprotective strategy described in recent years, results in preserved energy metabolism during hypoxia via yet unknown mechanisms. The hypoxic increase of NADH content is attenuated by preconditioning. The goal of the present study was to investigate whether attenuation of the hypoxic NADH increase is due to a shift between free and protein-bound NADH. NADH in solution has a fluorescence maximum at 469.2 nm. In untreated mouse hippocampal slices, lambda(control onset) is 456.2 +/- 5.3 nm in CA1 (mean +/- SD; p < 0.01 vs. solution) and 454.6 +/- 6.1 nm in CA3 [p < 0.01 vs. solution, not significant (NS) to lambda(control onset) in CA1]. In slices prepared from animals pretreated in vivo with 20 mg/kg 3-nitropropionate, lambda(preconditioning onset) is 439.2 +/- 5.0 nm (p < 0.001 vs. control) in CA1 and 434.2 +/- 6.4 nm in CA3 (p < 0.001 vs. control; NS to lambda(preconditioning onset) in CA1). In controls, the fluorescence maximum shifts to lambda(control hypoxia) 458.2 +/- 1.3 nm in CA1 (NS vs. onset) and 456.0 +/- 3.6 nm in CA3 (NS vs. onset). On preconditioning with 3-nitropropionate, lambda(preconditioning hypoxia) shifts to 446.4 +/- 4.3 nm in CA1 (p < 0.03 vs. onset) and 438.6 +/- 6.9 nm in CA3 (p < 0.03 vs. onset). Posthypoxic decay of free and protein-bound NADH is diminished after preconditioning. We conclude that the free NADH level is reduced on an increase of hypoxic tolerance by chemical preconditioning. Reduction of free NADH content is maintained during hypoxia after preconditioning.     

嗜卷书虱气调抗性形成过程中能源物质的积累与利用

报道了嗜卷书虱对高二氧化碳,低氧气调抗性形成过程中能源物质的积累以及抗性形成后在气调胁迫下能源物质的利用情况。结果表明随着抗性水平的提高。嗜卷书虱体内甘油三酯,多糖以及游离氨基酸含量均显升高。在气调胁迫环境下,嗜卷书虱抗性品系能源物质的消耗率明显低于敏感品系,甘油三酯的积累以及在气调摁迫下缓慢消耗可能是其抗气调性的主要内在机理之一。     

Hypoxia-inducible carbonic anhydrase IX expression is insufficient to alleviate intracellular metabolic acidosis in the muscle of zebrafish, Danio rerio

Recent evidence suggests that carbonic anhydrase (CA) IX in humans is under the regulatory control of hypoxia-inducible factor and is overexpressed in certain cancers. However, little is known of its presence in nonmammalian vertebrates or its physiological function in any vertebrate. The objective of this study was to examine and characterize the presence, distribution, induction by hypoxia, and physiological function of CA IX in the zebrafish. Zebrafish CA IX was highly expressed in the eye, brain, and gastrointestinal tract and showed increased expression in the eye, brain, and muscle in response to hypoxia (water Po(2) = 24 mmHg). The hypothesis that increased CA IX expression during hypoxia would act to attenuate intracellular acidosis was then examined. Muscle intracellular pH (pH(i)) decreased after 4 h of hypoxic exposure (from 7.15 +/- 0.02 to 7.06 +/- 0.01 pH units) and did not recover by 24 h. Manipulation of extracellular CA activity via intraperitoneal injection of either bovine CA or the selective extracellular CA inhibitor F3500 revealed that although increased CA activity could fully restore pH(i), removal of extracellular activity did not result in further acidosis. An exercise-induced acidosis was also attenuated in fish treated with bovine CA; however, the increased extracellular CA expression resulting from hypoxia had no affect. These data suggest that although extracellular CA can potentially minimize the impact of hypoxia on muscle pH(i), the actual level of extracellular CA activity is likely insufficient to achieve this goal, even when enhanced by hypoxia-induced increases in CA IX expression.     

Effects of early hypoxia on breathing pattern in rabbit pups before and after vagotomy

We examined the influence of vagal pulmonary receptors exerted on the breathing pattern and inspiratory activities of phrenic nerve and intercostal electromyograms (EMG) during hypoxia in rabbit pups. Animals in their second week of life were anaesthetized with ketamine (50 mg/kg) and acepromazine (3 mg/kg) and tracheostomized. While they breathed spontaneously, we recorded tidal volume (VT), integrated phrenic activity (PHR), integrated external intercostal EMG (INT), and blood pressure (BP). To prevent secondary ventilatory depression, animals were exposed to 12% O2 (balanced with N2) for no longer than 5 min before and after vagotomy. All measurements were taken from 1 min following the onset of hypoxic exposure until the end of the run. During hypoxia, VT, PHR, and INT increased in intact rabbit pups. There was an almost immediate decrease in BP that was maintained during the total period of hypoxia exposure. Hypoxia resulted in inconsistent changes in inspiratory (TI) and expiratory (TE) time in intact animals. Following vagotomy, PHR, INT, VT, BP, and TE responses were the same as in intact animals. However, TI significantly decreased in all animals. In response to hypoxia with and without vagal feedback, INT increased less than PHR in most cases. Qualitatively similar effects of hypoxia were observed in an adult rabbit. The results reveal that the increase in VT and the shortening of TI in response to hypoxia do not depend on vagal feedback in rabbits during the early postnatal period. In fact TI shortening was significant only without vagal feedback.     

Phosphodiesterase-5 inhibition mimics intermittent reoxygenation and improves cardioprotection in the hypoxic myocardium

Although chronic hypoxia is a claimed myocardial risk factor reducing tolerance to ischemia/reperfusion (I/R), intermittent reoxygenation has beneficial effects and enhances heart tolerance to I/R. Aim of the study: To test the hypothesis that, by mimicking intermittent reoxygenation, selective inhibition of phosphodiesterase-5 activity improves ischemia tolerance during hypoxia. Adult male Sprague-Dawley rats were exposed to hypoxia for 15 days (10% O₂) and treated with placebo, sildenafil (1.4 mg/kg/day, i. p.), intermittent reoxygenation (1 h/day exposure to room air) or both. Controls were normoxic hearts. To assess tolerance to I/R all hearts were subjected to 30-min regional ischemia by left anterior descending coronary artery ligation followed by 3 h-reperfusion. Whereas hypoxia depressed tolerance to I/R, both sildenafil and intermittent reoxygenation reduced the infarct size without exhibiting cumulative effects. The changes in myocardial cGMP, apoptosis (DNA fragmentation), caspase-3 activity (alternative marker for cardiomyocyte apoptosis), eNOS phosphorylation and Akt activity paralleled the changes in cardioprotection. However, the level of plasma nitrates and nitrites was higher in the sildenafil+intermittent reoxygenation than sildenafil and intermittent reoxygenation groups, whereas total eNOS and Akt proteins were unchanged throughout. Conclusions: Sildenafil administration has the potential to mimic the cardioprotective effects led by intermittent reoxygenation, thereby opening the possibility to treat patients unable to be reoxygenated through a pharmacological modulation of NO-dependent mechanisms.