低氧训练对骨骼肌p53及其调控的线粒体有氧代谢信号通路基因表达的影响

目的:探讨低氧训练对大鼠骨骼肌p53及其调控的线粒体有氧代谢信号通路基因表达的影响,以及对线粒体有氧氧化供能能力的影响。方法:30只雄性Wistar大鼠随机分为3组(n=10),低住低练组(LoLo)、高住高练组(HiHi)和高住高练低训组(HiHiLo)。以当地海拔1 500 m为常氧环境,模拟海拔3 500 m为低氧环境,各组大鼠按训练方案训练5周后,取股四头肌行匀浆及提取线粒体。Real-time PCR检测p53、细胞色素c氧化酶合成2(SCO2),细胞色素c氧化酶亚基Ⅰ(COXⅠ)和谷氨酰胺酶2(GLS2) mRNA表达,Westem blot检测p53、SCO2、COXⅠ和GLS2蛋白表达;ELISA测定α-酮戊二酸脱氢酶(α-KGDHC),细胞色素c氧化酶(COX)及ATP合酶(ATP synthase)活性。结果:(1)与LoLo组比较,HiHi和HiHiLo组p53 mRNA水平显著升高(P<0.01),HiHiLo组p53蛋白表达水平显著下降(P<0.01);HiHi和HiHiLo组SCO2 mRNA水平和蛋白表达水平均显著升高(P<0.01);H...     

线粒体DNA编码细胞色素氧化酶亚基基因的进展

细胞色素氧化酶由13个亚基组成,其中构成级联反应核心的最大3个亚基(COXⅠ,COXⅡ和COXⅢ)由mtDNA编码,其余10个亚基(COⅣ,Ⅴa,Ⅴb,Ⅵa,Ⅵb,Ⅵc,Ⅶa,Ⅶb,Ⅶc,和Ⅷ)均由nDNA编码。COXⅠ亚基与hemea、hemea3、CuB结合,直接参与质子泵过程;COXⅡ亚基与CuA结合,位于线粒体包质面与细胞色素C进行反应;COXⅠП亚基参与氧化还原连接的质子易位过程;其余10个亚基的功能尚不明确。COX是线粒体组装所必需的基因,其表达调控与nDNA和mtDNA相互作用有关。     

缺氧肺动脉平滑肌细胞中线粒体ATP敏感钾通道开放对细胞色素C的分布及细胞增殖的作用

为了探讨线粒体ATP敏感钾通道（mitochondrial ATP-sensitive K^＋channel,mito KATP）和线粒体膜电位（△ψm）在细胞缺氧信号转导中的作用以及对缺氧肺动脉平滑肌细胞中细胞色素C在细胞内的分布及细胞增殖的影响,本实验将人肺动脉平滑肌细胞进行常氧或24h缺氧培养,并将标本分为六组：（1）对照组;（2）mito KATP,开放剂diazoxide组;（3）mito KATP阻断剂5-HD组;（4）24h缺氧组;（5）24h缺氧＋diazoxide组;（6）24h缺氧＋5-HD组。利用激光共聚焦显微镜成像法检测△、ψm;线粒体／胞浆成分分离试剂盒（Bio Vision）分离线粒体和胞浆成分后,Western blot检测两者细胞色素C;Western blot检测细胞中caspase-9的蛋白表达量;MTT法及PI染色后流式细胞仪检测细胞增殖情况。结果显示：（1）diazoxide作用24h后,R-123荧光明显增强,胞浆细胞色素C与线粒体细胞色素C的比值明显降低,caspase-9的蛋白表达显著减少,细胞增殖明显增多、凋亡减少,与正常对照组相比较,均P〈0．05;而5-HD作用24h与正常对照组比较,上述指标无明显变化（P〉0．05）。（2）缺氧24h组,结果与diazoxide组相似,R-123荧光明显增强,胞浆细胞色素C与线粒体细胞色素C的比值明显降低,caspase-9的蛋白表达显著减少,细胞增殖明显增多、凋亡减少,与正常对照组相比较,均P〈0．05;24h缺氧＋diazoxide组与缺氧组相比较,R-123荧光明显增强,胞浆细胞色素C与线粒体细胞色素C的比值明显降低,caspase-9的蛋白表达显著减少,细胞增殖明显增多、凋亡减少（P〈0．05）;而24h缺氧＋5-HD组与缺氧组比较,R-123荧光明显降低,胞浆细胞色素C与线粒体细胞色素C的比值明显升高,caspase-9的蛋白表达显著增加,细胞增殖明显减少、凋亡增多（P〈0．05）。上述实验结果提示,缺氧可以引起mito KATP,的开放以及△ψm的去极化,并进而抑制细胞色素C从线粒体释放到胞浆,抑制线粒体凋亡途径,从而参与并影响肺动脉高压的发生、发展。     

ING4、PHDs以及HIF-1α在低氧性肺动脉高压大鼠中的表达变化

目的研究大鼠低氧性肺动脉高压(hypoxic pulmonary hypertension,HPH)模型中ING4表达变化的规律及其与PHDs、HIF-1α间的相互关系。方法实验复制HPH大鼠模型,在缺氧不同时间点,测定大鼠平均肺动脉压(mPAP)及右心室肥大指数(RVHI),HE染色观察肺小动脉重塑(HPVR)。原位杂交、RT-PCR、检测肺内ING4、PHD1、PHD2、PHD3及HIF-1α的mRNA表达水平及部位,免疫组化、Western blot检测以上蛋白质表达水平及部位。结果 (1)缺氧7d后大鼠的mPAP开始上升,与对照组比较有显著性差异(P0.05),缺氧14d后出现肺血管重塑和RVHI增加,与对照组比较有显著性差异(P0.05)。HIF-1α蛋白在缺氧3d组表达均开始升高(P0.05,与对照组比),缺氧7d达高峰,14d和21d稍下降。HIF-1αmRNA在缺氧14d后表达略增高(与对照组比较P0.05)。(2)对照组PHD1蛋白质呈阳性表达,缺氧14d下降,缺氧21d保持较低水平。PHD1mRNA表达差异无显著性。对照组PHD2蛋白质和mRNA呈阳性表达,缺氧3d增高,缺氧14d达高峰,缺氧21d保持较高水平。对照组PHD3蛋白质呈弱阳性表达,缺氧3d明显增高,缺氧7d保持高水平,缺氧14d和21d下降。对照组肺小血管PHD3mRNA缺氧3d后迅速增高,缺氧14d达高峰,缺氧21d保持高水平。(3)对照组ING4蛋白质呈弱阳性表达,缺氧3d和7d后表达增高,缺氧14d达高峰,缺氧21d稍有下降。对照组ING4mRNA呈阳性表达,缺氧7d组比表达显著增高,直线相关分析表明,在缺氧组大鼠中ING4蛋白质与HIF-1α蛋白质及mPAP、RVHI、WA%负相关。结论肺动脉高压大鼠模型中ING4、PHDs和HIF-1α的表达变化,可能在HPH的发生和发展中发挥作用。     

当归对宫内缺氧新生大鼠大脑皮质神经元与VEGF mRNA表达的影响

目的 探讨宫内缺氧对新生大鼠大脑皮质神经元与VEGF mRNA表达的影响以及当归的调控作用.方法 孕14 d健康SD雌性大鼠15只,随机分为对照组、缺氧组和当归组各5只,于孕14 d开始将当归组与缺氧组孕鼠置于低张氧浓度三气培养箱中,制作胎鼠宫内缺氧模型,此前一小时按8 mL/kg分别给予当归和生理盐水尾静脉注射,对照组不缺氧,余同缺氧组.三组孕鼠分娩当日每窝随机选取新生鼠4只,取脑组织多聚甲醛固定,石蜡包埋切片、NSE mRNA、VEGF mRNA原位杂交,400倍拍照、IPP6.0软件图像分析.结果 缺氧组新生大鼠大脑皮质NSE mRNA阳性细胞数较对照组减少,积分光密度值(IOD)降低(P＜0.05),VEGF mRNA阳性细胞IOD值升高(P＜0.05);当归组新生大鼠大脑皮质NSE mRNA阳性细胞数较缺氧组增多、IOD值增高(P＜0.05),VEGF mRNA阳性细胞IOD值增高(P＜0.05).结论 宫内缺氧可致新生大鼠大脑皮质神经元受损,当归注射液对此损伤有一定保护作用,其机制可能是通过上调大脑皮质VEGF mRNA的表达而使缺氧环境改善.     

ATP浓度和缺氧暴露对大鼠脑线粒体RNA和蛋白质体外合成的影响

本文探讨介质中ATP浓度和急,慢性缺氧暴露对大鼠脑线粒体内RNA和蛋白质合成的影响。用差速离心法分离正常和低压舱模拟4000m高原急性连续缺氧暴露3d和慢性连续缺氧暴露40d大鼠脑线粒体,用体外无细胞（cell-free in vitro)^3H-UTP和^3H-Leucine掺入法分别测定线粒体RNA和蛋白质合成活性,结果显示,大鼠急性缺氧暴露后大脑皮质线粒体RNA体外合成活性降低40%,蛋白质合成活性降低60%;慢性缺氧暴露后线粒体RNA和蛋白质合成活性分别为对照的72%和76%;ATP对正常大鼠脑线粒体RNA以及蛋白质的体外合成活性的影响均呈双相性,大于或小于1mmol/L均可产生不同程度的抑制效应,结果提示,缺氧可在转录和翻译两个水平上影响脑线粒体mtDNA的表达,而慢性缺氧暴露时,线粒体半自主性功能的改善可能是机体对缺氧适应的细胞机制之一;ATP对脑线粒体内转录和释放活性的调节是一种经济有效的反馈调节方式。     

基于电镜和免疫组化的线粒体数目标志物评估肝癌的初步研究

目的:研究线粒体数目与肝癌生长的相关性。方法:利用电子显微镜技术定量肝癌组织中线粒体数目,利用免疫组织化学技术评估肝癌组织中的线粒体标志物COX Ⅳ及HSP60表达水平,分析电镜肝癌线粒体定量结果与COX Ⅳ及HSP60表达量之间的相关性,并比较肝癌中线粒体数目、COX Ⅳ及HSP60表达量与肝癌直径之间的关系。结果:与癌旁相比,肝癌组织中线粒体数目(P0.001)、COX Ⅳ及HSP60的表达量显著降低(P=0.0417,P=0.0290)。COX Ⅳ及HSP60表达水平与线粒体数目无显著相关(r~2=0.009,P=0.5468;r~2=0.056,P=0.1396)。线粒体数目与肿瘤直径显著负相关(r~2=0.1086,P=0.0434),COX Ⅳ及HSP60表达量与肿瘤直径无显著相关(r~2=0.0251,P=0.3287;r~2=0.0461,P=0.1830)。结论:线粒体数目是潜在的肝癌生长标志物。但常用的线粒体定量分子HSP60与COX Ⅳ并不能准确定量肝癌线粒体。     

Aβ25-35诱导大鼠记忆力障碍与海马细胞色素氧化酶活性及线粒体超微结构的变化

目的探讨Aβ诱导模拟人类Alzheimer's病(AD)大鼠模型中海马CA1区细胞色素氧化酶的表达和神经元线粒体超微结构的变化及其与老年性记忆力减退的关系,揭示Aβ对神经元的毒性机制.方法通过将Aβ25-35注射入海马建立阿尔茨海默病动物模型,使用Y形迷宫试验检测大鼠的学习记忆能力,运用酶组织化学方法测定大鼠海马CA1区细胞色素氧化酶活性,应用电镜观察大鼠海马CA1区神经细胞线粒体超微结构的变化.结果与对照组比较,接受Aβ注射的大鼠学习记忆能力降低(P<0.05),线粒体数量及形态发生了明显的变化,海马CA1区脑组织细胞的细胞色素氧化酶活性相对于对照组也有显著的下降(P<0.05).结论 Aβ在神经退行性变中的作用可能与细胞色素氧化酶表达下降及神经元线粒体超微结构的改变导致的细胞能量代谢障碍有关.     

线粒体分裂蛋白抑制剂在大鼠脑缺血再灌注损伤中的作用及其机制

目的:观察线粒体分裂蛋白抑制剂在大鼠脑缺血再灌注损伤中的作用,并初步探讨其在线粒体凋亡途径中的作用机制.方法:雄性Wistar大鼠48只,体重250～300 g,随机分为三组(n=16):假手术组(Sham组)、脑缺血再灌注组(I/R组)和mdivi-1预处理组(mdivi-1组),线栓法建立大鼠大脑中动脉闭塞(MCAO)模型,缺血2小时,再灌注24小时后应用流式细胞术检测神经元凋亡;Western blot法检测Cyt C蛋白的表达;RT-PCR法检测Cyt C mRNA的表达.结果:与Sham组比较,I/R组神经细胞凋亡率与CytC蛋白以及mRNA表达水平显著升高(P＜0.01).应用mdivi-1预处理后细胞凋亡率与CytC蛋白以及mRNA表达水平明显降低(P＜0.01).结论:线粒体分裂蛋白抑制剂可以明显减轻脑缺血再灌注损伤,其作用机制可能通过阻断线粒体-细胞色素C途径来抑制细胞凋亡.     

缺氧缺血性脑损伤对新生鼠脑SCN8A基因表达的影响

目的通过观察缺氧缺血致脑损伤大鼠在不同时间段SCN8A基因的表达,探讨由于缺氧缺血导致脑损伤发生的分子生物学机制。方法新生7日龄Wistar大鼠108只。随机分为对照组、假手术组、缺氧缺血组,每组分为3 h、6 h、12 h、1 d、3 d、7 d六个时点,采用Rice法制作动物模型(HIBD模型),于缺氧缺血后不同时间段处死大鼠。采用HE染色和电镜观察大鼠脑组织损伤情况;Western-blot法检测SCN8A基因表达产物Nav1.6蛋白在膜结构中含量的差异,并比较不同时点各组的差异。结果 HE染色可见缺氧缺血后大脑皮质神经元层次不清,细胞周围腔隙扩大,局部神经元坏死、崩解,形成坏死灶,周围有胶质细胞增生,毛细血管显著扩张,血管周围腔隙扩大,并有红细胞泄露到腔隙中,且损伤程度随缺氧缺血时间延长而加重。电镜观察发现缺氧缺血时间越长,脑细胞损伤愈明显,细胞膜皱褶、破碎;线粒体堆积、嵴消失、空泡化,细胞核边集化、破损。缺氧缺血组与对照组、假手术组比较,Nav1.6蛋白表达水平在缺氧缺血3 d、7 d均升高(P0.05),缺氧缺血3 h、6 h、12 h和1 d差异无统计学意义。结论缺氧缺血脑损伤后,脑组织SCN8A基因的表达提高,且在3 d、7 d时变化差异有统计学意义;缺氧缺血时Na+通道含量的改变,是造成脑细胞进一步损伤的分子生物学机制之一。     

低压缺氧对大鼠脑线粒体腺苷酸转运体特性的影响

本文探讨低压缺氧对大鼠脑线粒体内膜腺苷酸转运体（adenine nucleotide translocator,ANT）转运特性的影响。实验将雄性Wistar大鼠随机分为常氧对照组和缺氧组,后者分别连续暴露于模拟5000m高原1、5、15、30d（23h／d）。分别于平原和模拟4000m高原断头处死动物,分离脑线粒体,用抑制剂终止法测定线粒体对。H-ADP的转运效率,抑制剂滴定法测定ANT密度,HPLC测定线粒体内腺苷酸含量。结果显示：缺氧后ANT转运活性均明显低于常氧组,缺氧不同天数线粒体内膜ANT分布密度无显著改变,线粒体内（ATP＋ADP）含量下降与转运活性变化一致。以上观察结果表明,低压缺氧暴露可显著抑制ANT转运活性,降低能量产生和利用的周转率,但不改变ANT密度,提示ANT活性改变是低压缺氧时细胞能量代谢障碍的重要机制。     

棕榈酸对模拟高原低氧大鼠离体脑线粒体解耦联蛋白活性及质子漏的影响

本文旨在通过观察棕榈酸对模拟高原低氧大鼠离体脑线粒体解耦联蛋白(uncoupling proteins,UCPs)活性的影响及脑线粒体质子漏与膜电位的改变,探讨UCPs在介导游离脂肪酸对低氧时线粒体氧化磷酸化功能改变中的作用.将SpragueDawley大鼠随机分为对照组、急性低氧组和慢性低氧组.低氧大鼠于低压舱内模拟海拔5 000 m高原23 h/d作低氧暴露,分别连续低氧3 d和30 d.用差速密度梯度离心法提取脑线粒体,[3H-GTP法测定UCPs含量与活性,TPMP 电极与Clark氧电极结合法测量线粒体质子漏,罗丹明123荧光法测定线粒体膜电位.结果显示,低氧使脑线粒体内UCPs含量与活性升高、质子漏增加、线粒体膜电位降低;同时,低氧暴露降低脑线粒体对棕榈酸的反应性,UCPs活性的改变率低于对照组,且线粒体UCPs含量、质子漏、膜电位变化率亦出现相同趋势.线粒体质子漏与反映UCPs活性的Kd值呈线性负相关(P<0.01 r=-0.906),与反映UCPs含量的Bmax呈线性正相关(P<0.01,r=0.856),与膜电位呈线性负相关(P<0.01,r=-0.880).以上结果提示,低氧导致的脑线粒体质子漏增加及膜电位降低与线粒体内UCPs活性升高有关,同时低氧暴露能降低脑线粒体对棕榈酸的反应性,提示在高原低氧环境下,游离脂肪酸升高在维持线粒体能量代谢中起着自身保护和调节机制.     

Different degrees of lipid peroxidation in the CNS of young and adult rats exposed to short-term hypobaric hypoxia.

The authors studied the effect of short-term (20 min) hypobaric hypoxia at simulated altitudes of 7000 and 9000 m on the peroxidation of lipids in the cerebral cortex, subcortical formations, medulla oblongata and cerebellum of the laboratory rat. In 5- and 21-day-old rats, increased lipoperoxidation was recorded in all the studied regions of the brain. Differences were observed in sensitivity to the degree of hypoxia. In 5-day-old rats the response to both exposures was the same, but in 21-day-old animals exposure at 7000 m stimulated peroxidation in the cerebral cortex only (at 9000 m in all the parts of the CNS examined). In 35-day-old and adult rats, changes in the malondialdehyde concentration were likewise found after exposure at 9000 m, but not in every compartment (in 35-day-old rats in the cerebral cortex and subcortical formations and in adult rats in the cerebral cortex). In young rats, 30 and 60 min after exposure to hypoxia the malondialdehyde concentration was still higher than in older animals.     

The ultrastructural picture of cerebral cortex of rat after hypoxia. I. Findings after inhalation of 5% O2 and 95% N2

The ultrastructure of some elements in the motor region of the cerebral cortex of the rat were studied after hypoxia. The experimental animals, after receiving intraperitoneal chloral hydrate anaesthesia, were placed in a chamber with a controlled supply of a mixture of 95% N2 and 5% O2. After 2- and 3-hour exposure to hypoxic conditions the animals were processed for electron optic study. Edematous mitochondria pith partial or total destruction of the mitochondrial matrix were observed. Some mitochondria were changed into large vacuolar formations. The granular endoplasmic reticulum of neurocytes was dilated and in the broad dilatation structures of lamellar shape were sporadically found. The Golgi complex contained vacuoles of different sizes and long cisterns. Hydrated astrocytes were visualized in the neuropil and perivascular astrocyte processes displayed edematous changes. In the group of animals exposed to hypoxia for 3 hours but processed only 24 hours after termination of hypoxia the same changes were observed yet their extent was considerably diminished. This finding indicates that changes induced by hypoxia tend to return to normal conditions.     

Expression of nitrergic system and protein nitration in adult rat brains submitted to acute hypobaric hypoxia.

Changes in the nitric oxide (NO) system of the rat cerebral cortex were investigated by immunohistochemistry, immunoblotting, and NO synthase (NOS) activity assays in adult rats submitted for 30 min to hypoxia, in a hypobaric chamber at a simulated altitude of 38,000 ft (11000 m) (154.9 mm Hg). The cerebral cortex was studied after different survival times, 0 and 24 h, 5, 8, 15, and 30 days of reoxygenation. This situation led to morphological alterations in the large type I interneurons, as well as immunoreactive changes in the appearance and number of the small neurons (type II), both containing neuronal NOS (nNOS). Some of these small neurons showed immunoreactive cytoplasm and short processes; others, the more numerous during all reoxygenation periods, contained the immunoreactive product mainly related to a perinuclear ring. Ultrastructurally, these small neurons exhibited changes in nuclear structures as in the shape of the nuclear membrane, in the distribution of heterochromatin, and in the nucleolar morphology. The reaction product for nitrotyrosine, as a marker of protein nitration, showed modifications in distribution of the immunoreactive product. No expression was found for inducible NOS (iNOS). All these modifications were accompanied by increased nNOS and nitrotyrosine production as demonstrated by Western blotting and calcium-dependent activity, returning to control conditions after 30 days of reoxygenation, suggesting a reversible NO mechanism of action.     

Differential and Reciprocal Regulation between Hypoxia-inducible Factor-α Subunits and Their Prolyl Hydroxylases in Pulmonary Arteries of Rat with Hypoxia-induced Hypertension

Hypoxia-inducible factor (HIF)-α subunits (HIF-1α,HIF-2α and HIF-3α),which play a pivotalrole during the development of hypoxia-induced pulmonary hypertension (HPH),are regulated through post-U'anslational hydroxylation by their three prolyl hydroxylase domain-containing proteins (PHD 1,PHD2 and PHD3).PHDs could also be regulated by HIF.But differential and reciprocal regulation between HIF-α and PHDs duringthe development of HPH remains unclear.To investigate this problem,a rat HPH model was established.Meanpulmonary arterial pressure increased significantly after 7 d of hypoxia.Pulmonary artery remodeling indexand right ventricular hypertrophy became evident after 14 d of hypoxia.HIF-1α and HIF-2α mRNA increasedslightly after 7 d of hypoxia,but HIF-3α increased significantly after 3 d of hypoxia.The protein expressionlevels of all three HIF-α were markedly upregulated after exposure to hypoxia.PHD2 mRNA and proteinexpression levels were upregulated after 3 d of hypoxia;PHD 1 protein declined after 14 d of hypoxia withoutsignificant mRNA changes.PHD3 mRNA and protein were markedly upregulated after 3 d of hypoxia,then themRNA remained at a high level,but the protein declined after 14 d of hypoxia.In hypoxic animals,HIF-lotproteins negatively correlated with PHD2 proteins,whereas HIF-2α and HIF-3α proteins showed negativecorrelations with PHD3 and PHD 1 proteins,respectively.All three HIF-α proteins were positively correlatedwith PHD2 and PHD3 mRNA.In the present study,HIF-α subunits and PHDs showed differential andreciprocal regulation,and this might play a key pathogenesis role in hypoxia-induced pulmonary hypertension.