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1.
Research on ischemic brain injury has established a central role of mitochondria in neuron death. Astrocytes are also damaged by ischemia, although the participation of mitochondria in their injury is ill defined. As astrocytes are responsible for neuronal metabolic and trophic support, astrocyte dysfunction will compromise postischemic neuronal survival. Ischemic alterations to astrocyte energy metabolism and the uptake and metabolism of the excitatory amino acid transmitter glutamate may be particularly important. Despite the significance of ischemic astrocyte injury, little is known of the mechanisms responsible for astrocyte death and dysfunction. This review focuses on differences between astrocyte and neuronal metabolism and mitochondrial function, and on neuronal-glial interactions. The potential for astrocyte mitochondria to serve as targets of neuroprotective interventions is also discussed.  相似文献   

2.
Our previous studies have demonstrated that oxysophoridine (OSR) has protective effects on cerebral neurons damage in vitro induced by oxygen and glucose deprivation. In this study, we further investigated whether OSR could reduce ischemic cerebral injury in vivo and its possible mechanism. Male Institute of cancer research mice were intraperitoneally injected with OSR (62.5, 125 and 250 mg/kg) for seven successive days, then subjected to brain ischemia induced by the model of middle cerebral artery occlusion. After reperfusion, neurological scores and infarct volume were estimated. Morphological examination of tissues was performed. Apoptotic neurons were detected by terminal deoxynucleotidyl transferase mediated dUTP nick end labeling staining. Oxidative stress levels were assessed by measurement of malondialdehyde (MDA), superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) levels. The expression of various apoptotic markers as Caspase-3, Bax and Bcl-2 were investigated by immunohistochemistry and Western-blot analysis. OSR pretreatment groups significantly reduced infract volume and neurological deficit scores. OSR decreased the percentage of apoptotic neurons, relieved neuronal morphological damage. Moreover, OSR markedly decreased MDA content, and increased SOD, GSH-Px activities. Administration of OSR (250 mg/kg) significantly suppressed overexpression of Caspase-3 and Bax, and increased Bcl-2 expression. These findings indicate that OSR has a protective effect on focal cerebral ischemic injury through antioxidant and anti-apoptotic mechanisms.  相似文献   

3.
The reduction of molecular oxygen to water provides most of the biologically useful energy. However, oxygen reduction is a mixed blessing because incompletely reduced oxygen species such as superoxide or peroxides are quite reactive and can, when out of control, cause damage. In mitochondria, where most of the oxygen utilized by eukaryotic cells is reduced, the dichotomy of oxygen shows itself best. Thus, reactive oxygen is a threat to them, as is evident from oxidative damage to mitochondrial lipids, proteins, and nucleic acids. Reactive oxygen, in the form of peroxides, also serves useful functions in mitochondria. This is exemplified by the control of mitochondrial and cellular calcium homeostasis, whose understanding has improved greatly during the last few years. An exciting new aspect is the discovery that nitric oxide and congeners have an enormous impact on mitochondria. Physiological concentrations of nitrogen monoxide (NO) at physiological cellular oxygen pressure inhibit cytochrome oxidase and thereby respiration. A transient inhibition of cytochrome oxidase by NO appears to be used in at least some forms of cell signalling. Peroxynitrite, the product of the reaction between superoxide and NO, can stimulate the specific calcium release pathway from mitochondria by oxidizing some vicinal thiols in mitochondria. There is evidence mounting that mitochondrial calcium handling and its modulation by reactive oxygen and nitrogen species is important for necrotic and apoptotic cell death.  相似文献   

4.
Effect of nitric oxide (NO) on the respiratory burst of neutrophils was examined under different oxygen tensions. Phorbol myristate acetate (PMA) stimulated oxygen consumption and superoxide (O2-) generation in neutrophils by a mechanism which was inhibited reversibly by NO. The inhibitory effect of NO increased significantly with a decrease in oxygen tension in the medium. The inhibitory effect of NO was suppressed in medium containing oxyhemoglobin (HbO2), a NO scavenging agent. In contrast, 3-morpholinosydnonimine (SIN-1), a compound that rapidly generates peroxynitrite (ONOO-) from the released NO and O2-, slightly stimulated the PMA-induced respiratory burst. These results suggested that NO, but not ONOO, might reversibly inhibit superoxide generation by neutrophils especially at physiologically low oxygen tensions thereby decreasing oxygen toxicity particularly in and around hypoxic tissues.  相似文献   

5.
The major cellular antioxidant, glutathione, is mostly localized in the cytosol but a small portion is found in mitochondria. We have recently shown that highly selective depletion of mitochondrial glutathione in astrocytes in culture markedly increased cell death induced by the peroxynitrite donor, 3-morpholino-syndnonimine. The present study was aimed at characterizing the increase in susceptibility arising from mitochondrial glutathione loss and testing the possibility that elevating this metabolite pool above normal values could be protective. The increased vulnerability of astrocytes with depleted mitochondrial glutathione to Sin-1 was confirmed. Furthermore, these cells showed marked increases in sensitivity to hydrogen peroxide and also to high concentrations of the nitric oxide donor, S-nitroso-N-acetyl-penicillamine. The increase in cell death was mostly due to necrosis as indicated by substantially increased release of lactate dehydrogenase and staining of nuclei with propidium iodide but little change in annexin V staining and caspase 3 activation. The enhanced cell loss was blocked by prior restoration of the mitochondrial glutathione content. It was also essentially fully inhibited by treatment with cyclosporin A, consistent with a role for the mitochondrial permeability transition in the development of cell death. Susceptibility to the classical apoptosis inducer, staurosporine, was only affected to a small extent in contrast to the response to the other substances tested. Incubation of normal astrocytes with glutathione monoethylester produced large and long-lasting increases in mitochondrial glutathione content with much smaller effects on the cytosolic glutathione pool. This treatment reduced cell death on exposure to 3-morpholino-syndnonimine or hydrogen peroxide but not S-nitroso-N-acetyl-pencillamine or staurosporine. These findings provide evidence for an important role for mitochondrial glutathione in preserving cell viability during periods of oxidative or nitrative stress and indicate that increases in this glutathione pool can confer protection against some of these stressors.  相似文献   

6.
Under pathological conditions, the mode of cell death, apoptosis or necrosis, is relevant for the subsequent fate of the tissue. Cell demise may be shaped by endogenous mediators such as nitric oxide (NO) which interfere with subroutines of the death program. Here we show that apoptosis of Jurkat cells elicited by either staurosporine (STS) or anti-CD95 antibodies in glucose-free medium is converted to necrosis by NO donors. In the presence of NO, release of mitochondrial cytochrome c was delayed and activation of execution caspases was prevented. Stimulated cells died nonetheless. The switch in the mode of cell death was due to NO-dependent failure of mitochondrial energy production. Restoration of intracellular ATP by glucose supplementation recovered the cells' ability to activate caspases and undergo apoptosis. In this system, the apoptosis/necrosis conversion promoted by NO was not mediated by cyclic guanosine monophosphate-dependent mechanisms, poly-(ADP-ribose)-polymerase (PARP) activation, or inhibition of caspases due to S-nitrosylation and glutathione depletion. In contrast, depleting intracellular ATP with rotenone, an inhibitor of mitochondrial complex I mimicked the effect of NO. The findings presented here suggest that NO can decide the shape of cell death by lowering intracellular ATP below the level required to allow the coordinated execution of apoptosis.  相似文献   

7.
1. Nitric oxide radicals (NO) play an important role in the pathophysiology of focal cerebral ischemia.2. Vascular NO can reduce ischemic brain injury by increasing CBF, whereas neuronal NO may mediate neurotoxicity following brain ischemia, mainly by its reaction with superoxide to generate peroxynitrite.3. These findings could contribute to a strategy for the treatment of cerebral ischemia.  相似文献   

8.
Repeated low-dose exposure to carbofuran exerts its neurotoxic effects by non-cholinergic mechanisms. Emerging evidence indicates that oxidative stress plays an important role in carbofuran neurotoxicity after sub-chronic exposure. The purpose of the present study is to evaluate the role of mitochondrial oxidative stress and dysfunction as a primary event responsible for neurotoxic effects observed after sub-chronic carbofuran exposure. Carbofuran was administered to rats at a dose of 1 mg/kg orally for a period of 28 days. There was a significant inhibition in the activity of acetylcholinesterase (66.6%) in brain samples after 28 days of carbofuran exposure. Mitochondrial respiratory chain functions were assessed in terms of MTT (3-(4, 5-dimethylthiazolyl-2)-2, 5-diphenyltetrazolium bromide) reduction and activity of succinate dehydrogenase in isolated mitochondria. It was observed that carbofuran exposure significantly inhibited MTT reduction (31%) and succinate dehydrogenase activity (57%). This was accompanied by decrease in low-molecular weight thiols (66.6%) and total thiols (37.4%) and an increase in lipid peroxidation (43.7%) in the mitochondria isolated from carbofuran-exposed rat brain. The changes in mitochondrial oxidative stress and functions were associated with impaired cognitive and motor functions in the animals exposed to carbofuran as compared to the control animals. Based on these results, it is clear that carbofuran exerts its neurotoxicity by impairing mitochondrial functions leading to oxidative stress and neurobehavioral deficits.  相似文献   

9.
目的:探讨中药灯盏花素注射液对脑出血患者氧化应激的影响。方法:实验分成两组,以30例健康人为对照组,以25例早期脑出血患者为实验组,采用灯盏花素进行治疗,观察治疗前后两组血液中SOD、LDH的活性及MDA的含量。结果:与对照组相比,治疗前实验组SOD活性降低,而LDH的活性和MDA的含量升高。采用灯盏花素治疗后,实验组SOD显著升高,LDH的活性和MDA的含量降低;与对照组相比,无明显差异。结论:灯盏花素可通过抑制中性粒细胞产生呼吸爆发,增强机体清除氧自由基的能力,并降低脂质过氧化损伤,可应用于治疗早期脑出血。  相似文献   

10.
Li QL  Ni J  Bian SL  Yao LC  Zhu H  Zhang W 《生理学报》2001,53(2):142-146
本文旨在观察神经酰胺对离体孵育的大鼠黄体细胞孕酮分泌及细胞凋亡的影响,以PMSG-hCG处理的雌性Wistar大鼠为模型,分离制备黄体细胞,将外源性细胞渗透性神经酰胺与黄体细胞共同孵育,分别用放免法和流式细胞仪分析神经酰胺对黄体细胞孕酮生成和凋亡的影响,同时还检测了一氧化氮合酶(NOS)活性和一氧化氮(NO)水平的变化,结果显示,神经酰胺可以剂量相关方式抑制hCG-诱导的孕酮分泌,而对基础孕酮没有显著影响,离体孵育12h的大鼠黄体细胞存在自发性凋亡,5umol/L神经酰胺能显著增加亡率(P<0.05),流式细胞仪分析可见增强的凋亡蜂,实验还发现,50umol/L神经酰胺能明显促进NOS活性(P<0.01)和NO生成(P<0.01),结果提示,神经酰胺可能通过调节甾体激素生成和细胞凋亡而作为一种重要的信息分子参与黄体退化等卵巢的生理过程。  相似文献   

11.
目的:利用RNA干扰技术,通过重组腺病毒导入,抑制脑组织中PARs基因的表达,观察神经功能缺陷评分、缺血脑组织梗死体积的变化,为缺血性脑血管疾病的基因治疗提供实验依据。方法:雄性Wistar大鼠随机分组,以重组腺病毒介导的无序PARs基因shRNA片段、生理盐水进行干预,干预3天后以线栓法建立Wistar大鼠大脑中动脉永久闭塞模型,各组分别于线栓后24h、72h进行神经功能缺陷评分并断头取脑,应用4%TTC染色测脑梗死体积。结果:1.缺血后24h、72h同一时间点:①实验组分别与对照组、生理盐水组对比,神经功能缺陷评分明显降低(P<0.05),脑梗死体积明显减小(P<0.05);②对照组与生理盐水组对比,神经功能缺陷评分、脑梗死体积无明显差异(P>0.05)。2.各组组内缺血后24h、72h对比,神经功能缺陷评分、脑梗死体积各组均有明显差异(P<0.05)。结论:重组腺病毒介导的RNAi能有效抑制脑组织中PARs基因的表达,缩小脑梗死体积,改善神经功能缺陷评分。  相似文献   

12.
We investigated the effects of diets with different fatty acid composition upon the oxidative stress of inflammatory leukocytes of rats. After weaning, two groups of rats were fed isoenergetic semipurified diets for five weeks containing 5% of corn oil or menhaden oil. Polymorphonuclear leukocytes from rats fed menhaden oil diet incorporated n-3 polyunsaturated fatty acids into phospholipid membranes at the expense of arachidonic acid. These cells showed diminished superoxide production and, as a consequence, the total antioxidant status in the inflammatory exudate was increased. However, nitric oxide production was not affected by diet. Free malondialdeyde concentration increased in the exudate because of lower mitochondrial activity. These results add new aspects that help clarifying the anti-inflammatory mechanisms of n-3 polyunsaturated fatty acids.  相似文献   

13.
目的:利用RNA干扰技术,通过重组腺病毒导入,抑制脑组织中PARs基因的表达,观察神经功能缺陷评分、缺血脑组织梗死体积的变化,为缺血性脑血管疾病的基因治疗提供实验依据。方法:雄性Wistar大鼠随机分组。以重组腺病毒介导的无序PARs基因shRNA片段、生理盐水进行干预,干预3天后以线栓法建立Wistar大鼠大脑中动脉永久闭塞模型,各组分别于线栓后24h、72h进行神经功能缺陷评分并断头取脑,应用4%TTC染色测脑梗死体积。结果:1.缺血后24h、72h同一时间点:①实验组分别与对照组、生理盐水组对比,神经功能缺陷评分明显降低(P〈0.05),脑梗死体积明显减小(P〈0.05);②对照组与生理盐水组对比,神经功能缺陷评分、脑梗死体积无明显差异(P〉0.05)。2.各组组内缺血后24h、72h对比,神经功能缺陷评分、脑梗死体积各组均有明显差异(P〈0.05)。结论:重组腺病毒介导的RNAi能有效抑制脑组织中PARs基因的表达,缩小脑梗死体积,改善神经功能缺陷评分。  相似文献   

14.
Mitochondria are exposed to large fluxes of iron, and reactive oxygen and nitrogen species. Hence they are susceptible to oxidative stress, a process inhibited by vitamin E. Our investigations show that iron uncouples oxidative phosphorylation whereas peroxynitrite and nitrite are inhibitors of oxidative phosphorylation. Oxidation of mitochondrial vitamin E is accompanied by generation of lipid peroxidation products, altered enzyme activity and electrical conductance etc., and result in inefficient oxidative phosphorylation. Vitamin E is important for mitochondrial function because: (1) Prior investigations have shown that vitamin E is essential for maintaining mitochondrial respiration. (2) Vitamin E is the most potent, lipid-soluble antioxidant localized ideally in mitochondrial membranes. (3) The decline in respiratory control ratios (RCR) of rat brain mitochondria exposed to peroxynitrite closely paralleled the oxidative elimination of vitamin E. (4) Finally, iron is a strong uncoupler of oxidative phosphorylation in brain mitochondria from vitamin E deficient animals and not from controls.Special issue dedicated to Lawrence F. Eng.  相似文献   

15.
In the review contemporary data on the effects of oxidative stresses of various kinds in bacteria are summarized. A general theory of oxidative stress, peculiarities of oxidative stress in eukaryotes and prokaryotes, and natural and induced oxidative stresses are described. Data on the mechanisms of protection against oxidative stress are given, including prevention of the generation of oxidative stress, prevention of propagation of free radical chain reactions, and the mechanisms of repair of damaged DNA. The regulation of effector genes via redox-sensitive iron-containing proteins is analyzed. Special attention is given to the expression of so-called antioxidant and associated enzymes as protection mechanisms and to the space–time organization of the response of bacteria to oxidative stress.  相似文献   

16.
Leptin is a multifunctional hormone produced by the ob gene and is secreted by adipocytes that regulate food intake and energy metabolism. Numerous studies demonstrated that leptin is a novel neuroprotective effector, however, the mechanisms are largely unknown. Herein, we demonstrate the protective activities of leptin after ischemic stroke and provide the first evidence for the involvement of the connexin 43 (Cx43) in leptin-mediated neuroprotection. We found that leptin treatment reduces the infarct volume, improves animal behavioral parameters, and inhibits the elevation of Cx43 expression in vivo. In vitro, leptin reverses ischemia-induced SY5Y and U87 cells Cx43 elevation, secreted glutamate levels in medium and SY5Y cell death, these roles could be abolished by leptin receptor blocker. Additionally, leptin administration upregulated the extracellular signal-regulated kinase1/2 (ERK1/2) phosphorylation. Moreover, ERK1/2 inhibitors pretreatment reversed the effects of leptin on Cx43 expression, glutamate levels and cell apoptosis. In conclusion, the present study demonstrated that leptin can reduce the Cx43 expression and cell death both in vivo and in vitro via ERK1/2 signaling pathway. This result provides a novel regulatory signaling pathway of the neuroprotective effects of leptin and may contribute to ischemic brain injury prevention and therapy.  相似文献   

17.
Radiation-induced brain injury (RIBI) is a prominent side effect of radiotherapy for cranial tumors. Kukoamine A (KuA) has the ability of anti-oxidative stress and anti-apoptosis in vitro. The aim of this study was to investigate whether KuA would prevent the detrimental effect of ionizing radiation on hippocampal neurons. For this study, male Wistar rats were received either sham irradiation or whole brain irradiation (30 Gy single dose of X-rays) followed by the immediate injection of either KuA or vehicle intravenously. The dose of KuA was 5, 10 and 20 mg/kg respectively. The protective effects of KuA were assessed by Nissl staining. The levels of oxidative stress marker and antioxidants activities were assayed by kits. TUNEL staining was performed to detect the level of apoptosis in hippocampal neurons. The expression of apoptosis-related proteins as well as the brain-derived neurophic factor (BDNF) was evaluated by western blot. Whole brain irradiation led to the neuronal abnormality and it was alleviated by KuA. KuA decreased malondialdehyde (MDA) level, increased glutathione (GSH) level, superoxide dismutase (SOD) and catalase (CAT) activities, as well as alleviated neuronal apoptosis by regulating the expression of cleaved caspase-3, cytochrome C, Bax and Bcl-2. Additionally, KuA increased the expression of BDNF. These data indicate that KuA has neuroprotective effects against RIBI through inhibiting neuronal oxidative stress and apoptosis.  相似文献   

18.
Induction of motor neuron apoptosis by free 3-nitro-L-tyrosine   总被引:1,自引:0,他引:1  
Peroxynitrite-dependent tyrosine nitration has been postulated to be involved in motor neuron degeneration in amyotrophic lateral sclerosis (ALS). Evidence supporting this supposition includes the appearance of both free and protein-linked 3-nitro-l-tyrosine (nitrotyrosine) in both sporadic and familial ALS, as well as of increased free nitrotyrosine levels in the spinal cord of transgenic mice expressing ALS-linked superoxide dismutase mutants at symptom onset. Here we demonstrate that incubation with clinically relevant concentrations of nitrotyrosine induced apoptosis in motor neurons cultured with trophic factors. Nitrotyrosine was bound to proteins, but it was not incorporated into alpha-tubulin, as previously demonstrated for other cell types. Neither inhibition of nitric oxide production nor scavenging of superoxide and peroxynitrite prevented increases in cell nitrotyrosine immunoreactivity or motor neuron death, suggesting that these effects are not due to the endogenous formation of reactive nitrogen species. In contrast, some populations of astrocytes incorporated nitrotyrosine into alpha-tubulin, but free nitrotyrosine had no effect on the viability and phenotype of astrocytes in culture, as evaluated by glial fibrillary acidic protein immunoreactivity, cell growth and morphology. Co-culture of motor neurons on astrocyte monolayers delayed, but did not prevent, nitrotyrosine-induced motor neuron death. These results suggest that free nitrotyrosine may play a role in the induction of motor neuron apoptosis in ALS.  相似文献   

19.
Free Radicals as Mediators of Neuronal Injury   总被引:14,自引:0,他引:14  
1. Free radicals may play an important role in several pathological conditions of the central nervous system (CNS) where they directly injure tissue and where their formation may also be a consequence of tissue injury.2. Free radicals produce tissue damage through multiple mechanisms, including excitotoxicity, metabolic dysfunction, and disturbance of intracellular homeostasis of calcium.3. Oxidative stress can significantly worsen acute insults, such as ischemia, as well as chronic neurodegenerative disorders including amyotrophic lateral sclerosis (ALS) and Parkinson's disease.4. For instance, recent findings suggest a causal role for chronic oxidative stress in familial ALS, as this disease is linked to missence mutations of the copper/zinc superoxide dismutase (SOD).5. Thus, therapeutic approaches which limit oxidative stress may be potentially beneficial in several neurological diseases.  相似文献   

20.
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