干鲜人参对PC12细胞损伤保护作用的比较研究

分别建立皮质酮、谷氨酸、过氧化氢诱导PC12细胞损伤模型,通过MTT和LDH测定,比较不同浓度的干、鲜人参水提液对于皮质酮、谷氨酸、过氧化氢诱导PC12细胞损伤的保护作用。结果表明皮质酮浓度为200μmol/L、谷氨酸浓度为30 mmol/L和过氧化氢浓度为150μmol/L时,PC12细胞的存活率分别为:53.42%、49.64%、54.27%,当PC12细胞与不同浓度人参提取液共同孵育24 h,再分别加入200μmol/L的皮质酮和150μmol/L的过氧化氢时,与模型组相比,细胞存活率明显提高,乳酸脱氢酶的释放明显减少(P0.01);并且在中、高剂量组,鲜人参组的细胞存活率明显高于干人参组(P0.01),乳酸脱氢酶释放明显低于干人参组(P0.01);但对谷氨酸诱导的PC12细胞损伤则无上述效果。干、鲜人参水提液对于皮质酮、过氧化氢诱导损伤的PC12细胞均有明显的保护作用;在中、高剂量时,鲜人参水提液对细胞保护活性明显好于干人参组,且组间表现出显著性差异(P0.01),表明鲜人参较干人参具有更好的细胞保护活性。干、鲜人参水提液对谷氨酸诱导损伤的PC12细胞却无保护活性。     

皮质酮诱导的PC12细胞梯度应激损伤模型的构建及评价

目的:建立皮质酮诱导的PC12细胞梯度应激损伤模型,为细胞应激水平的评估和细胞应激损伤调控研究提供实验基础和对象。方法:通过检测不同浓度皮质酮(0～1 000μmol/L)在经过不同干预时间(8～48 h)后PC12细胞活力,观察皮质酮对细胞活力的影响,筛选最佳干预条件的细胞模型。分光光度法和微量法检测细胞模型的关键应激指标(MDA、SOD、NADH、LDH),对模型进行评价。结果:当皮质酮浓度在200μmol/L以下且干预时间为12 h时,细胞活力在半数失活率以下,可减少各组由于细胞活力下降而产生的混杂因素。与空白对照组比较,皮质酮浓度依赖性地升高模型组的MDA、NADH和LDH水平,降低SOD水平(P<0.01),符合梯度应激模型的构建要求。结论:成功建立了PC12细胞梯度应激损伤模型,在干预时间为12 h的情况下,干预浓度为0μmol/L、25μmol/L、50μmol/L、100μmol/L、150μmol/L、200μmol/L,使得细胞模型应激损伤程度梯度增加,可作为开展细胞应激损伤评估及调控实验的基础和对象。     

葛根素对帕金森病细胞模型的保护作用研究

目的:研究葛根素对帕金森病细胞模型的保护作用及其具体的作用机理.方法:用0.16mM的MPP+处理PC12细胞48h建立帕金森病细胞模型.实验分为对照组、损伤组和保护组,损伤组用MPP+(0.16mM)处理PC12细胞;保护组用葛根素提前预处理PC12细胞1h,后加MPP+.检测PC12细胞存活率、Caspase-3活性及ERβ的转录活性.结果:葛根素能够抑制caspase-3的激活,且其依赖于ERβ的表达,雌激素受体拮抗剂ICI182,780可阻断上述效应;其次葛根素可提高ERβ的转录活性.结论:葛根素对MPP+诱导损伤的PC12细胞具有抗细胞凋亡的保护作用,且具体的作用机理可能依赖于ERβ介导的经典的基因组作用模式.     

芜菁中性多糖对PC12细胞氧化损伤保护作用机制的初步研究CSCD

以H_(2)O_(2)诱导PC12细胞建立氧化损伤模型,研究芜菁中性多糖(neutral polysaccharide from Brassica rapa L.,BRNP)对PC12细胞氧化损伤保护及初步作用机制。采用CCK-8法检测细胞存活率;乳酸脱氢酶(LDH)检测H_(2)O_(2)对PC12细胞氧化损伤的保护作用;JC-1法检测BRNP对H_(2)O_(2)诱导的PC12细胞线粒体膜电位的影响;Western blot法检测BRNP对H_(2)O_(2)诱导的PC12细胞Bax、Bcl-2和Caspase-3蛋白表达水平。结果表明,BRNP对PC12细胞无明显细胞毒性;H_(2)O_(2)的造模浓度和时间分别为300μmol/L、4 h;BRNP在一定程度上可减轻H_(2)O_(2)对PC12细胞的氧化损伤;BRNP可降低H_(2)O_(2)对PC12细胞线粒体膜电位的损伤;以不同剂量BRNP干预PC12细胞后,Bax、Caspase-3蛋白表达水平均有显著降低(P<0.05);而Bcl-2蛋白表达水平显著升高(P<0.05)。综上所述,BRNP能够改善H_(2)O_(2)诱导的PC12细胞氧化应激损伤及保护其细胞功能,其作用机制可能与抑制细胞内LDH生成、提高抗氧化酶活性及其凋亡蛋白表达水平有关。     

甘薯提取物对谷氨酸所致PC12细胞损伤的保护作用初探

观察甘薯提取物对谷氨酸诱导的PC12细胞损伤的保护作用.将大鼠嗜铬细胞瘤细胞(PC12)分为空白对照组、模型组、甘薯提取物0.1、1.0、10.0 μg/mL低、中、高剂量组和1.0 μmol/L尼莫地平阳性药物对照组,用2.0 mmol/L谷氨酸造成PC12细胞损伤,MTT法测定损伤细胞的存活率,观察其细胞损伤的形态学变化,考察甘薯提取物对谷氨酸所致PC12细胞损伤的保护作用.结果表明甘薯提取物可明显提高谷氨酸诱导的PC12损伤细胞存活率,同时能够明显改善谷氨酸诱导的PC12损伤细胞的细胞形态变化,并呈现剂量相关性,具有一定的神经营养及保护作用.     

雷公藤单体T10对Aβ1-42所致PC12细胞凋亡的抑制作用

阿尔茨海默病(Alzheimer's disease,AD)是发病率最高的中枢神经系统退变性疾病.目前AD的病因不清,亦无有效的防治手段,其重要的原因是尚无适宜的AD模型.因此,本实验首先建立了PC12细胞系β淀粉样蛋白(p-amyloid,Aβ)细胞损伤模型,在此基础上,探讨了中药免疫抑制剂雷公藤单体T10对细胞的保护作用及其机制.首先用不同浓度的Aβ(5×10、5×10-3、5×10-2、5×10、5、50 μmol/L)与PC12细胞共孵育48 h,用MTT法检测细胞存活率.选取Aβ致使细胞存活率降低的浓度(0.5、5、50 μmol/L)与PC12细胞共孵育48 h,通过流式细胞仪检测凋亡细胞百分比.用1×10-11mol/L的T10预孵育PC12细胞48 h后,加入50μmol/L Ap共孵育48 h,亦用流式细胞仪检测凋亡细胞百分比,激光共聚焦显微镜检测细胞内钙离子浓度变化.结果显示,Aβ的浓度存50μmol/L时可使细胞存活率降低至55.1%,凋亡细胞比例显著增加,而1×10-11mol/L的T10可明显降低50 μmol/L Aβ诱导的PC12细胞死亡.50 μmol/L Aβ可促进PC12细胞胞外钙离子内流,1×10-11mol/L的T10对Ap诱导的胞外钙离子内流有抑制作用.这些观察结果表明T10对Ap导致的PC12细胞损伤具有明显的保护作用,其机制可能与抑制Aβ诱导的胞内钙离子浓度升高和细胞凋亡有关.     

氨磷汀对氧糖剥夺引起的PC12 细胞缺血再灌注损伤的保护作用研究

目的:研究氨磷汀对体外培养的神经元样细胞的缺血再灌注损伤的保护作用,为其最终用于临床脑缺血的治疗打下基础。方法:体外培养的PC12细胞氧糖剥夺4h后复氧复糖,给予不同浓度的氨磷汀处理,20h后镜下观察细胞形态学变化,用MTT和LDH检测细胞活力和损伤情况,免疫荧光染色观察凋亡细胞,流式细胞仪计数凋亡细胞的比例。结果:高浓度氨磷汀对正常PC12细胞活力有抑制作用(P<0.05),而低浓度则无。氨磷汀可以提高缺血再灌注损伤PC12细胞活力(P<0.05),减少LDH释放(P<0.05),保护细胞正常形态,抑制细胞凋亡(P<0.05)。结论:氨磷汀对氧糖剥夺引起的神经元样细胞的缺血再灌注损伤具有保护作用。     

氨磷汀对氧糖剥夺引起的PC12细胞缺血再灌注损伤的保护作用研究

目的：研究氨磷汀对体外培养的神经元样细胞的缺血再灌注损伤的保护作用,为其最终用于临床脑缺血的治疗打下基础。方法：体外培养的PC12细胞氧糖剥夺4h后复氧复糖,给予不同浓度的氨磷汀处理,20h后镜下观察细胞形态学变化,用MTT和LDH检测细胞活力和损伤情况,免疫荧光染色观察凋亡细胞,流式细胞仪计数凋亡细胞的比例。结果：高浓度氨磷汀对正常PC12细胞活力有抑制作用（P〈0.05）,而低浓度则无。氨磷汀可以提高缺血再灌注损伤PC12细胞活力（P〈0.05）,减少LDH释放（P〈0.05）,保护细胞正常形态,抑制细胞凋亡（P〈0.05）。结论：氨磷汀对氧糖剥夺引起的神经元样细胞的缺血再灌注损伤具有保护作用。     

当药黄素对H_2O_2诱导PC12细胞损伤的保护作用

研究当药黄素在H_2O_2诱导PC12细胞损伤中的作用。建立H_2O_2诱导的PC12细胞损伤模型,采用MTT法测定细胞活力,比色法测定细胞MDA和上清液LDH含量,以及SOD、CAT和GSH-Px酶活力,采用DCFH-DA荧光染色测定细胞ROS含量,JC-1染色测定细胞线粒体膜电位。当药黄素能够提高H_2O_2诱导损伤的PC12细胞的细胞活力,增加细胞内SOD、CAT和GSH-Px活力,降低MDA、LDH含量,抑制细胞内ROS增加,稳定细胞线粒体膜电位。当药黄素对H_2O_2诱导的PC12细胞损伤有保护作用。     

黄连素预处理对6-羟基多巴胺所致PC12细胞损伤的影响

目的:观察黄连素(Berberine,BBR)预处理对6-羟基多巴胺(6-hydroxydopamine,6-OHDA)诱导的PC12细胞的影响,并探讨二型超氧化物歧化酶(Mn-SOD,SOD2)是否介导了BBR的保护作用。方法:将PC12细胞分为5组,分别为正常培养的对照组(Control)、25μM的6-OHDA损伤组、1μM的BBR预处理24 h组(BBR+6-OHDA)、SOD2-siRNA干扰组(SOD2-siRNA+BBR+6-OHDA)和乱序siRNA处理组(SC-siRNA+BBR+6-OHDA),孵育24 h后,采用噻唑蓝法(Methylthiazolyldiphenyl-tetrazolium bromide,MTT)检测细胞活力,试剂盒检测培养基乳酸脱氢酶(Lactic Dehydrogenase,LDH)、细胞内活性氧(Reactive Oxygen Species,ROS)、还原型谷胱甘肽(Glutathione,GSH)和过氧化氢酶(Catalase,CAT)的含量,使用流式细胞仪检测凋亡率,Western blot检测SOD2和凋亡蛋白Cleaved caspase-3的表达。结果:与Control组相比,6-OHDA诱导PC12细胞24 h后,细胞活力显著降低,SOD2表达、GSH和CAT的含量明显减少,培养基上清液LDH活力、细胞凋亡率、Cleaved caspase-3表达和ROS水平显著增加(P<0.05),而BBR预处理可显著恢复6-OHDA诱导的PC12细胞活力、SOD2表达、GSH和CAT水平,并降低细胞凋亡率、凋亡蛋白表达和细胞ROS水平(P<0.05),而SOD2-siRNA显著逆转了BBR预处理产生的上述保护作用(P<0.05),SC-siRNA则未对BBR预处理产生的上述作用造成明显影响(P>0.05)。结论:黄连素预处理可减轻6-OHDA诱导的PC12细胞损伤,而SOD2分子介导了BBR预处理对暴露于6-OHDA的PC12细胞的保护作用。     

Apelin-13 Protects PC12 Cells from Corticosterone-Induced Apoptosis Through PI3K and ERKs Activation

It is widely accepted that environmental stress is a risk factor for mental disorders. Glucocorticoid hormones play a vital role in the regulation of physiological response to stress. High concentrations of corticosterone can induce cellular damage in PC12 cells, which possess typical neuronal features. Apelin and its receptor APJ are widely distributed in the central nervous system including limbic structures involved in stress responses. Previous studies have suggested that apelin has a neuroprotective function. However, the effect of apelin on corticosterone-induced neuronal damage remains to be elucidated. In the present study, we explored the potential protective activity of apelin-13 in PC12 cells treated with corticosterone and its underling mechanisms. The viability of the cells, the apoptosis of the cells, the level of phosphorylation of Akt (p-Akt) and extracellular signal-regulated kinases (p-ERKs) and cleaved caspase-3 expression were detected by MTT, Hoechst staining and flow cytometer assays and Western blotting. Results showed that corticosterone induced cells viability loss, cell apoptosis, down-regulation of p-Akt and p-ERKs and up-regulation of cleaved caspase-3. The effects induced by corticosterone were attenuated by apelin-13 pretreatment. Furthermore, apelin-13-mediated anti-viability loss, antiapoptosis and caspase-3 suppression activities were blocked by specific inhibitors of phosphatidylinositol 3-kinase (PI3K) (LY294002) and ERKs (PD98059). The data suggest that apelin-13 protects PC12 cells from corticosterone-induced apoptosis through activating PI3K/Akt and ERKs signaling pathways.     

Protective Effects of Piperine Against Corticosterone-Induced Neurotoxicity in PC12 Cells

Hyperactivation of the hypothalamic–pituitary–adrenal axis and the associated hippocampal atrophy were observed in patients with depression, which could be ameliorated by the treatment with antidepressants. Therefore, neuroprotection has been proposed to be one of the acting mechanisms of antidepressant. Our previous studies have showed that treating mice with piperine produced antidepressant-like effect in animal models of behavioral despair. This study aimed to examine the protective effect of piperine treatment on corticosterone-induced neurotoxicity in cultured rat pheochromocytoma (PC12) cells. The results showed that piperine co-treatment revealed a differential effect on the cytotoxicity of corticosterone and had its maximum inhibitory effect at 1 μM. Piperine (1 μM) co-treatment also significantly decreased intracellular reactive oxygen species level, and enhanced superoxide dismutase activity and total glutathione level in corticosterone-treated PC12 cells. In addition, piperine (1 μM) co-treatment was found to reverse the decreased brain-derived neurotrophic factor (BDNF) mRNA level caused by corticosterone in PC12 cells. The results suggest that piperine exerts a neuroprotective effect on corticosterone-induced neurotoxicity in PC12 cells, at least in part, via the inhibition of oxidative stress and the upregulation of BDNF mRNA expression. This neuroprotective effect may be one of the acting mechanisms accounts for the in vivo antidepressant activity of piperine.     

Emiline,a new alkaloid from the aerial parts of Emilia sonchifolia

A new pyrrolidine alkaloid, Emiline (1), was isolated from the 90% EtOH extract of the aerial parts of Emilia sonchifolia. Its structure was established by various spectroscopic methods, including NMR, IR, HR-ESI-MS and X-ray crystallography. It was characterized by its skeleton derived from a bicyclo-[2.2.2]-oct-5-one ring and a pyrrolidine unit. The racemic mixture, (±)-Emiline, displayed good neuroprotective effect against the corticosterone-induced apoptosis in PC12 cells.     

Absence of polo-like kinase 3 in mice stabilizes Cdc25A after DNA damage but is not sufficient to produce tumors

Oxidative stress caused by hydrogen peroxide (H(2)O(2)) plays an important role in the pathogenesis of Alzheimer's disease (AD). The prominent damages caused by H(2)O(2) include the ruin of membrane integrity, loss of intracellular neuronal glutathione (GSH), oxidative damage to DNA as well as the subsequent caspase-3 and p53 activation. Icariin is a flavonoid extracted from the traditional Chinese herb Epimedium brevicornum Maxim. We have previously reported that icariin has a good curative effect on patients with mild cognitive impairment (MCI), AD animal and cell models. However, the molecular mechanism of how icariin exerts neuroprotective effects is still not well understood. To address this question, we exposed undifferentiated neuronal cell lines (PC12 cells) to hydrogen peroxide (H(2)O(2)) and investigated the possible neuroprotective mechanisms of icariin. Vitamin E was used as a positive control. We observed that H(2)O(2) activated the JNK/p38 mitogen-activated protein kinase (MAPK) and induced PC12 cells apoptosis in a concentration-dependent manner. More over, we demonstrated that icariin protected PC12 cells by attenuating LDH leakage, reducing GSH depletion, preventing DNA oxidation damage and inhibiting subsequent activation of caspase-3 and p53, which are the main targets of H(2)O(2)-induced cell damage. In addition, we also found that icariin's neuroprotective effect may partly correlate with its inhibitory effect on JNK/p38 MAPK pathways. Therefore, our findings suggest that icariin is a candidate for a novel neuroprotective drug to against oxidative-stress induced neurodegeneration.     

Neuroprotective and Anti-Apoptotic Propensity of Bacopa monniera Extract Against Sodium Nitroprusside Induced Activation of iNOS,Heat Shock Proteins and Apoptotic Markers in PC12 Cells

Sodium nitroprusside (SNP) is a widely used nitric oxide (NO) donor, known to exert nitrative stress by up-regulation of inducible nitric oxide synthase (iNOS). Nω-nitro-l-arginine-methyl esther (L-NAME) is a NO inhibitor, which inhibits iNOS expression, is used as positive control. The present study was designed to assess neuroprotective propensity of Bacopa monniera extract (BME) in SNP-induced neuronal damage and oxido-nitrative stress in PC12 cells via modulation of iNOS, heat shock proteins and apoptotic markers. Our results elucidate that pre-treatment of PC12 cells with BME ameliorates the mitochondrial and plasma membrane damage induced by SNP (200 μM) as evidenced by MTT and LDH assays. BME pre-treatment inhibited NO generation by down regulating iNOS expression. BME replenished the depleted antioxidant status induced by SNP treatment. SNP-induced damage to cellular, nuclear and mitochondrial integrity was also restored by BME, which was confirmed by ROS estimation, comet assay and mitochondrial membrane potential assays respectively. BME pre-treatment efficiently attenuated the SNP-induced apoptotic protein biomarkers such as Bax, Bcl-2, cytochrome-c and caspase-3, which orchestrate the proteolytic damage of the cell. Q-PCR results further elucidated up-regulation of neuronal cell stress markers like HO-1 and iNOS and down-regulation of BDNF upon SNP exposure was attenuated by BME pre-treatment. By considering all these findings, we report that BME protects PC12 cells against SNP-induced toxicity via its free radical scavenging and neuroprotective mechanism.     

Malaysian macroalga Padina australis Hauck attenuates high dose corticosterone-mediated oxidative damage in PC12 cells mimicking the effects of depression

Oxidative damage has been associated with the pathophysiology of depression. Macroalgae are equipped with antioxidant defense system to counteract the effects of free radicals. We explored the use of Malaysian Padina australis to attenuate high dose corticosterone-mediated oxidative damage in a cellular model mimicking depression. Fresh specimen of P. australis was freeze-dried and extracted sequentially with hexanes, ethyl acetate and ethanol. The extracts were screened for their phytochemical contents and antioxidant activities. Ethanol extract demonstrated the most potent antioxidant capacity and was selected for subsequent assays against high dose corticosterone of 600 µM-mediated oxidative damage in the rat pheochromocytoma (PC12) cells. The corticosterone reduced the cell viability, glutathione (GSH) level, aconitase activity, and mitochondrial membrane potential (MMP); and increased the lactate dehydrogenase (LDH) release, intracellular reactive oxygen species (ROS) level and apoptosis. However, the extent of oxidative damage was reversed by 0.25–0.5 mg/mL ethanol extract suggesting a possible role of P. australis-based antioxidants in the mitochondrial defense against constant ROS generation and regulation of antioxidant pathway. The effects were similar to that of desipramine, a tricyclic antidepressant. Our findings indicate that P. australis can be developed as a mitochondria-targeted antioxidant to mitigate antidepressant-like effects.