Wnt3a protects SH-SY5Y cells against 6-hydroxydopamine toxicity by restoration of mitochondria function

Background:Wnt/β-catenin signal has been reported to exert cytoprotective effects in cellular models of several diseases,including Parkinson’s disease(PD).This study aimed to investigate the neuroprotective effects of actived Wnt/β-catenin signal by Wnt3a on SH-SY5Y cells treated with 6-hydroxydopamine(6-OHDA).Methods:Wnt3a-conditioned medium(Wnt3a-CM)was used to intervene dopaminegic SH-SY5Y cells treated with 6-OHDA.Cell toxicity was determined by cell viability and lactate dehydrogenase leakage(LDH)assay.The mitochondria function was measured by the mitochondrial membrane potential,while oxidative stress was monitored with intracellular reactive oxygen species(ROS).Western blot analysis was used to detect the expression of GSK3β,β-catenin as well as Akt.Results:Our results showed that 100μM 6-OHDA treated for 24 h significantly decreased cell viability and mitochondrial transmembrane potential,reduced the level ofβ-catenin and p-Akt,increased LDH leakage,ROS production and the ratio of p-GSK3β(Tyr216)to p-GSK3β(Ser9).However,Wnt3a-conditioned medium reversing SH-SY5Y cells against 6-OHDA-induced neurotoxicity by reversing these changes.Conclusions:Activating of Wnt/β-catenin pathway by Wnt3a-CM attenuated 6-OHDA-induced neurotoxicity significantly,which related to the inhibition of oxidative stress and maintenance of normal mitochondrial function.

Mitochondrial function and regulation of macrophage sterol metabolism and inflammatory responses

The aim of this review is to explore the role of mitochondria in regulating macrophage sterol homeostasis and inflammatory responses within the aetiology of atherosclerosis.Macrophage generation of oxysterol activators of liver X receptors(LXRs),via sterol 27-hydroxylase,is regulated by the rate of flux of cholesterolto the inner mitochondrial membrane,via a complex of cholesterol trafficking proteins.Oxysterols are key signalling molecules,regulating the transcriptional activity of LXRs which coordinate macrophage sterol metabolism and cytokine production,key features influencing the impact of these cells within atherosclerotic lesions.The precise identity of the complex of proteins mediating mitochondrial cholesterol trafficking in macrophages remains a matter of debate,but may include steroidogenic acute regulatory protein and translocator protein.There is clear evidence that targeting either of these proteins enhances removal of cholesterol via LXRα-dependent induction of ATP binding cassette transporters(ABCA1,ABCG1) and limits the production of inflammatory cytokines; interventions which influence mitochondrial structure and bioenergetics also impact on removal of cholesterol from macrophages.Thus,molecules which can sustain or improve mitochondrial structure,the function of the electron transport chain,or increase the activity of components of the protein complex involved in cholesterol transfer,may therefore have utility in limiting or regressing atheroma development,reducing the incidence of coronary heart disease and myocardial infarction.

有氧运动对肥胖大鼠肾功能异常及线粒体氧化应激的影响

目的:探讨不同强度有氧运动对肥胖大鼠肾功能异常以及线粒体氧化应激的影响。方法:选取SPF级5周龄雄性SD大鼠90只,适应性饲喂一周后,随机分为普通饮食组(CON,n=10)和高脂饮食组(n=80),高脂饮食组食用高脂饲料8周后,筛选肥胖伴肾功能异常大鼠40只随机分为4组:高脂饮食对照组(HFD)和高脂饮食+不同强度有氧运动组(40%VO_(2max)、60%VO_(2max)、80%VO_(2max)),每组各10只。各运动组采用跑台进行4周有氧运动干预,每周5天,每天60 min。4周干预后测量体重、体长、肾周和附睾脂肪重量,计算脂体比、Lee’s指数等形态指标,检测血清肌酐(SCr)、血清胱抑素C(Cystatin C)、尿微量白蛋白(mALB)等肾功能生化指标,HE染色和PAS染色观察肾脏病理变化,透射电镜观察肾脏和线粒体超微结构变化,ELISA试剂盒检测线粒体中超氧化物歧化酶(SOD)、丙二醛(MDA)、线粒体膜电位水平。结果:(1)有氧运动对肥胖大鼠肾功能异常相关生化指标的影响:与CON组相比,HFD组血清SCr、血清Cystatin C、尿mALB水平均显著上升(P<0.05);与HFD组相比,各运动干预组血清SCr水平显著降低(P<0.05),60%VO_(2max)组和80%VO_(2max)组血清Cystatin C和尿m ALB水平显著降低(P<0.05)。(2)有氧运动对肥胖大鼠肾脏和线粒体病理结构的影响:与CON组相比,HFD组肾小管上皮细胞轻中度变性,肾小球硬化指数(GSI)显著增加(P<0.05);各运动干预组肾小球肥大程度较HFD组均有所减轻,其中60%VO_(2max)组肾小管轮廓更加清晰,GSI显著下降(P<0.05)。与CON组相比,HFD组肾小管线粒体大量肿胀,60%VO_(2max)组较HFD组线粒体损伤状态明显改善。(3)有氧运动对肥胖大鼠肾脏线粒体氧化应激的影响:与CON组相比,HFD组大鼠肾脏线粒体MDA水平显著升高(P<0.05);各运动干预组较HFD组线粒体MDA水平显著下降(P<0.05),其中40%VO_(2max)组下降趋势最明显(P<0.05);与CON组相比,HFD组大鼠肾脏线粒体SOD和膜电位水平显著降低(P<0.05),40%VO_(2max)组和60%VO_(2max)组较HFD组显著升高(P<0.05)。结论:中低强度有氧运动可通过降低肥胖大鼠肾脏线粒体氧化应激水平改善肾功能异常,主要表现为下调血清肌酐、胱抑素C和尿微量白蛋白等肾功能生化指标水平并减轻肾组织损伤程度。

过表达NRF1减轻阿尔茨海默病模型小鼠的线粒体和认知功能障碍

目的探讨核呼吸因子1(NRF1)对阿尔茨海默病疾病(AD)模型小鼠线粒体及和认知功能障碍的影响。方法以5×FAD小鼠作为AD模型小鼠,并用脑立体定位注射稀疏标记的过表达NRF1的AAV病毒(AAV-NRF1)。Western blot法测定海马中NRF1的表达;用透射电镜观察海马中线粒体形态;用激光共聚焦显微镜观察CA1区稀疏标记神经元的树突棘并计数;Morris水迷宫实验评估小鼠认知和记忆功能;电生理法检测突触效能的长时程增强效应(LTP)。结果脑立体注射AAV-NRF1后,海马中NRF1表达升高(P<0.001),海马神经元中线粒体形态明显改善,小鼠的认知和记忆功能提高(P<0.01),海马CA1区神经元的树突棘密度增加(P<0.001)并产生持久稳定的LTP且fEPSP斜率增高(P<0.01)。结论在5×FAD小鼠AD模型中,NRF1过表达触发了线粒体功能障碍的修复,并改善了突触可塑性,推测这些改变参与到了过表达NRF1对AD认知功能障碍改善的治疗效果中。

线粒体功能障碍与放射性心脏损伤的研究进展

放射性心脏损伤(RIHD)是放射引起的一系列心血管并发症的统称,其临床主要表现有冠状动脉疾病、心肌病变、瓣膜病、心包炎、心包积液以及心律失常等。目前认为,线粒体功能障碍是RIHD的主要机制之一。心肌细胞含有大量线粒体,在辐射刺激下,线粒体基因、线粒体膜、氧化呼吸链、线粒体动力学等均发生不同程度的功能变化,可以影响心肌细胞的结局。现就RIHD过程中线粒体功能变化研究进展进行综述。

冷却贮藏期间滩羊肉氧化应激与线粒体功能损伤的关系

研究宰后冷却贮藏时间中氧化应激和线粒体损伤之间的相互关系,以冷却贮藏期间滩羊背最长肌(M.longissimus dorsi)为研究对象,设置N-乙酰-L-半胱氨酸(N-acetyl-L-cysteine,NAC)抑制组和生理盐水对照组,分别测定两个组冷却贮藏0、2、4、6、8 d时的线粒体膜通透性转换孔(mitochondrial permeability transition pore,MPTP)开放程度、膜电位、活性氧(reactive oxygen species,ROS)含量、复合物(Ⅰ、Ⅱ、Ⅲ、Ⅳ)活性、琥珀酸脱氢酶(succinate dehydrogenase,SDH)活性、过氧化氢酶(catalase,CAT)活性、超氧化物歧化酶(superoxide dismutase,SOD)活性、谷胱甘肽过氧化物酶(glutathione peroxidase,GSH-Px)活性以及丙二醛(malondialdehyde,MDA)含量的变化情况,并对其肌细胞线粒体微观结构进行观察,分析其变化情况。结果表明:在成熟过程中,抑制组和对照组的滩羊肉肌细胞线粒体的MPTP开放程度逐渐增大(P<0.05);ROS、MDA含量呈现上升趋势(P<0.05);线粒体膜电位和复合物(Ⅰ、Ⅱ、Ⅲ、Ⅳ)、SDH、CAT、SOD、GSH-Px活性呈现逐渐下降的趋势(P<0.05)。结论:滩羊在宰杀后,其肌肉组织中发生氧化应激反应,导致ROS含量显著增高,超出机体自身抗氧化防御清除过量ROS能力时,进而导致氧化还原系统失衡,而氧化还原系统的失衡进一步加速肌体内ROS水平的上升,从而引发MPTP开放和线粒体膜电位降低,严重损害线粒体,然而NAC可以缓解此类现象;ROS水平的上升会破坏线粒体电子传递链的正常运行,导致线粒体损伤加重;同时脂质氧化产物MDA也能损伤线粒体功能结构,导致线粒体发生肿胀、变形等,从而引起其生物功能紊乱。

TRP通道介导线粒体功能调控及其与心血管疾病关系研究进展

瞬时受体电位(transient receptor potential,TRP)通道是一类非选择性阳离子通道。近年来研究发现TRP通道与多种疾病有关,其中关于TRP通道通过线粒体功能调控参与相关心血管疾病机制的研究,正成为心血管疾病机制研究的热点之一。目前相关的文献主要集中在TRPV、TRPM和TRPC。本文主要就上述3种TRP通道在线粒体功能调节中的作用及其与心血管疾病的关系研究进展进行综述。

线粒体分裂抑制剂Mdivi-1对脓毒症大鼠肠道屏障功能的保护作用

目的拟探讨线粒体分裂抑制剂Mdivi-1对脓毒症大鼠肠道屏障功能的保护作用。方法采用盲肠结扎穿孔术(cecal ligation and puncture,CLP)复制大鼠脓毒症模型,根据脓毒症救治指南采用乳酸林格氏液(35 mL/kg)进行常规复苏,输液速度3 mL/h。同时在常规复苏的基础上静脉予以1 mg/kg Mdivi-1进行治疗。复苏结束后2 h观察各组大鼠肠道屏障功能、肠道中闭锁小带蛋白(zonula occludes-1,ZO-1)的表达、小肠病理变化、血清炎症因子肿瘤坏死因子α(tumor necrosis factorα,TNF-α)和白介素1-β(Interleukin-1β,IL-1β)的浓度、平均动脉血压(mean arterial blood pressure,MAP)和生存时间及72 h存活率。结果与假手术组相比,脓毒症大鼠肠通透性明显增加,D-乳酸明显升高,血清中炎性因子TNF-α和IL-1β浓度显著增高(P<0.05);病理结果显示肠绒毛断裂,腺体萎缩,炎性细胞显著增多。常规复苏治疗后,与脓毒症组相比,血清中TNF-α和IL-1β浓度、肠通透性、D-乳酸浓度轻微降低,肠绒毛紊乱轻微改善,提示常规复苏治疗后对脓毒症的保护作用是有限的。与常规治疗组相比,常规治疗联合线粒体分裂抑制剂Mdivi-1治疗后大鼠血清中TNF-α和IL-1β浓度、肠通透性、D-乳酸浓度显著降低(P<0.05),病理结果显示肠绒毛结构清晰,炎性细胞浸润明显改善。肠组织免疫荧光结果显示,与假手术组相比,脓毒症后紧密连接发生断裂,Mdivi-1治疗后较脓毒症组紧密连接断裂发生明显好转。细胞水平上,LPS刺激后肠上皮细胞间ZO-1表达量显著降低(P<0.05),Mdivi-1治疗后可逆转LPS导致的ZO-1表达量的降低(P<0.05)。结论Mdivi-1对脓毒症大鼠的肠道屏障功能具有保护作用,其机制可能是通过调节ZO-1的表达。

利用实时能量代谢检测技术研究贮存单采血小板的线粒体呼吸功能

目的探索利用实时能量代谢检测技术检测单采血小板(AP)中线粒体呼吸功能(MRF)的最佳条件参数,并研究AP在贮存过程中MRF的变化。方法收集AP标本,利用Seahorse XF检测其中MRF,通过调整AP的上样浓度、洗涤条件、线粒体呼吸调节药物浓度等多项参数,最后分别研究贮存1 d和5 d的AP中MRF。结果AP上样浓度为5×10^(7)/100μL时,基础呼吸值316±65为最优;洗涤组的基础呼吸值329±120比未洗涤组的57±7更优(P<0.05);FCCP浓度以2μmol/L为最优。贮存1 d AP的基础呼吸值为683±161,而贮存5 d AP的基础呼吸值为140±23(P<0.05);贮存1 d AP的最大呼吸值为1044±82,而贮存5 d AP最大呼吸值<200(P<0.05)。2组的MRF动力曲线有明显差异。结论实时能量代谢检测技术可以实现对AP中MRF的检测。AP在贮存过程中MRF明显受损,提示这可能是血小板贮存损伤的重要新机制。

基于脾-线粒体相关性探讨ICC功能障碍

功能性胃肠病(Functional gastrointestinal disorders,FGIDs)症状重叠常常存在病情错综复杂、临床中诊疗困难、易加重患者的心理、经济负担及造成相应的医疗资源的消耗等现状。研究发现,功能性消化不良(Functional dyspepsia,FD)和胃食管反流病(Gastroesophageal reflux disease,GERD)可能存在潜在的病理生理学联系,目前主要认为与食管下括约肌松弛及胃排空延迟所致胃肠道动力障碍有关。脾为后天之本,气血生化之源,布散精微于周身,蕴含机体所需能量及物质。线粒体有“动力工厂”之称,通过三羧酸循环及氧化磷酸化生成ATP为机体生命活动提供能量的同时还可以生成血红素。脾与线粒体的功能体现了相同生命活动的两种不同诠释方式。相关研究认为,辨证为脾虚时线粒体能量代谢障碍所致的Cajal间质细胞(Interstitial cells of Cajal,ICC)功能障碍与胃肠动力障碍关系密切。故本文基于“脾与线粒体”相关性,探讨ICC功能障碍与FD-GERD症状重叠的关系,提出脾虚与线粒体能量代谢障碍引发ICC功能障碍是造成FDGERD症状重叠的重要因素。除此之外,从通降理论入手,可以为诊治FD-GERD症状重叠提供较高的临床实用价值。

Injury of Mouse Brain Mitochondria Induced by Cigarette Smoke Extract and Effect of Vitamin C on It in vitro

Objective To investigate the toxicity of cigarette smoke extract (CSE) and nicotine on mouse brain mitochondria as well as the protective effect of vitamin C in vitro. Method Mouse brain mitochondria in vitro was incubated with CSE or nicotine in the absence or presence of vitamin C for 60 minutes, and the changes of mitochondrial function and structure were measured. Results CSE inhibited mitochondrial ATPase and cytochrome C oxidase activities in a dose-dependent manner. However, no significant changes in the peroxidation indices were observed when mitochondrial respiratory enzymes activity was inhibited, and protection of mitochondria from CSE-induced injury by vitamin C was not displayed in vitro. The effect of CSE on mouse brain mitochondria swelling response to calcium stimulation was dependent on calcium concentrations. CSE inhibited swelling of mitochondria at 6.5μmol/L Ca2+, but promoted swelling response at 250μmol/L Ca2+. Nicotine, the major component of cigarette smoke, showed no significant damage in mouse brain mitochondria in vitro. The CSE treatment induced mitochondrial inner membrane damage and vacuolization of the matrix, whereas the outer mitochondrial membrane appeared to be preserved. Conclusion The toxic effect of CSE on brain mitochondria may be due to its direct action on enzymatic activity rather than through oxygen free radical injury. Nicotine is not the responsible component for the toxicity of CSE to brain mitochondria.

Endogenous nitric oxide on mitochondrial oxygen consumption after cerebral ischemic reperfusion

Mammalian mitochondria are sensitive targets of cytotoxic effect of superoxide and nitric oxide (NO).In this study we measured mitochondrial state 3, 4 respiration, respiratory control rate (RCR) and phosphor-oxygen ratio (P/O) to evaluate mitochondrial respiratory function (MRF) in cerebral ischemia and at 1, 3, 6, 24 and 48 h after reperfusion. We also observed the changes of MRF after giving N-nitro L- arginine (LNA) at various times. MRF was inhibited 30 min after cerebral ischemia. The major change was decrease in RCR, especially in the case of state 3 respiration. In the early stage of reperfusion, MRF recovered and state 3 was higher than the level of normal control. In later stage of reperfusion (at 6 h), obvious increase in state 4 led to decrease in RCR again. RCR was higher than that of reperfusion control by decreasing of state 4 when LNA was given at 1 h after reperfusion and 5 h thereafter; there were no change in MRF when LNA was given at the beginning of reperfusion. We concluded that MRF was further damaged, and ineffective oxygen consumption increased after reperfusion; LNA could protect MRF after reperfusion. Overproduction of endogenous NO has pathologic toxicity to mitochondria at 1- 2 h after reperfusion.

Glucose-mediated mitochondrial reprogramming by cholesterol export at TM4SF5-enriched mitochondria-lysosome contact sites

Background:Transmembrane 4 L six family member 5(TM4SF5)translocates subcellularly and functions metabolically,although it is unclear how intracellu-lar TM4SF5 translocation is linked to metabolic contexts.It is thus of interests to understand how the traffic dynamics of TM4SF5 to subcellular endosomal membranes are correlated to regulatory roles of metabolisms.Methods:Here,we explored the metabolic significance of TM4SF5 localization at mitochondria-lysosome contact sites(MLCSs),using in vitro cells and in vivo animal systems,via approaches by immunofluorescence,proximity labelling based proteomics analysis,organelle reconstitution etc.Results:Upon extracellular glucose repletion following depletion,TM4SF5 became enriched at MLCSs via an interaction between mitochondrial FK506-binding protein 8(FKBP8)and lysosomal TM4SF5.Proximity labeling showed molecular clustering of phospho-dynamic-related protein I(DRP1)and certain mitophagy receptors at TM4SF5-enriched MLCSs,leading to mitochondrial fis-sion and autophagy.TM4SF5 bound NPC intracellular cholesterol transporter 1(NPC1)and free cholesterol,and mediated export of lysosomal cholesterol to mitochondria,leading to impaired oxidative phosphorylation but intact tri-carboxylic acid(TCA)cycle andβ-oxidation.In mouse models,hepatocyte Tm4sf5 promoted mitophagy and cholesterol transport to mitochondria,both with positive relations to liver malignancy.Conclusions:Our findings suggested that TM4SF5-enriched MLCSs regu-late glucose catabolism by facilitating cholesterol export for mitochondrial reprogramming,presumably while hepatocellular carcinogenesis,recapitulating aspects for hepatocellular carcinoma metabolism with mitochondrial repro-gramming to support biomolecule synthesis in addition to glycolytic energetics.

芫花素等黄酮类化合物对阿尔兹海默症的保护作用及其机制研究

阿尔兹海默症是一种与年龄相关的退行性疾病,以Aβ沉积形成斑块、Tau蛋白过度磷酸化形成神经纤维缠结为主要病理表现。黄酮类化合物是一种自然界广泛存在的次级代谢产物,具有神经保护作用。该研究以冈田酸(OA)诱导人神经母细胞瘤SH-SY5Y建立Tau蛋白过度磷酸化的AD体外细胞模型,基于该细胞模型对青藏高原特色植物中的黄酮类化合物进行体外抗AD活性的研究。利用Western blot检测Ser^(396)位点的磷酸化水平,评价黄酮类化合物对该模型的保护作用。并利用上述AD模型研究筛选得到的黄酮类化合物对线粒体功能(活性氧和膜电势)以及相关蛋白表达水平的影响。研究结果表明,筛选得到的有效化合物芫花素(T8)可通过降低Tau蛋白过度磷酸化、改善线粒体功能障碍和降低细胞内ROS等方面起到神经保护作用,对进一步开发预防或治疗AD药物研究提供实验依据。

强心汤对OMA1封闭心力衰竭大鼠心肌组织Caspase-3、Bax、Bcl-2表达的影响

目的:观察强心汤对大鼠心肌组织半胱氨酸天冬氨酸蛋白酶3(Caspase-3)、Bcl-2家族相关x蛋白(Bax)、B细胞淋巴瘤/白血病-2(Bcl-2)表达的影响,探讨强心汤调控心肌细胞凋亡的可能作用机制。方法:采用结扎大鼠冠状动脉左前降支的方式建立慢性心力衰竭(CHF)大鼠模型,将50只SD大鼠按随机数字表法分为5组,分别为模型组、金属蛋白酶相关蛋白1(OMA1)封闭组、强心汤组、OMA1封闭+强心汤组、假手术组,其中假手术组大鼠的左冠状动脉只穿线不结扎。经心脏彩超检测提示大鼠左室射血分数(LVEF)下降20%~30%左右判定造模成功,成功造模后第2天开始,相应实验组分别进行OMA1基因封闭,等剂量强心汤混悬液、生理盐水灌胃处理,4周后使用心脏彩超检测各组大鼠心脏左室心功能指标,即左室舒张末期内径(LVEDD)、左室收缩末期内径(LVESD)、LVEF。采用逆转录聚合酶链式反应(qRT-PCR)、蛋白质免疫印迹法(Western Blot)检测大鼠心肌组织中OMA1及Caspase-3、Bcl-2、Bax的mRNA和蛋白表达情况。结果:与假手术组相比,模型组大鼠LVEDD、LVESD升高,LVEF降低,心肌组织OMA1及Caspase-3、Bax mRNA和蛋白表达均升高,Bcl-2 mRNA和蛋白表达均下降(P<0.05)。各干预组与模型组比较,干预组大鼠左室心功能明显改善,心肌组织的OMA1及Caspase-3、Bax、Bcl-2 mRNA和蛋白表达均优于模型组;各干预组间比较上述指标改善情况显示OMA1封闭组优于强心汤组,OMA1封闭+强心汤组优于OMA1封闭组和强心汤组(P<0.05)。结论:强心汤可能通过上调Bcl-2和下调OMA1、Bax、Caspase-3的表达水平,调控心肌线粒体功能和心肌凋亡,从而保护心肌,改善心功能。

线粒体功能在B细胞发育分化及活化中的作用

B细胞从骨髓起始发育,到外周器官成熟,是介导体液免疫的重要细胞。在抗原的刺激下,B细胞分化为浆细胞产生特异性抗体或分化为记忆B细胞。线粒体是细胞的能量产生及代谢中心,负责为细胞提供充足的能量。当线粒体功能受损时,会影响其能量供应,从而改变细胞的命运;而细胞的不同状态也会影响线粒体的功能。近年研究显示,线粒体功能在B细胞的发育和活化中起着重要作用,以适应细胞整个周期中遇到的表型和环境变化。本文主要综述了线粒体功能在B细胞发育、分化及活化过程中的作用,以及在B细胞的不同阶段、不同状态下发生的改变,为探究线粒体相关疾病的机制研究提供新思路,为B细胞相关疾病的治疗提供新的理论依据。

线粒体相关内质网膜对线粒体功能的影响

线粒体是一种具有半自主性的细胞器。生物体内的生物合成、呼吸、分泌及机械运动等全部细胞活动所需要的化学能都是由线粒体提供的。线粒体相关内质网膜(MAMs)是与线粒体紧密联系的脂筏样结构域,位于线粒体与内质网(ER)之间。MAMs不仅仅在结构上连接ER和线粒体,还富含多种连接和功能蛋白,因此MAMs必然会对ER和线粒体功能产生影响。文章综述了MAMs的结构、分子组成及其对线粒体功能的影响,主要集中在线粒体融合、线粒体分裂、线粒体自噬、线粒体能量代谢及线粒体活性氧生成等方面,以期为通过MAMs调控线粒体功能来改善相关疾病提供参考。

11β-羟化类固醇脱氢酶敲除对高脂饮食喂养小鼠认知功能的影响

目的:探究11β-羟化类固醇脱氢酶1(11β-hydroxysteroid dehydrogenase,11β-HSD1)基因敲除对小鼠整体代谢和认知功能的影响。方法:将C57BL/6J为遗传背景的野生对照组及11β-HSD1基因敲除组各15只小鼠高脂喂养20周,代谢笼评估能量代谢,行为学评估观察小鼠认知功能,电镜评估海马体的线粒体结构,免疫荧光及PCR确定其认知功能、线粒体功能相关基因及炎症基因的变化。结果:11β-HSD1基因敲除能够提高高脂喂养小鼠学习和记忆能力,改善握力,改善海马体的微结构、线粒体含量变多,认知相关基因、线粒体呼吸功能相关基因上调,炎症相关基因改变。结论:11β-HSD1敲除后高脂饮食喂养小鼠认知功能显著改善,握力显著提高,可能是治疗认知功能障碍的有效靶点。

PGC-1α调控非酒精性脂肪肝病线粒体功能的作用研究

目的探究过氧化物酶体增殖物激活受体γ共激活因子1α(peroxisome proliferators-activated receptors gamma co-activator 1α,PGC-1α)介导线粒体功能对游离脂肪酸(free fatty acids,FFA)诱导的HepG2非酒精性脂肪肝病模型的作用机制。方法HepG2细胞分为4组,即对照组、FFA模型组(1.5mmol/L FFA孵育24h)、LV-PGC-1α干预组(PPARGC1A慢病毒转染后,1.5mmol/L FFA孵育24h)和LV-control干预组(阴性对照慢病毒转染后,1.5mmol/L FFA孵育24h)。磷酸甘油氧化酶法检测细胞内甘油三酯(triglyceride,TG),胆固醇氧化酶法检测总胆固醇(total cholesterol,TC)含量;油红O染色观察脂滴聚集;比色法检测细胞中超氧化物歧化酶(superoxide dismutase,SOD)和谷胱甘肽过氧化物酶(glutathione peroxidase,GSH-PX)的活性,丙二醛(malondialdehyde,MDA)含量;微板法检测细胞上清液天冬氨酸氨基转移酶(aspartate aminotransferase,AST)、丙氨酸氨基转移酶(alanine aminotransferase,ALT)变化;ATP试剂盒检测细胞ATP含量,PCR检测mtDNA复制倍数;Western blot法检测脂质分解和线粒体生物合成相关蛋白的表达情况。结果与对照组比较,FFA模型组细胞内脂质蓄积显著增加,肝细胞损伤加重,氧化应激水平升高,细胞ATP含量下降,mtDNA复制倍数减少,脂质分解蛋白过氧化物酶体增殖物激活受体α(peroxisome proliferators-activatedreceptors alpha,PPARα)、肉毒碱棕榈酰转移酶-1A(carnitine palmitoyltransferase-1A,CPT-1A)表达降低,线粒体生物合成相关蛋白PGC-1α、核呼吸因子1(nuclear respiratory factor-1,NRF-1)、线粒体转录因子A(mitochondrial transcription factor A,mtTFA)表达降低。与LV-control干预组比较,LV-PGC-1α干预组细胞内TG和TC含量显著降低,脂滴蓄积减少,肝细胞损伤降低,细胞氧化应激损伤减轻,细胞ATP含量增加,mtDNA复制倍数增加,脂质分解和线粒体生物合成相关蛋白的表达增加。结论PGC-1α过表达增强线粒体生物合成、ATP生成、减轻氧化应激,加强脂肪酸氧化分解,降低HepG2细胞脂质蓄积。

沙棘油对黑曲霉线粒体结构及功能的影响

该文研究沙棘油对黑曲霉线粒体结构和功能的影响,并评估沙棘油对黑曲霉的抗真菌效果。通过以不同的浓度沙棘油处理黑曲霉菌丝体,提取黑曲霉线粒体,并利用透射电子显微镜对线粒体超微结构进行观察;为进一步验证不同浓度沙棘油处理对黑曲霉线粒体功能的影响,测定黑曲霉线粒体的活性氧、丙二醛水平,细胞膜电位变化,三羧酸循环相关酶(琥珀酸脱氢酶和三磷酸腺苷酶)活性变化。结果表明:沙棘油以剂量依赖的方式诱导黑曲霉线粒体结构损伤,经沙棘油处理后的黑曲霉线粒体表现出明显的空泡化、形成异常小泡和线粒体基质结构遭到破坏的迹象,且导致线粒体琥珀酸脱氢酶和三磷酸腺苷酶活性显著降低,线粒体膜电位明显降低,丙二醛和活性氧水平显著升高。综上,沙棘油可以破坏线粒体膜通透性,导致线粒体结构破坏,从而损害线粒体功能,达到抗真菌效果。