内质网应激与肝细胞脂类代谢

肝细胞担负大量的代谢功能,包括脂肪酸的合成与类固醇的代谢。内质网应激反应（ERstressresponse）作为内质网中特殊的机制用以保证内质网内部的稳态和功能正常。有研究指出内质网应激诱导的信号通路及其通路上的关键蛋白参与肝细胞的脂类代谢过程。本文主要讨论内质网应激反应影响肝细胞脂类代谢的机制,以及内质网应激与脂类代谢紊乱疾病的相关性。     

内质网应激与肝脏疾病

内质网在细胞内分布广泛,是细胞内蛋白质、脂类和糖类合成的重要场所,是细胞内钙离子的储存场所,与物质运输、交换等作用密切相关。内质网稳态失衡会诱导内质网应激(Endoplasmic reticulum stress,ERS),持久应激会导致细胞凋亡。多项研究显示内质网应激与多种肝脏疾病密切相关。本文就内质网应激与肝脏疾病发病机制作一综述。     

内质网应激与心脏疾病

内质网是细胞内蛋白质合成折叠、Ca2+储存和脂质合成的重要部位.内质网稳态的破坏将导致大量错误或者未折叠蛋白质在内质网中的聚集,通过相应的信号通路,引起一系列的细胞反应,即内质网应激.内质网应激参与心脏的发育和多种心脏疾病的发生发展,包括心肌缺血和再灌注损伤、心肌病、心力衰竭等.内质网应激可能是研究心血管疾病发病机制和防治措施的新靶点.     

硫化氢与内质网应激的相关关系

<正>内质网(Endoplasmic reticulum,ER)是真核细胞中一种重要的细胞器,它的主要功能是参与蛋白质合成,折叠和分泌。如果ER的功能受损、紊乱,继而会导致细胞一系列的病理生理变化,称为内质网应激(Endoplasmic reticulum stress,ERS)~([1])。ERS诱导一系列疾病的产生,包括动脉粥样硬化~([2]),神经退行性疾病~([3])和应激疾病~([4])。以往的研究只发现硫化氢(Hydrogen sulfide,H2S)是一种有毒气体,而且具     

内质网应激与帕金森病

内质网是细胞内最重要的细胞器之一,内质网功能与细胞状态密切相关。异常蛋白在内质网的堆积、胆固醇代谢异常、钙代谢紊乱等均能引起内质网应激。内质网应激在细胞生理病理中发挥重要作用。研究表明:内质网应激与神经退行性疾病,如帕金森病密切相关。该文简单概述了内质网应激与帕金森病之间的关系。     

疱疹病毒与内质网应激

内质网是分泌型蛋白和膜蛋白折叠及翻译后修饰的主要场所.病毒感染所引起的宿主细胞内环境的改变可使细胞或病毒的未折叠和/或错误折叠蛋白在内质网中大量聚集,使内质网处于生理功能紊乱的应激状态.为了缓解这种应激压力,细胞会启动未折叠蛋白反应(UPR),并通过一系列分子的信号转导维持内质网稳态;同时病毒也会通过对UPR的精密调控...     

血管内皮细胞内质网应激

内质网是调控细胞内膜型/分泌型蛋白质合成、钙稳态和细胞凋亡的重要细胞器,多种因素影响内质网稳态、触发内质网应激。适当的内质网应激通过激活未折叠蛋白反应促进内质网紊乱的恢复,但过度内质网应激触发内质网相关凋亡途径,参与多种疾病的发生。血管内皮细胞具有高度发达的内质网,对内质网应激非常敏感,本文综述血管内皮细胞内质网应激反应及其在血管损伤相关疾病中的作用。     

内质网应激与心肌肥大

肌浆网是调控心肌细胞钙稳态、蛋白质合成和细胞凋亡的重要亚细胞器。内质网应激是指内质网理化环境改变和过负荷等因素导致未折叠/误折叠蛋白在内质网聚集和钙稳态失衡等内质网功能紊乱状态。适度的内质网应激有利于心肌细胞代偿,持续而严重的内质网应激则触发内质网应激相关细胞凋亡,造成肥大心肌由代偿转向衰竭,是影响心肌肥大发生、发展的重要因素。本文综述了内质网应激反应在心肌肥大发生、发展中的作用。     

内质网应激与糖尿病动脉粥样硬化

动脉粥样硬化是糖尿病常见的并发症,80%的糖尿病患者死于动脉粥样硬化。近年来内质网应激在糖尿病动脉粥样硬化发生、发展过程中的作用受到了广泛关注。本文就内质网应激及其在糖尿病促发动脉粥样硬化中的作用机制作一概述。     

内质网应激

内质网应激表现为内质网腔内错误折叠与未折叠蛋白聚集以及Ca^2 平衡紊乱,可激活未折叠蛋白反应、内质网超负荷反应和caspase-12介导的凋亡通路等信号途径,既能诱导糖调节蛋白(glucose-regulated protein 78kD,GRP78)、GRP94等内质网分子伴侣表达而产生保护效应,亦能独立地诱导细胞凋亡。内质网应激直接影响应激细胞的转归,如适应、损伤或凋亡。     

酒精与肝脏脂质代谢

酒精滥用是一个重大的公共健康问题。酒精通过刺激脂肪酸合成,抑制脂肪酸的氧化导致肝脏脂质积累,进而诱发肝细胞病变,导致脂肪肝的病发。从转录调控脂质代谢的改变,异常甲硫氨酸代谢对内质网应激反应的作用等方面概述酒精与脂质代谢的相互调控机制,并阐述了这些调控机制之间的内在联系以及酒精如何影响肝脏脂质代谢,从而导致脂肪肝形成的最新相关研究进展。     

Morin hydrate attenuates CSE-induced lipid accumulation,ER stress,and oxidative stress in RPE cells: implications for age-related macular degeneration

Oxidative stress has a key role in the pathogenesis of age-related macular degeneration (AMD). Cigarette smoking is known to the one of the main risk factors of AMD through oxidative stress-mediated endoplasmic reticulum (ER) stress and lipid accumulation in human retinal pigment epithelium (RPE) cells. A number of studies have investigated the benefits of antioxidants in the AMD. However, previous studies have not shown that efficacy of antioxidant in the treatment of AMD. Recent studies demonstrated that morin hydrate (MH) has antioxidant properties, anti-inflammatory, and antiapoptosis effects, however, the protective effects of MH against cigarette smoke extract (CSE)-induced AMD have not been studied in detail. We tested the potential effect of MH against the CSE-induced lipid accumulation in RPE cells and mice RPE layer. Herein, we observed that expose of RPE cells to CSE reduced cell viability, increased the lipid accumulation, ER stress, and oxidative stress. Concomitantly, CSE treatment to mice induced AMD associated histopathological changes, lipid accumulation, ER stress and oxidative stress in RPE layer. MH significantly attenuated cytotoxicity, lipid accumulation, ER stress, and oxidative stress via activated AMPK-Nrf2 signaling pathway in RPE cells and mice RPE layer. In addition, AMPK inhibition reversed MH-induced RPE cell protection against CSE. Thus, we conclude that MH protects RPE cells from CSE through reduced oxidative stress, ER stress, and lipid accumulation via activated AMPK-Nrf2-HO-1 signaling pathway. These findings suggest that MH treatment may be exploited in effective strategy against CSE-induced AMD.     

TMEM41B acts as an ER scramblase required for lipoprotein biogenesis and lipid homeostasis

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Time-dependent changes in lipid metabolism in mice with methionine choline deficiency-induced fatty liver disease

Methionine and choline-deficient diet (MCD)-induced fatty liver is one of the best-studied animal models of fatty liver disease. The present study was performed to clarify the relative contributions of individual lipid metabolic pathways to the pathogenesis of MCD-induced fatty liver. Hepatic lipogenesis mediated by the sterol regulatory element-binding protein (SREBP-1c) was increased at 1 week, but not at 6 weeks, of MCD feeding. On the other hand, ¹⁴C-palmitate oxidation did not change at 1 week, but significantly decreased at 6 weeks. This decrease was associated with increased expression of fatty acid translocase, a key enzyme involved in fatty acid uptake. Expression of endoplasmic reticulum stress markers was increased in mice given MCD for both 1 and 6 weeks. These findings suggest the presence of time-dependent differences in lipid metabolism in MCD-induced fatty liver disease: SREBP-1c-mediated lipogenesis is important in the early stages of fatty liver disease, whereas increased fatty acid uptake and decreased fatty acid oxidation become more important in the later stages.