The Role and Mechanism of Unfolded Protein Response Pathway in Tumor Drug Resistance

In the process of tumor proliferation and metastasis,tumor cells encounter hypoxia,low glucose,acidosis,and other stressful environments.These conditions prompt tumor cells to generate endoplasmic reticulum stress(ERS).As a signal mechanism that mitigates ERS in eukaryotic cells,the unfolded protein response(UPR)pathway can activate cells and tissues,regulating pathological activities in various cells,and maintaining ER homeostasis.It forms the most crucial adaptive and defensive mechanism for cells.However,under the continuous influence of chemotherapy drugs,the quantity of unfolded proteins and erroneous proteins produced by tumor cells significantly increases,surpassing the normal regulatory range of UPR.Consequently,ERS fails to function properly,fostering tumor cell proliferation and the development of drug resistance.This review delves into the study of three UPR pathways(PERK,IRE1,and ATF6),elucidating the mechanisms of drug resistance and research progress in the signal transduction pathway of UPR related to cancers.It provides a profound understanding of the role and relationship between UPR and anti-tumor drugs,offering a new direction for effective clinical treatment.

Mannogalactoglucan from mushrooms protects pancreatic islets via restoring UPR and promotes insulin secretion in TIDM mice

Type 1 diabetes mellitus(T1DM) lacks insulin secretion due to autoimmune deficiency of pancreaticβ-cells.Protecting pancreatic islets and enhancing insulin secretion has been therapeutic approaches.Mannogalactoglucan is the main type of polysaccharide from natural mushroom,which has potential medicinal prospects.Nevertheless,the antidiabetic property of mannogalactoglucan in T1DM has not been fully elucidated.In this study,we obtained the neutral fraction of alkali-soluble Armillaria mellea polysaccharide(AAMP-N) with the structure of mannogalactoglucan from the fruiting body of A.mellea and investigated the potential therapeutic value of AAMP-N in T1DM.We demonstrated that AAMP-N lowered blood glucose and improved diabetes symptoms in T1DM mice.AAMP-N activated unfolded protein response(UPR) signaling pathway to maintain ER protein folding homeostasis and promote insulin secretion in vivo.Besides that,AAMP-N promoted insulin synthesis via upregulating the expression of transcription factors,increased Ca^(2+) signals to stimulate intracellular insulin secretory vesicle transport via activating calcium/calmodulin-dependent kinase Ⅱ(CamkⅡ) and cAMP/PKA signals,and enhanced insulin secretory vesicle fusion with the plasma membrane via vesicle-associated membrane protein 2(VAMP2).Collectively,these studies demonstrated that the therapeutic potential of AAMP-N on pancreatic islets function,indicating that mannogalactoglucan could be natural nutraceutical used for the treatment of T1DM.

线粒体未折叠蛋白反应在棕榈酸诱导肾小管上皮细胞脂质聚集中的作用

目的探讨线粒体未折叠蛋白反应(mitochondrial unfolded protein reaction,UPR^(mt))对肾小管上皮细胞(human kidney 2,HK-2)脂代谢的影响。方法采用棕榈酸(palmitic acid,PA)诱导HK-2细胞内脂质聚集,分别予siRNA抑制UPR^(mt)或巴多索隆(the 2-cyano-3,12-dioxooleana-1,9-dien-28-oic acid,CDDO)增强UPR^(mt)。油红染色观察细胞内脂质聚集情况,线粒体膜电位检测试剂盒(JC-1)测定线粒体膜电位(mitochondrial membrane potential,MMP),Mito-SOX测定线粒体内活性氧(reactive oxygen species,ROS)含量,Western blotting检测HSP60、LONP1、CLPP、ACOX1、PPARα、PGC1α、CPT1α蛋白表达。结果PA诱导HK-2细胞脂质聚集、MMP降低、ROS产生增多及UPR^(mt)关键蛋白HSP60、LONP1表达降低;抑制UPR^(mt)可加剧PA导致的脂质聚集、MMP降低、ROS产生增多,HSP60、LONP1表达进一步降低;增强UPR^(mt)可缓解PA导致的脂质聚集、MMP降低、ROS产生增多以及HSP60、LONP1表达降低。结论PA诱导的HK-2细胞脂质聚集可能与线粒体功能障碍有关,UPR^(mt)在该过程中对HK-2细胞具有保护作用。

ERsHSP的过量表达减缓番茄体内低温诱导的UPR应答

本文对过表达内质网小分子热激蛋白（ERsHSP）的转基因番茄植株进行了抗寒性和UPR应答分析。结果表明，同对照相比，过表达ERsHSP的转基因番茄具有较强的抗寒性，其冷害症状轻，叶绿素含量的损失少，体内积累的MDA含量少，电解质外渗程度低并具有较高的净光合速率；低温能够诱导番茄体内BiP和Calnexin mRNA表达量的增加，但相同胁迫条件下，转基因番茄中BiP和Calnexin mRNA的表达量显著低于对照；处理72h时，对照中BiP和Calnexin mRNA的表达量达到最高，随后开始下降，而转基因番茄中BiP和Calnexin mRNA的表达量呈稳定上升趋势。说明过表达ERsHSP能够减缓并维持低温胁迫下转基因番茄中的UPR应答，减轻低温诱导的ER胁迫。

The Life of a Protein Molecule——Protein Quality Control

The research progress in molecular chaperones, unfolded protein response （UPR） and ER-associated degradation （ERAD） involved in the protein quality control was summarized in this paper, and then the existing problems and the future devel- opment prospect were also discussed. It was pointed out that the life process of protein experienced four stages including synthesizing, folding, assembling and degradation, while each stage required strict quality control. In endoplasmic reticulum （ER）, a variety of proteins had been synthesized, folded and modified to form func- tional proteins with certain conformation. When the folding was blocked in ER, the unfolded proteins would aggregate and induce the UPR, which up-regulated the level of modification enzymes folded by a series of molecular chaperones and proteins to help them accomplish folding and assembling. If these proteins were still folded incorrectly, they would enter into ERAD for being degraded.

Non-ionizing radiofrequency field induces unfolded protein response (UPR) in endoplasmic reticulum of mouse neuronal cells

Objective:To examine whether exposure of mouse neuronal cells to radiofrequency fields used in mobile communication devices can induce stress in endoplasmic reticulum(ER)and activate unfolded protein response(UPR).Methods:HT22 mouse hippocampus neuronal cells were exposed to continuous wave 900 MHz radiofrequency fields(RF)at 120μW/cm2 power intensity for 4 h/d for 5 consecutive days.The positive control cells were irradiated with 4 Gy of 60Coγ-rays at a dose rate of 0.5 Gy/min(GR).Twenty-four hours after the last exposure,cells were collected,and the expressions of sensor transmembrane proteins were detected using Western blot analysis.Results:The expression levels of Ire1,PERK,p-IRE1 and p-PERK,GRP78 and CHOP proteins were detected.There were no statistically significant differences in the expression levels of IRE1 and PERK proteins in control(CT),sham(SH)-,RF-and GR-exposed cells(P<0.05).The phosphorylated protein levels of p-IRE1 and p-PERK were significantly increased in cells exposed to RF and GR(P<0.05).The expression levels of GRP78 and CHOP were significantly increased in RF-and GR-exposed cells compared to CT and SH-exposed cells(P<0.05).Cells treated with 1μg/ml TM for 24 h showed significantly increased expression levels of GRP78 and CHOP proteins compared to controls(P<0.05).In the presence of 2 mmol/L PBA,TM-induced increased levels of GRP78 and CHOP proteins were reduced(P<0.05).Conclusions:The exposure of non-ionizing 900 MHz RF was able to cause stress in HT22 mouse neuronal cells and activated UPR in ER.Since UPR plays an important role in both cell survival(when UPR is mitigated)and apoptosis/death(under unresolvable stress conditions),further studies are required to determine the fate of the cells exposed to RF.

稳定表达未折叠蛋白反应荧光报告基因的SH-SY5Y细胞系建立

目的通过稳定表达70 kD热休克蛋白(HSP)4重组蛋白(HSPA4)-增强型绿色荧光蛋白(EGFP)的SH-SY5Y细胞系,直观实时反映细胞内未折叠蛋白反应(UPR)的变化。方法以SH-SY5Y细胞的cDNA为模板,克隆HSPA4,并连接EGFP。将HSPA4-EGFP连接入慢病毒载体中,慢病毒转染SH-SY5Y细胞。使用3μg/ml嘌呤霉素处理细胞1个月,筛选得到HSPA4-EGFP稳转系。通过实时荧光定量聚合酶链反应(QPCR)、Western印迹、共聚焦显微镜检测等方法,证实HSPA4-EGFP稳转系能有效且实时反映UPR的变化。结果扩增到HSPA4-EGFP,并成功构建HSPA4-EGFP稳定表达的UPR报告系统。QPCR检测表明,构建的报告系统可以指示UPR。在激光共聚焦显微镜下,可以观察到细胞内绿色EGFP的点状分布,其能够反映UPR错误折叠蛋白的多少及分布,分别加入UPR激活剂、抑制剂后,细胞内绿色EGFP的点状分布明显增多和减少,差异有统计学意义(P<0.05)。Western印迹检测到细胞中HSPA4-EGFP融合蛋白表达条带。结论成功构建HSPA4-EGFP稳转系,能够直观实时反映UPR变化,为深入研究UPR及其相关疾病(包括老年性疾病)提供工具。

化痰通络方对急性脑梗死溶栓后内质网应激未折叠蛋白反应相关因子的影响

目的观察化痰通络方对急性脑梗死大鼠重组组织纤溶酶原激活剂(rt-PA)溶栓后内质网应激(ERS)未折叠蛋白反应(UPR)相关分子基因和蛋白表达的影响,探讨化痰通络方调控急性脑梗死溶栓后内质网稳态的作用机制。方法将160只健康SD大鼠随机分为假手术组、模型组、rt-PA组、rt-PA+化痰通络组,每组40只,采用自身栓子法制备大鼠大脑中动脉栓塞模型(MCAO),rt-PA组与rt-PA+化痰通络组于血栓注入后3 h一次性予以rt-PA溶栓治疗,后者联合给予9 ml/kg化痰通络方浓缩剂灌胃治疗,每日2次,分别于造模后6 h,1 d,3 d,7 d 4个时点,应用Western印迹法及荧光定量PCR检测UPR相关信号转导途径中关键靶点IRE1、PERK、ATF6蛋白和基因及GRP78/Bi P基因表达水平。结果同一组内,与6 h相比,各组IRE1基因和蛋白均以6 h时表达量最高(P<0.05),各组PERK、ATF6基因和蛋白与Bi P蛋白以1 d时表达量最高(P<0.05);与假手术组相比,模型组在4个时相中各指标的表达量均较假手术组明显增加(P<0.05);与模型组相比,rt-PA组、rt-PA+化痰通络组IRE1基因和蛋白、Bi P基因表达量增高(P<0.05),PERK、ATF6基因和蛋白表达量降低(P<0.05);rt-PA+化痰通络组IRE1基因和蛋白、Bi P蛋白表达量高于rt-PA组,且以6 h、1 d、3 d差异显著(P<0.05);PERK基因和蛋白表达与rt-PA组无明显差异(P>0.05);rt-PA+化痰通络组ATF6基因和蛋白表达量低于rt-PA组,且以3、7 d差异显著(P<0.05)。结论化痰通络方可能通过调控急性脑梗死溶栓后大鼠脑组织ERS中UPR靶分子IREI、Bi P的表达,进而起到防止缺血再灌注损伤的保护作用。

未折叠蛋白反应在强噪声致豚鼠耳蜗细胞损伤过程中的作用

目的探讨未折叠蛋白反应(unfolded protein response,UPR)标志物葡萄糖调节蛋白78(Bip/GRP78)在强噪声致豚鼠耳蜗细胞损伤中的作用。方法 48只豚鼠随机分为6组,分别为健康对照组(不给噪声暴露)和强噪声暴露后3 h、1 d、4 d、14 d、30 d组,每组8只,噪声暴露的5组豚鼠在120 dB SPL、4 kHz窄带噪声环境暴露4 h后,各组豚鼠于相应时间点处死前及对照组均测试听性脑干反应(ABR),然后每组各取4只豚鼠耳蜗作石蜡切片,余4只豚鼠提取耳蜗总蛋白。用免疫组化及Western Blot方法检测Bip/GRP78的表达及其在耳蜗的分布。结果强噪声暴露后各组Bip/GRP78蛋白表达明显高于正常组,且各时间点都维持在比较高的水平,Bip/GRP78蛋白在噪声暴露后各组豚鼠耳蜗的内外毛细胞、螺旋神经节细胞、侧壁细胞均有表达。结论强噪声暴露后,启动UPR保护机制,通过上调分子伴侣Bip/GRP78的表达,引导蛋白质正确折叠,降低细胞损伤,可能是耳蜗内源性保护机制之一。

丙型肝炎病毒非结构蛋白NS4B诱导细胞非折叠蛋白反应

用RT-PCR和免疫印迹的方法检测稳定表达NS4B的HeLa细胞中的XBP1;通过RT-PCR的方法在表达NS4B的HeLa和Huh-7细胞中检测ATF6,Grp78和caspase-12的转录,并且通过报告基因的方法分析XBP1和Grp78启动子活性。实验结果表明:在表达NS4B的HeLa细胞中检测到XBP1的两种形式(剪接和未剪接),此外,在细胞中ATF6、Grp78的转录水平和XBP1、Grp78启动子的荧光素酶活性较没有表达NS4B的HeLa和Huh-7细胞中的量有所增加;通过染色质免疫沉淀实验(ChIP)分析,这些增加可能是由于XBP1结合到了这些基因的启动子上引起的。总之,实验结果可提示HCVNS4B通过ATF6或XBP1途径引起内质网压力,导致UPR反应。NS4B可能在HCV的致病性中起着重要的作用,特别是在慢性肝炎,甚至肝细胞癌中。

过量表达内质网小分子热激蛋白增强番茄的衣霉素抗性

真核细胞内质网腔内未折叠蛋白的过度积累会引起内质网胁迫(ER胁迫),继而激活未折叠蛋白应答(UPR)信号途径,诱导内质网定位的分子伴侣的大量表达(如BiP和calnexin等)。本工作将CaMV35S启动子驱动的内质网小分子热激蛋白基因(ER-sHSP)导入番茄,发现ER-sHSP的过量表达提高了转基因番茄整株对衣霉素的抗性。衣霉素处理使未转基因番茄中BiP和calnexin基因的表达迅速升高,转基因番茄中这两个基因的表达也有增加,但表达强度明显低于未转基因番茄。说明ER-sHSP能够减轻ER胁迫,并可能参与UPR信号转导途径。

针刺对实验性脑缺血大鼠内质网未折叠蛋白反应通路eIF2α基因表达的影响

目的:观察针刺百会、内关穴对大脑中动脉阻塞(MCAO)大鼠未折叠蛋白反应(UPR)通路eIF2α因子基因表达的影响,探讨针刺抑制细胞凋亡、保护脑神经元的内在机制。方法:将SD大鼠60只随机分为捆绑组、假手术组、模型组、针刺组、依达拉奉组,每组12只。线栓法制备MCAO大鼠脑缺血再灌注模型,RT-PCR法检测缺血侧顶叶大脑皮层eIF2α基因表达变化。结果:与捆绑组和假手术组比较,模型组、针刺组及依达拉奉组eIF2α表达明显增高(P<0.01或P<0.05);与模型组比较,针刺组及依达拉奉组eIF2α基因表达显著降低(P<0.01);与依达拉奉组比较,针刺组eIF2α表达变化差异无统计学意义(P>0.05)。结论:针刺可以下调脑缺血大鼠未折叠蛋白反应通路eIF2α因子基因的表达,这可能是针刺发挥脑保护作用的内在机制之一。

ERS和MicroRNAs间的相互作用与肿瘤

内质网是细胞蛋白质翻译后修饰和折叠的重要场所.多种外界因素诸如热激、病毒感染和低氧等均可导致内质网功能受损,表现为细胞中未折叠或者发生错误折叠的蛋白质在内质网腔内大量聚集,这种聚集将会引发细胞产生应激反应,称为内质网应激.MicroRNAs是一类内源性非编码RNAs,通过调控基因的表达来发挥重要的功能.越来越多的研究表明,内质网应激和microRNAs之间通过相互作用参与诸多重要的生理过程.本文综述了内质网应激和microRNAs两者的相互作用与肿瘤发生发展的关系,以期对肿瘤发生发展的过程调控机制有更为深入的理解,为发展新的肿瘤治疗方案提供思路.

运动改善内质网应激与肥胖相关疾病的研究进展

内质网(endoplasmic reticulum,ER)是重要的细胞器,内质网应激(endoplasmic reticulum stress,ERS)是指内质网由于某种原因使得其功能发生异常的一种亚细胞器病理过程。近年来,不仅内质网应激的分子机制越来越明确,还陆续发现内质网应激与运动适应、细胞高脂以及肥胖相关疾病的发病机制等密切相关。研究发现,骨骼肌的运动适应需要内质网应激,糖尿病、胰岛素抵抗等的发病机制涉及内质网应激的恶化,而运动改善肥胖相关疾病的机制亦有内质网应激的参与。

Hsp90抑制剂对未折叠蛋白反应作用的研究进展

肿瘤细胞因癌基因突变、缺氧及营养受限而高度依赖未折叠蛋白反应(unfolded protein response,UPR)。细胞通过内质网(endoplasmic reticulum,ER)膜上3个跨膜蛋白感知未折叠蛋白信号,引起未折叠蛋白反应,动态调控内质网折叠能力,一方面通过暂时减缓翻译和加快蛋白质流出减少ER蛋白质折叠负担,另一方面通过转录因子提高伴侣分子合成,增加ER折叠能力。未折叠的蛋白质长时间积聚在ER会对细胞产生毒性,引起不能缓解的ER应激状态,启动细胞凋亡程序。热休克蛋白90(heat shock protein 90,Hsp90)是一种进化保守的伴侣分子,参与了300多种新生蛋白质的折叠与成熟,其中包括UPR重要信号IRE1α(inositol-requiring enzyme 1α)。Hsp90抑制剂导致细胞产生大量未折叠蛋白质,同时直接诱导IRE1α的降解,从而破坏UPR恢复蛋白质平衡的能力,诱导UPR相关凋亡。目前,Hsp90抑制剂可有效诱导分泌型肿瘤细胞如骨髓瘤以及RAS突变肿瘤UPR途径的凋亡。

烟草NbbZIP28突变体的创建及其对病毒侵染胁迫的响应

【目的】b ZIP类转录因子参与植物的生长发育、激素信号、抗病性及抗逆性等多种生物胁迫过程。前期研究表明黄瓜花叶病毒(Cucumber mosaic virus,CMV)或烟草花叶病毒(Tobacco mosaic virus,TMV)侵染本氏烟(Nicotiana benthamiana)上调内质网应激(endoplasmic reticulum stress,ERs)因子NbbZIP28;NbbZIP28沉默导致病毒积累量上升,本研究旨在验证NbbZIP28对病毒侵染胁迫的响应机制。【方法】通过CRISPR/Cas9基因编辑技术和烟草遗传转染创建NbbZIP28基因突变植株,以野生型植株为对照,分别浸润接种侵染性克隆TMV-GFP、摩擦接种TMV-GFP或CMV接种液,检测突变体植株对病毒侵染胁迫的敏感性变化,接种CMV后0—48 h,采用q RT-PCR检测内质网应激相关的未折叠蛋白反应(unfolded protein response,UPR)基因的表达。本氏烟接种TMV 24 h、接种CMV 48 h后,在接种叶上浸润融合蛋白NbbZIP28-GFP,瞬时表达48 h后,采用Western blot检测病毒诱导NbbZIP28蛋白的水解激活;采用在线搜索工具Plant CARE分析NbbZIP28启动子区域中参与防卫和应激反应的顺式作用元件。【结果】CRISPR/Cas9定点敲除NbbZIP28后,目的基因靶位点缺失了10个碱基,导致翻译错误、蛋白功能变化。在正常生长条件下,转基因阳性植株与野生型无显著的表型差异。植株接种TMV-GFP后4—8 d,突变体中的病毒浸润斑亮度或初侵染点数目均显著高于野生型,扩展至新叶的速度较快。接种CMV后12—48 h,突变体中UPR相关基因Bi P、PDI、CAM及NbbZIP28下游基因NF-YC2的表达量显著低于野生型;5—7 d突变体中的病毒外壳蛋白(coat protein,CP)基因表达量显著高于野生型,花叶及皱缩症状更显著。蛋白质序列比对分析显示NbbZIP28具有与拟南芥Atb ZIP28相同的S1P和S2P蛋白酶水解位点。Western blot检测发现,与接种清水对照相比,TMV或CMV侵染显著促进了全长的融合蛋白NbbZIP28-GFP在S1P和S2P位点发生裂解。NbbZIP28启动子序列中包含5个参与热应激反应的顺式作用元件(heat stress response element,HSE)、3个参与低温反应的顺式作用元件(low temperature response element,LTR)、1个参与防卫和应激反应的顺式作用元件(TC-rich repeats)。【结论】病毒侵染促进NbbZIP28的水解激活并上调相关的UPR基因;NbbZIP28敲除导致植株对病毒的敏感性上升,病毒诱导的UPR基因表达被抑制。NbbZIP28为病毒侵染胁迫下的UPR调控因子,在病毒侵染早期通过上调UPR信号和提高寄主基础防卫反应而延缓病毒的侵染和增殖。

未折叠蛋白反应在胰腺癌发生发展中的作用及意义

胰腺癌是一种致死率相当高的消化系统肿瘤,其起病隐蔽导致早期诊断困难。近期研究发现,内质网应激(endoplasmic reticulum stress,ERS)状态下的未折叠蛋白反应(unfolded protein response,UPR)通路的调节作用,对于胰腺癌发生发展至关重要。UPR通路伴侣蛋白GRP78抑制了胰腺导管腺癌(pancreatic adenocarcinoma,PDAC)细胞的凋亡,并增强了其化学抗性和耐药性。而UPR途径及其调节因子对于血管内皮生长因子(vascular endothelial growth factor,VEGF)的调节作用,有助于胰腺癌抵抗缺血缺氧环境。尝试靶向UPR途径关键调节因子的药物来控制胰腺癌的研究,可以为胰腺癌的治疗开辟新的途径。本文通过对近年来UPR在胰腺癌发生发展中的作用及意义进行综述,希望为通过调控UPR通路作为针对治疗胰腺癌的关键过程的一种新型抗癌方法研究提供参考。

Coxsackievirus B3 Infection Triggers Autophagy through 3 Pathways of Endoplasmic Reticulum Stress

Objective Autophagy is a highly conserved intracellular degradation pathway. Many picornaviruses induce autophagy to benefit viral replication, but an understanding of how autophagy occurs remains incomplete. In this study, we explored whether coxsackievirus B3(CVB3) infection induced autophagy through endoplasmic reticulum(ER) stress. Methods In CVB3-infected HeLa cells, the specific molecules of ER stress and autophagy were detected using Western blotting, reverse transcription polymerase chain reaction(RT-PCR), and confocal microscopy. Then PKR-like ER protein kinase(PERK) inhibitor, inositol-requiring protein-1(IRE1) inhibitor, or activating transcription factor-6(ATF6) inhibitor worked on CVB3-infected cells, their effect on autophagy was assessed by Western blotting for detecting microtubule-associated protein light chain 3(LC3). Results CVB3 infection induced ER stress, and ER stress sensors PERK/eIF2α, IRE1/XBP1, and ATF6 were activated. CVB3 infection increased the accumulation of green fluorescent protein(GFP)-LC3 punctuation and induced the conversion from LC3-Ⅰ to phosphatidylethanolamine-conjugated LC3-1(LC3-Ⅱ). CVB3 infection still decreased the expression of mammalian target of rapamycin(mTOR) and p-mTOR. Inhibition of PERK, IRE1, or ATF6 significantly decreased the ratio of LC3-Ⅱ to LC3-Ⅰ in CVB3-infected HeLa cells. Conclusion CVB3 infection induced autophagy through ER stress in HeL a cells, and PERK, IRE1, and ATF6 a pathways participated in the regulation of autophagy. Our data suggested that ER stress may inhibit mTOR signaling pathway to induce autophagy during CVB3 infection.

蛋白质的品质管理

概述了蛋白质品质管理中涉及的分子伴侣、激发未折叠蛋白反应(unfolded protein response,UPR)和内质网相关性蛋白质降解途径(ER-associated degradation,ERAD)等的研究进展,并探讨了该领域存在的问题以及发展前景。指出蛋白质的生命过程经历生成、折叠、组装和降解,每个过程都有严格控制。内质网中,各种蛋白质合成、折叠并经修饰形成具有一定构象的功能性蛋白。其在内质网折叠受阻碍时,未折叠的蛋白聚集,激发UPR,使一系列分子伴侣和蛋白质折叠所需修饰酶类表达上调,帮助其完成折叠和装配。如果这些蛋白仍不能正确折叠,则进入ERAD被降解。

GO通过氧化损伤激活秀丽线虫未折叠蛋白反应

以秀丽线虫为受试生物,探讨氧化石墨烯(GO)对秀丽线虫未折叠蛋白应答的激活及其与氧化应激的关系。将L4幼虫暴露于GO中24h,通过检测活性氧(ROS)水平、乳酸脱氢酶(LDH)、丙二醛(MDA)、超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和谷胱甘肽过氧化物酶(GSH-Px)等指标评估GO对秀丽线虫所致氧化损伤;以hsp-4和hsp-6分别作为秀丽线虫内质网和线粒体未折叠蛋白反应(UPR)的报告基因评价GO对秀丽线虫UPR应答的激活;同时以谷胱甘肽(GSH)作为抗氧化剂探讨GO所致UPR应答与氧化应激的关系。研究结果显示,GO暴露后秀丽线虫体内ROS、LDH和MDA水平升高,抗氧化酶活性上升;内质网和线粒体UPR反应增强,GSH预处理可以降低内质网和线粒体UPR应答。研究表明,GO短期暴露可以诱导秀丽线虫机体氧化应激进而激活UPR应答,抗氧化保护可以降低UPR应答反应。