内质网应激在大鼠低氧高二氧化碳性肺动脉高压中的作用

目的：观察低氧高二氧化碳性肺动脉高压大鼠的肺血管重塑并探讨内质网应激（ERS）在肺动脉高压中的作用。方法：将40只SD大鼠随机分为四组：常氧对照组（N）、低氧高二氧化碳组（HH）、ERS通路抑制剂4-苯基丁酸（4-phenylbutyric acid）组（4-PBA）、ERS通路激动剂衣霉素（tunicamycin）组（TM）,n=10。测量各组大鼠的肺动脉平均压（mPAP）、颈动脉平均压以及右心室肥大指数,免疫荧光α-SMA标记法鉴定各组肺中小动脉平滑肌细胞,电镜观察肺组织及肺中小动脉形态学变化,原位末端标记法（TUNEL）检测各组肺动脉平滑肌细胞的凋亡指数,采用RT-PCR和Western blot分别检测各组大鼠葡萄糖调节蛋白78（GRP78）、C/EBP同源蛋白（CHOP）、c-Jun氨基末端激酶（JNK）、天冬氨酸特异性半胱氨酸蛋白酶-12（caspase-12）mRNA及蛋白质表达。结果：①与N组相比,HH组、4-PBA组、TM组mPAP、右心室游离壁重量/左心室加心室间隔重量[RV/（LV+S）]、肺动脉管壁面积/管总面积（WA/TA）比值增加（P<0.0 1）,肺动脉管腔面积/管总面积（LA/TA）比值减小（P<0.01）,细胞凋亡指数降低（P <0.05或P<0.01）。ERS相关蛋白质及mRNA的表达量升高,各差异均有统计学意义。②与HH组相比,4-PB A组mPAP和[RV/（LV+S）]、WA/TA值减小（P<0.01）,LA/TA值和细胞凋亡指数上升（P<0.05或P<0.01）,ERS相关蛋白质和mRNA的表达量均下调（P<0.05或P<0.01）;③与HH组相比,TM组mPAP、[RV/（LV+S）]、WA/TA值升高（P<0.05或P<0.01）;肺动脉中膜层增厚,LA/TA值和细胞凋亡指数降低（P<0.01）。ERS相关蛋白质及mRNA的表达量均升高,除GRP78蛋白质表达量无明显变化外,其余各差异均有统计学意义。结论：低氧高二氧化碳诱导的肺动脉高压大鼠肺血管重塑可能与肺动脉平滑肌细胞增殖过度及凋亡过少有关;ERS相关因子（JNK、caspase-12和CHOP）参与低氧高二氧化碳性肺动脉高压的调控。     

慢性低氧性肺动脉高压大鼠肺组织肾上腺髓质素-2的变化

目的：研究新的小分子生物活性肽肾上腺髓质素-2（ADM2／IMD）及其受体在慢性低氧性肺动脉高压大鼠肺组织中的变化和可能的作用。方法：SD大鼠随机分成2组（n=10）：正常对照（NC）组和低氧四周（4H）组;放射免疫法测定血浆和肺组织ADM2／IMD和肾上腺素髓质素（ADM）蛋白水平;逆转录-多聚酶链反应（RT-PCR）法测定肺组织ADM2／IMD、ADM及其受体（CRLR,RAMP1,2,3）mRNA表达;免疫组化法测定ADM2／IMD在肺细小动脉的定位表达：结果：①4H组平均肺动脉压（mPAP）、右心室与左心室加室间隔重量比[RV／（LV＋S）]高于NC组（P均〈0．01）。②4H组血浆和肺组织匀浆ADM水平分别为NC组的2．3倍和3．2倍（P均〈0．01）,ADM2／IMD水平分别比NC组高89．6％和45．0％（P分别〈0．01、〈0．05）。③4H组肺组织ADM2／IMD与ADMmRNA表达高于NC组（P分别〈0．01、〈0．05）,CRLR和RAMP1mRNA表达显著低于NC组（P均〈0．01）,而RAMP2和RAMP3mRNA表达水平两组间差异无显著性。①ADM2／IMD主要在大鼠肺细小动脉内皮细胞及血管外膜表达。结论：ADM2／IMD与ADM相似,与大鼠慢性低氧性肺动脉高压病理过程密切相关;ADM2／IMD及其受体CRLR／RAMP1基因表达和／或蛋白合成、代谢的改变可能参与了大鼠慢性低氧性肺动脉高压的发生发展.     

低氧性肺动脉高压大鼠肺小动脉Siah1的表达变化及意义

目的:探讨低氧性肺动脉高压(HPH)大鼠肺小动脉Siah 1的动态表达变化及作用.方法:40只成年雄性Wistar大鼠随机分为对照组和低氧3 d、7d、14d、21 d组,每组8只,常压间断低氧复制HPH大鼠模型.测各组大鼠平均肺动脉压(mPAP)、右心室肥大指数(RVHI)、血管形态学指标;原位杂交、RT-PCR检测肺内Siah1 mRNA表达,免疫组化、Western blot检测其蛋白质水平.结果:①低氧7d后,肺小动脉出现血管重塑,且mPAP明显上升;低氧14d后,肺小动脉重塑更明显,mPAP达高峰.RVHI在低氧14d后明显增加.②Siah1 mRNA在对照组肺小动脉壁呈弱阳性表达,低氧7d后显著增高,低氧14d后达高峰.低氧21d后下降但仍高于对照组.免疫组化显示,Siahl蛋白在对照组肺小动脉壁呈弱阳性表达,低氧7d后显著增高,低氧14d后达高峰,低氧21 d后下降但仍高于对照组.③大鼠肺小动脉壁Siah1蛋白与Siah1 mRNA呈正相关;Siah1 mRNA、Siah1蛋白与mPAP、重塑指数、RVHI均呈正相关.结论:慢性低氧诱导肺小动脉壁Siah1表达增加,进而在HPH发病过程中发挥一定的作用.     

外源性apelin对大鼠慢性低氧性肺动脉高压的防治作用

目的:探讨外源性给予小分子活性肽apelin对大鼠慢性低氧性肺动脉高压和肺血管重构的作用及其机制。方法:采用常压低氧法建立SD大鼠低氧性肺动脉高压模型。实验分4组(n=10)对照组(NC)、低氧组(HH)、低氧+apelin低剂量组(5nmol/(kg.d)(LA)和低氧+apelin高剂量组(10nmol/(kg.d)(HA),HA组和LA组通过皮下埋植微量渗透泵持续给药。低氧4周后,测定平均肺动脉压(mPAP)、右心室与左心室加室间隔的重量比[RV/(LV+S)]、肺细小动脉管壁面积/管总面积(WA/TA)、管腔面积/管总面积(CA/TA)、中膜厚度(PAMT)以及肺组织超氧化物歧化酶(SOD)活性与丙二醛(MDA)含量。结果:①mPAP和RV/(LV+S):HH组较NC组高,HA组较HH组低;LA组mPAP较HH低,而RV/(LV+S)两组间无显著性差异。②WA/TA和PAMT:HH组较NC组高,HA组、LA组均较HH低。③CA/TA:HH组较NC组低,HA组、LA组均较HH高。④肺组织SOD含量:HH组较NC低,HA组、LA组均较HH高。⑤MDA含量:HH组较NC高,HA组、LA组均较HH低。结论:Apelin对低氧性肺动脉高压和肺血管重构的形成具有防治作用,这种作用可能与直接舒张肺血管作用及改善氧化应激有关。     

SENP1在大鼠低氧性肺动脉高压形成中肺血管壁中表达及可能作用

目的:探讨大鼠低氧性肺动脉高压(HPH)形成过程中SENP1在肺小动脉的动态表达变化及作用。方法:40只成年雄性Wistar大鼠随机分为5组(n=8):对照组和缺氧3 d、7 d、14 d2、1 d组,常压间断低氧复制HPH大鼠模型。测各组大鼠平均肺动脉压(mPAP)、右心室肥大指数(RVHI)、血管形态学指标;原位杂交、逆转录-聚合酶链反应(RT-PCR)检测肺内SUMO特异性蛋白酶-1(SUMO-specific proteases-1,SENP1)mRNA表达,免疫组化、Westernblot检测其蛋白质水平。结果:①缺氧7 d后,肺小动脉出现血管重塑,且mPAP明显上升;低氧14 d后,肺小动脉重塑更明显,mPAP达高峰。RVHI在低氧14 d后明显增加。②原位杂交显示,SENP1 mRNA在对照组肺小动脉壁呈阳性表达,低氧后其相对量无明显变化。RT-PCR显示肺组织SENP1 mRNA表达与原位杂交所观察到的肺小动脉壁SENP1 mRNA变化趋势一致;SENP1蛋白在对照组呈阳性表达,低氧7 d后其表达量开始呈进行性下降。Western blot显示肺组织内SENP1蛋白表达与免疫组化观察到的肺小动脉壁SENP1蛋白变化趋势一致。③SENP1蛋白与mPAP、重塑指数、RVHI均呈负相关。结论:慢性低氧诱导肺小动脉壁SENP1蛋白降解,进而可能在HPH发病过程中发挥一定的作用。     

游泳运动对低氧性肺动脉高压大鼠肺组织apelin及其受体表达的影响

目的:探讨游泳运动对大鼠肺组织新的小分子活性肽apelin及其受体(APJ)表达的影响。方法:45只雄性大鼠随机分成三组:正常对照组、低氧组(七周)和游泳组(低氧+游泳锻炼七周组,低氧3周后,于每天入低氧舱前行无负重游泳运动60 min,每天1次)。七周后测定各组大鼠平均肺动脉压(mPAP)、右心室与左心室加室间隔的重量比[RV/(LV+S)]、肺细小动脉管壁面积/管总面积(WA/TA)、管腔面积/管总面积(CA/TA)及中膜厚度(PAMT)。免疫蛋白印迹与免疫组化法测定肺组织apelin/APJ的蛋白表达。结果:①低氧组mPAP和RV/(LV+S)比正常对照组分别高73.6%和31.2%(P均<0.01),而游泳组比低氧组分别低21.1%和8.9%(P均<0.05)。②低氧组WA/TA和PAMT较正常对照组分别高70.8%和102%,而游泳组较低氧组分别低24.8%和40.1%(P均<0.01)。低氧组CA/TA较正常对照组低15.1%,而游泳组较低氧组高10.3%(P均<0.01)。③低氧组肺组织apelin蛋白表达较正常对照组上调374%(P<0.01),而APJ蛋白表达下调87.1%(P均<0.01);游泳组肺组织apelin蛋白表达较低氧组下调48%,而APJ蛋白表达上调287%(P均<0.01)。④apelin蛋白主要在血管外膜及炎症细胞胞浆内表达,APJ蛋白主要在血管内膜、外膜及炎症细胞上表达。结论:游泳运动减缓肺动脉高压和肺血管重塑作用可能与调节肺组织apelin/APJ系统的表达有关。     

内质网应激介导的细胞凋亡

内质网是细胞内重要的细胞器,内质网功能的损伤引起ER应激(ERS).内质网通过激活未折叠蛋白质反应(UPR)以保护由内质网应激所引起的细胞损伤,恢复细胞功能,包括暂停早期蛋白质合成、内质网分子伴侣和折叠酶的转录激活、内质网相关性降解(ERAD)的诱导.长期过强的内质网应激诱导内质网相关性细胞凋亡,清除受损细胞,包括内质网应激诱导CHOP/GADD153表达、JNK的激活以及caspase-12蛋白水解酶的活化等一系列生物学效应.     

Intermedin/adrenomedullin 2及其受体在慢性低氧性肺动脉高压大鼠右心室的表达变化

本研究探讨了新发现的小分子生物活性肽intermedin／adrenomedullin 2（IMD／ADM2）及其受体在慢性低氧性肺动脉高压大鼠右心室中的变化和可能作用。用放射免疫分析法测定正常对照组和常压低氧4周组Sprague-Dawley大鼠血浆、右心室匀浆IMD／ADM2和肾上腺髓质素（adrenomednllin,ADM）蛋白水平;逆转录-多聚酶链反应法测定右心室IMD／ADM2、ADM及受体：降钙素受体样受体（calcitonin receptor-like receptor,CRLR）、受体活性修饰蛋白1,2,3（receptor activity modifying protein 1,2,3,RAMP1,RAMP2,RAMP3）mRNA表达。结果显示：低氧组平均肺动脉压、右心室与左心室加室间隔重量比[RV／（LV＋S）]显著高于对照组（均P〈0．01）;低氧组血浆和右心室组织匀浆ADM水平比对照组分别高1．26倍和1．68倍（P〈0．01）,IMD／ADM2水平则较对照组分别高0．90倍和1．19倍（P〈0．01）;与对照组相比,低氧组右心室IMD／ADM2、ADM mRNA表达均上调（P〈0．01）,RAMP2 mRNA表达增强（P〈0．05）,而两组间CRLR、RAMP1、RAMP3 mRNA的表达水平无显著性差异。结果表明,慢性低氧性肺动脉高压大鼠IMD／ADM2表达水平升高。     

姜黄素对慢性低氧高二氧化碳大鼠肺动脉高压及肺动脉管壁胶原的影响

目的：研究姜黄素对慢性低氧高二氧化碳大鼠肺动脉压力及肺动脉管壁Ⅰ型胶原的影响。方法：36只SD大鼠随机分为正常对照组（NC组）,低O2高CO2 4周组（HH组）,低O2高CO2 4周＋姜黄素组（HC组）,采用免疫组化、图像分析等方法观察姜黄素对慢性低O2高CO2大鼠肺动脉压力、肺细小动脉显微和超微结构及肺动脉管壁Ⅰ型胶原的影响。结果：①血流动力学检测显示HH组mPAP明显高于NC组（P〈0．01）,HC组mPAP明显低于HH组（P〈0．01）,三组间mCAP无明显差异（P〉0．05）;②光镜下,肺细小动脉管壁面积／管总面积比值（WA／TA）、肺细小动脉中膜平滑肌细胞核密度（SMC）、肺细小动脉中膜厚度（PAMT）HH组较NC组明显增高（均P〈0．01）,HC组WA／TA、SMC和PAMT较HH组明显降低（均P〈0．01）;③电镜下,HH组肺细小动脉中膜平滑肌细胞增生,面积增大,染色质增多,外膜胶原纤维密集,HC组大鼠肺细小动脉内皮细胞结构基本正常,胶原少见,中膜平滑肌细胞和外膜胶原纤维增生较HH组明显为轻;④免疫组化法发现肺细小动脉Ⅰ型胶原平均吸光度值HH组明显高于Nc组（P〈0．01）,HC组明显低于HH组（P〈0．01）。结论：姜黄素具有降低慢性低O2高CO2性肺动脉高压、改善肺血管重建及抑制肺动脉管壁Ⅰ型胶原沉积的作用。     

Epigallocatechin-3-gallate protects against cisplatin-induced nephrotoxicity by inhibiting endoplasmic reticulum stress-induced apoptosis

Cisplatin (CP)-induced nephrotoxicity hampers its application in clinic. Green tea, particularly its predominant polyphenolic constituent epigallocatechin-3-gallate (EGCG), possesses anti-inflammatory, antioxidant, and anti-apoptotic properties. The present study was designed to investigate the protective effects of EGCG against CP-induced nephrotoxicity in mice. Male C57/BL6 mice in different groups received single injection of CP (20 mg/kg) and EGCG (100 mg/kg) in various sets and kidney tissues and blood were collected after killing. Then, samples were used for biochemical and immunohistochemical assay. Our results showed EGCG decreased biochemical factors and immunohistochemical damage induced by CP. Besides, expression of phosphorylated-extracellular signal-regulated kinase (p-ERK), glucose-regulated protein 78 (GRP78), caspase-12, and apoptosis of kidney were decreased by EGCG via inhibition of endoplasmic reticulum (ER) stress-induced apoptosis.     

Changes in endoplasmic reticulum luminal environment affect cell sensitivity to apoptosis

To test the role of ER luminal environment in apoptosis, we generated HeLa cell lines inducible with respect to calreticulin and calnexin and investigated their sensitivity to drug-dependent apoptosis. Overexpression of calreticulin, an ER luminal protein, resulted in an increased sensitivity of the cells to both thapsigargin- and staurosporine-induced apoptosis. This correlated with an increased release of cytochrome c from the mitochondria. Overexpression of calnexin, an integral ER membrane protein, had no significant effect on drug-induced apoptosis. In contrast, calreticulin-deficient cells were significantly resistant to apoptosis and this resistance correlated with a decreased release of cytochrome c from mitochondria and low levels of caspase 3 activity. This work indicates that changes in the lumen of the ER amplify the release of cytochrome c from mitochondria, and increase caspase activity, during drug-induced apoptosis. There may be communication between the ER and mitochondria, which may involve Ca(2+) and play an important role in conferring cell sensitivity to apoptosis. Apoptosis may depend on both the presence of external apoptosis-activating signals, and, as shown in this study, on an internal factor represented by the ER.     

低氧性肺动脉高压小鼠体内脂质水平的变化

目的：观察低氧性肺动脉高压小鼠体内脂质代谢的变化,探讨脂质代谢异常在低氧性肺动脉高压发生发展中的意义。方法：SPF级雄性C57BL/6小鼠20只,随机分为2组（n=10）：常氧组和低氧组。常压连续低氧3周（9%~11% O₂,23 h/d）复制慢性低氧性肺动脉高压模型,测定小鼠右心室压（RVSP）和右心室与左心室加室间隔重量比,Elisa法检测血浆中总胆固醇（TC）、低密度脂蛋白（LDL）、高密度脂蛋白（HDL）的含量;real-time PCR法检测肝组织中3-羟基-3-甲基戊二酸单酰辅酶A还原酶（HMGCR）、低密度脂蛋白受体（LDLR）、清道夫受体B1（SR-B1）、固醇调节元件结合因子2（SREBF2）等基因的表达。结果：低氧组小鼠RVSP、RV/（LV+S）显著高于常氧组（P<0.05）,血浆中HDL含量及HDL/LDL比值较常氧组显著降低（P<0.05）,肝组织中LDLR、SR-B1基因表达较常氧组显著下调（P<0.05）;RVSP与HDL/LDL比值及LDLR、SR-B1基因表达呈显著负相关（P<0.05）。结论：脂质代谢异常参与小鼠低氧性肺动脉高压的形成。     

氧化应激对原代培养乳鼠心房肌细胞中内质网应激及凋亡因子的影响

目的：研究氧化应激对原代培养乳鼠心房肌细胞凋亡、内质网应激及凋亡因子的影响。方法：实验分2组：对照组、氧化应激组。原代培养乳鼠心房肌细胞,氧化应激组在培养的原代心房肌细胞中加入终浓度为100μmol/L的H₂O₂培养2 h,检测氧化和抗氧化指标超氧化物歧化酶（SOD）活力、丙二醛（MDA）及还原型谷胱甘肽（GSH）含量;检测细胞凋亡、细胞GRP78、GRP94及chop、bax、bcl-2 mRNA表达。结果：与对照组相比较,氧化应激组心房肌细胞SOD活力和GSH含量下降、MDA含量增加（P < 0.01）,细胞凋亡增加（P < 0.01）,细胞GRP78、GRP94、chop、bax mRNA表达增加、bcl-2 mRNA表达减少（P < 0.01）。结论：氧化应激反应可能介导内质网应激反应并激活促凋亡因子表达,抑制抗凋亡因子表达,引起心房肌细胞凋亡增加。这可能与心房纤颤的发生有一定关联性。     

内质网应激及其特有凋亡途径Caspase-12与糖尿病大鼠肾组织固有细胞凋亡之间的关系

目的：检测内质网应激（ERS）标志蛋白在糖尿病大鼠肾组织的表达及其与细胞凋亡之间的关系。方法：单侧肾切除大鼠腹腔注射链脲佐菌素诱发糖尿病,于8周应用免疫组织化学检测GRP78、Caspase-12、PCNA的表达与定位,TUNEL染色检测细胞凋亡部位,流式细胞术检测细胞凋亡程度,并对GRP78、Caspase-12表达水平进行半定量分析,同时观察尿蛋白、BUN、尿肌酐等反应肾功能的相关指标。结果：建模8周,糖尿病组大鼠较对照组肾小球、肾小管凋亡细胞数明显增多,GRP78、Caspase-12表达显著增强。PCNA表达与对照组无明显差异。结论：糖尿病肾损害过程中,ERS被诱导并可能通过激活其特有的凋亡途径Caspase-12引起肾脏细胞过多丢失在糖尿病肾病的发病机制中起重要作用。     

内质网应激的细胞效应分子机制

内质网应激（endoplasmic reticulum stress,ERs）是内质网腔内错误折叠蛋白聚积的一种适应性反应,适度ERs通过激活未折叠蛋白反应起适应性的细胞保护作用,而过高和持久的ERs则通过诱导转录因子CHOP表达、激活caspase-12和c—Jun氨基末端激酶（JNK）等导致细胞凋亡。近年来,越来越多的研究提示内质网应激是神经退行性病变、2型糖尿病以及肥胖等疾病发生过程中的重要环节。对内质网应激的细胞效应分子机制进行综述。随着对ERs机制理解的深入,有可能会发现新的分子标志物或新的诊疗策略。     

Effect of L-arginine on pulmonary artery smooth muscle cell apoptosis in rats with hypoxic pulmonary vascular structural remodeling

This study investigated the effect of L-arginine (L-Arg) on the apoptosis of pulmonary arterysmooth muscle cells (PASMC) in rats with hypoxic pulmonary vascular structural remodeling,and itsmechanisms.Seventeen Wistar rats were randomly divided into a control group (n=5),a hypoxia group(n=7),and a hypoxia L-Arg group (n=5).The morphologic changes of lung tissues were observed underoptical microscope.Using the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate-biotin nick end labeling assay,the apoptosis of PASMC was examined.Fas expression in PASMC wasexamined using immunohistochemistry.The results showed that the percentage of muscularized artery insmall pulmonary vessels,and the relative medial thickness and relative medial area of the small and medianpulmonary muscularized arteries in the hypoxic group were all significantly increased.Pulmonary vascularstructural remodeling developed after hypoxia.Apoptotic smooth muscle cells of the small and median pul-monary arteries in the hypoxia group were significantly less than those in the control group.After 14 d ofhypoxia,Fas expression by smooth muscle cells of median and small pulmonary arteries was significantlyinhibited.L-Arg significantly inhibited hypoxic pulmonary vascular structural remodeling in association withan augmentation of apoptosis of smooth muscle cells as well as Fas expression in PASMC.These resultsshowed that L-Arg could play an important role in attenuating hypoxic pulmonary vascular structural remod-eling by upregulating Fas expression in PASMC,thus promoting the apoptosis of PASMC.     

Redox-based endoplasmic reticulum dysfunction in neurological diseases

The redox homeostasis of the endoplasmic reticulum lumen is characteristically different from that of the other subcellular compartments. The concerted action of membrane transport processes and oxidoreductase enzymes maintain the oxidized state of the thiol-disulfide and the reducing state of the pyridine nucleotide redox systems, which are prerequisites for the normal functions of the organelle. The powerful thiol-oxidizing machinery allows oxidative protein folding but continuously challenges the local antioxidant defense. Alterations of the cellular redox environment either in oxidizing or reducing direction affect protein processing and may induce endoplasmic reticulum stress and unfolded protein response. The activated signaling pathways attempt to restore the balance between protein loading and processing and induce apoptosis if the attempt fails. Recent findings strongly support the involvement of this mechanism in brain ischemia, neuronal degenerative diseases and traumatic injury. The redox changes in the endoplasmic reticulum are integral parts of the pathomechanism of neurological diseases, either as causative agents, or as complications.     

Homocysteine-induced endoplasmic reticulum protein (Herp) is up-regulated in sporadic inclusion-body myositis and in endoplasmic reticulum stress-induced cultured human muscle fibers

Herp is a stress-response protein localized in the endoplasmic reticulum (ER) membrane. Herp was proposed to improve ER-folding, decrease ER protein load, and participate in ER-associated degradation (ERAD). Intra-muscle-fiber ubiquitinated multiprotein-aggregates containing, among other proteins, either amyloid-beta (Abeta) or phosphorylated tau are characteristic of sporadic inclusion-body myositis (s-IBM). ER stress and proteasome inhibition appear to play a role in s-IBM pathogenesis. We have now studied Herp in s-IBM muscle fibers and in ER-stress-induced or proteasome-inhibited cultured human muscle fibers. In s-IBM muscle fibers: (i) Herp was strongly immunoreactive in the form of aggregates, which co-localized with Abeta, GRP78, and beta2 proteasome subunit; (ii) Herp mRNA and protein were increased. In ER-stress-induced cultured human muscle fibers: (i) Herp immunoreactivity was diffusely increased; (ii) Herp mRNA and protein were increased. In proteasome-inhibited cultured human muscle fibers: (i) Herp immunoreactivity was in the form of aggregates; (ii) Herp protein was increased, but its mRNA was not. Accordingly, in s-IBM muscle fibers: (i) increase of Herp might be due to both ER-stress and proteasome inhibition; (ii) co-localization of Herp with Abeta, proteasome, and ER-chaperone GRP78 could reflect its possible role in processing and degradation of cytotoxic proteins in ER.