From recordings of disulfide isomerases in action to reversal of maladaptive endoplasmic reticulum stress responses: proceedings on the ER & Redox Club Meeting held in Venice, April 2015

IF 0.7 Cell Pathology Pub Date : 2015-01-01 DOI:10.1515/ersc-2015-0006
E. van Anken
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Abstract

Abstract The endoplasmic reticulum (ER) interacts and cooperates with other organelles as a central hub in cellular homeostasis. In particular, the ER is the first station along the secretory pathway, where client proteins fold and assemble before they travel to their final destination elsewhere in the endomembrane system or outside the cell. Protein folding and disulfide bond formation go hand in hand in the ER, a task that is achieved with the help of ER-resident chaperones and other folding factors, including oxidoreductases that catalyze disulfide bond formation. Yet, when their combined effort is in vain, client proteins that fail to fold are disposed of through ER-associated degradation (ERAD). The ER folding and ERAD machineries can be boosted through the unfolded protein response (UPR) if required. Still, protein folding in the ER may consistently fail when proteins are mutated due to a genetic defect, which, ultimately, can lead to disease. Novel developments in all these fields of study and how new insights ultimately can be exploited for clinical or biotechnological purposes were highlighted in a rich variety of presentations at the ER & Redox Club Meeting that was held in Venice from 15 to 17 April 2015. As such, the meeting provided the participants an excellent opportunity to mingle and discuss key advancements and outstanding questions on ER function in health and disease.
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从二硫化物异构酶的记录到不适应内质网应激反应的逆转:2015年4月在威尼斯举行的ER和氧化还原俱乐部会议论文集
内质网(ER)与其他细胞器相互作用和合作,是细胞内稳态的中心枢纽。特别是,内质网是分泌途径的第一站,客户蛋白在这里折叠和组装,然后到达内膜系统或细胞外的最终目的地。在内质网中,蛋白质折叠和二硫键的形成是密切相关的,这一任务是在内质网中的伴侣和其他折叠因子的帮助下完成的,包括催化二硫键形成的氧化还原酶。然而,当它们的共同努力无效时,无法折叠的客户蛋白通过内质网相关降解(ERAD)被处理掉。如果需要,内质网折叠和ERAD机制可以通过未折叠蛋白反应(UPR)来增强。尽管如此,当蛋白质由于遗传缺陷而发生突变时,内质网中的蛋白质折叠可能会持续失败,而这种突变最终可能导致疾病。2015年4月15日至17日在威尼斯举行的ER & Redox俱乐部会议上,各种各样的演讲强调了所有这些研究领域的新发展,以及最终如何将新的见解用于临床或生物技术目的。因此,会议为与会者提供了一个绝佳的机会来交流和讨论急诊功能在健康和疾病方面的关键进展和悬而未决的问题。
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