Size‐dependent secretory protein reflux into the cytosol in association with acute endoplasmic reticulum stress

Lajoie, Patrick; Snapp, Erik L.

doi:10.1111/tra.12729

Cited by 14 publications

(9 citation statements)

References 55 publications

(72 reference statements)

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“…Through the effect of ER stress, autophagy plays a protective role in a constitutive manner to enable the turnover of long-lived proteins, removal of damaged organelles, and misfolded proteins as a defense mechanism against pathogens ( Yang et al, 2016 ). When the accumulation of damaged proteins in the ER has exceeded the repair capacity of ERAD, portions of the organelle can be specifically targeted for large-scale degradation through autophagy ( Lajoie and Snapp, 2020 ). eIF2α phosphorylation induced by PERK works as a hotspot of stress-induced translation control ( Kouroku et al, 2007 ; Liu et al, 2010 ; Talloczy et al, 2002 ).…”

Section: Cross Talk Of Cell Death and Er Stressmentioning

confidence: 99%

Endoplasmic Reticulum Stress of Gut Enterocyte and Intestinal Diseases

Gao

Hua

et al. 2022

Front. Mol. Biosci.

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The endoplasmic reticulum, a vast reticular membranous network from the nuclear envelope to the plasma membrane responsible for the synthesis, maturation, and trafficking of a wide range of proteins, is considerably sensitive to changes in its luminal homeostasis. The loss of ER luminal homeostasis leads to abnormalities referred to as endoplasmic reticulum (ER) stress. Thus, the cell activates an adaptive response known as the unfolded protein response (UPR), a mechanism to stabilize ER homeostasis under severe environmental conditions. ER stress has recently been postulated as a disease research breakthrough due to its significant role in multiple vital cellular functions. This has caused numerous reports that ER stress-induced cell dysfunction has been implicated as an essential contributor to the occurrence and development of many diseases, resulting in them targeting the relief of ER stress. This review aims to outline the multiple molecular mechanisms of ER stress that can elucidate ER as an expansive, membrane-enclosed organelle playing a crucial role in numerous cellular functions with evident changes of several cells encountering ER stress. Alongside, we mainly focused on the therapeutic potential of ER stress inhibition in gastrointestinal diseases such as inflammatory bowel disease (IBD) and colorectal cancer. To conclude, we reviewed advanced research and highlighted future treatment strategies of ER stress-associated conditions.

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Section: Cross Talk Of Cell Death and Er Stressmentioning

confidence: 99%

Endoplasmic Reticulum Stress of Gut Enterocyte and Intestinal Diseases

Gao

Hua

et al. 2022

Front. Mol. Biosci.

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“…In yeast, it was reported that ER stress caused reflux of ER proteins to the cytosol 29 , 30 . To confirm contribution of reflux of ERroGFP S4 into the cytosol to the ER reduction under proteasome inhibition, subcellular fractionation of cells was performed, resulting that most of ERroGFP S4 were localized in the ER while small portion of ERroGFP S4 were localized in the cytosol fraction (Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

Homeostasis of the ER redox state subsequent to proteasome inhibition

Oku

Kariya

Fujimura

et al. 2021

Sci Rep

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Endoplasmic reticulum (ER) maintains within, an oxidative redox state suitable for disulfide bond formation. We monitored the ER redox dynamics subsequent to proteasome inhibition using an ER redox probe ERroGFP S4. Proteasomal inhibition initially led to oxidation of the ER, but gradually the normal redox state was recovered that further led to a reductive state. These events were found to be concomitant with the increase in the both oxidized and reduced glutathione in the microsomal fraction, with a decrease of total intracellular glutathione. The ER reduction was suppressed by pretreatment of a glutathione synthesis inhibitor or by knockdown of ATF4, which induces glutathione-related genes. These results suggested cellular adaptation of ER redox homeostasis: (1) inhibition of proteasome led to accumulation of misfolded proteins and oxidative state in the ER, and (2) the oxidative ER was then reduced by ATF4 activation, followed by influx of glutathione into the ER.

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“…For example, some ER-localized GFPs were used to demonstrate that ER stress induces some small protein relocalization into the cytosol. [141,142] By using a ratiometric redox-environment reporter GFP, relative stress-dependent GFP localization to the oxidizing environment of the ER and reducing environment of the cytosol was quantified. Increasingly, large libraries of tagged or taggable proteins are also available, increasing the throughput for measuring protein localization based on fluorescent tags.…”

Section: Confocal Microscopy To Measure Cellular Protein Localizationmentioning

confidence: 99%

Methodologies for Measuring Protein Trafficking across Cellular Membranes

Lyu

Genereux

2021

ChemPlusChem

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Nearly all proteins are synthesized in the cytosol. The majority of this proteome must be trafficked elsewhere, such as to membranes, to subcellular compartments, or outside of the cell. Proper trafficking of nascent protein is necessary for protein folding, maturation, quality control and cellular and organismal health. To better understand cellular biology, molecular and chemical technologies to properly characterize protein trafficking (and mistrafficking) have been developed and applied. Herein, we take a biochemical perspective to review technologies that enable spatial and temporal measurement of protein distribution, focusing on both the most widely adopted methodologies and exciting emerging approaches.

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Size‐dependent secretory protein reflux into the cytosol in association with acute endoplasmic reticulum stress

Cited by 14 publications

References 55 publications

Endoplasmic Reticulum Stress of Gut Enterocyte and Intestinal Diseases

Endoplasmic Reticulum Stress of Gut Enterocyte and Intestinal Diseases

Homeostasis of the ER redox state subsequent to proteasome inhibition

Methodologies for Measuring Protein Trafficking across Cellular Membranes

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