AI Article Synopsis
- The buildup of unfolded proteins in the endoplasmic reticulum (ER) triggers ER stress, leading to the activation of genes that help restore balance, including those for calreticulin, a critical chaperone for protein folding.
- Ce-XBP-1, a transcription factor involved in the ER stress response in C. elegans, interacts with the SUMO-conjugating enzyme UBC-9, with findings showing that reducing sumoylation boosts calreticulin production, effectively mitigating ER stress.
- Additionally, the study highlights that during ER stress, sumoylation is suppressed in C. elegans, indicating its essential role in regulating gene expression linked to ER functions and overall cellular homeostasis.
Article Abstract
Excessive accumulation of unfolded proteins in the endoplasmic reticulum (ER) lumen causes ER stress, which induces a set of genes, including those encoding ER-resident chaperones, to relieve the detrimental effects and recover homeostasis. Calreticulin is a chaperone that facilitates protein folding in the ER lumen, and its gene expression is induced by ER stress in Caenorhabditis elegans. Sumoylation conjugates small ubiquitin-like modifier (SUMO) proteins with target proteins to regulate a variety of biological processes, such as protein stability, nuclear transport, DNA binding, and gene expression. In this study, we showed that C. elegans X-box-binding protein 1 (Ce-XBP-1), an ER stress response transcription factor, interacts with the SUMO-conjugating enzyme UBC-9 and a SUMOylation target. Our results indicated that abolishing sumoylation enhanced calreticulin expression in an XBP-1-dependent manner, and the resulting increase in calreticulin counteracted ER stress. Furthermore, sumoylation was repressed in C. elegans undergoing ER stress. Finally, RNAi against ubc-9 mainly affected the expression of genes associated with ER functions, such as lipid and organic acid metabolism. Our results suggest that sumoylation plays a regulatory role in ER function by controlling the expression of genes required for ER homeostasis in C. elegans.
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| http://dx.doi.org/10.1016/j.biocel.2014.06.005 | DOI Listing |
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