Abstract
BackgroundCells respond to endoplasmic reticulum stress (ER) stress by activating the unfolded protein response. To study the ER stress response in pancreatic β-cells we developed a model system that allows for pathophysiological ER stress based on the Akita mouse. This mouse strain expresses a mutant insulin 2 gene (C96Y), which prevents normal proinsulin folding causing ER stress and eventual β-cell apoptosis. A double-stable pancreatic β-cell line (pTet-ON INS-1) with inducible expression of insulin 2 (C96Y) fused to EGFP was generated to study the ER stress response.ResultsExpression of Ins 2 (C96Y)-EGFP resulted in activation of the ER stress pathways (PERK, IRE1 and ATF6) and caused dilation of the ER. To identify gene expression changes resulting from mutant insulin expression we performed microarray expression profiling and real time PCR experiments. We observed an induction of various ER chaperone, co-chaperone and ER-associated degradation genes after 24 h and an increase in pro-apoptotic genes (Chop and Trib3) following 48 h of mutant insulin expression. The latter changes occurred at a time when general apoptosis was detected in the cell population, although the relative amount of cell death was low. Inhibiting the proteasome or depleting Herp protein expression increased mutant insulin levels and enhanced cell apoptosis, indicating that ER-associated degradation is maintaining cell survival.ConclusionsThe inducible mutant insulin expressing cell model has allowed for the identification of the ER stress response in β-cells and the repertoire of genes/proteins induced is unique to this cell type. ER-associated degradation is essential in maintaining cell survival in cells expressing mutant insulin. This cell model will be useful for the molecular characterization of ER stress-induced genes.
Highlights
Cells respond to endoplasmic reticulum stress (ER) stress by activating the unfolded protein response
Cloning of the pTRE-Tight Insulin 2 (C96Y)-EGFP construct Full-length wild-type mouse insulin 2 cDNA was amplified by PCR from pIns2 (WT)-EGFP, a fusion construct obtained from Dr Seiichi Oyadomari (New York University School of Medicine) [12]
Generation and characterization of the Insulin 2 (C96Y)EGFP stable INS-1 cell line We first generated a stable pTet-ON INS-1 cell line that allows for doxycycline-inducible protein expression
Summary
Cells respond to endoplasmic reticulum stress (ER) stress by activating the unfolded protein response. Excess nutrients (free fatty acids, glucose), amyloid deposits and inflammatory cytokines have all been shown to induce ER stress in pancreatic b-cells [3] These conditions induce the UPR pathways that attempt to counteract ER stress. Chronic ER stress can lead to apoptosis induction [4], in cell types with high secretory capacity such as the b-cell This is evident from the fact that perturbation of the UPR signaling pathways in vivo leads to pancreatic b-cell death in animal models [5,6,7] and humans [8] and mutations in the insulin molecule in Akita mice results in ER stress-induced b-cell apoptosis [9,10]. It has been hypothesized that chronic conditions associated with obesity over time may lead to chronic ER stress-induced b-cell death and depletion of b-cell mass that results in type 2 diabetes [11]
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