236-OR: Pancreatic ß-Cell TRAPδ Deficiency Reduces Insulin Production but Improves Insulin Sensitivity

Abstract

The endoplasmic reticulum (ER) membrane protein translocon-associated protein-δ (TRAPδ, also known as SSR4) is involved in insulin biosynthesis in pancreatic β cell lines. However, its pathophysiological significance for the maintenance of islet β cell function and glucose homeostasis is unclear. Herein, we generated a mouse line with pancreatic β cell-specific deletion of TRAPδ (TRAPδ βKO), and found that TRAPδ βKO led to decreased circulating insulin in mice fed with either normal chow diet or high fat diet. Multiple independent experiments confirmed that, although TRAPδ deletion decreased insulin content in the islets, it did not affect composition of islet cells, insulin gene expression, insulin/proinsulin ratio, nor the expression and glycosylation of the prohormone enzymes involved in proinsulin processing. These data suggest that TRAPδ does not play a critical role in the transcription of insulin gene and processing of proinsulin. Importantly, untranslocated preproinsulin was significantly increased when the islets were treated with a proteasomal inhibitor, suggesting that TRAPδ deficiency impaired preproinsulin translocation, resulting in a rapid degradation of untranslocated preproinsulin that accounts for the decreased insulin production. Interestingly, the moderate decrease in the circulating insulin level in TRAPδ βKO mice did not cause impaired glucose tolerance and elevated fasting blood glucose, suggesting that compensatory mechanisms may account for maintaining glucose homeostasis. The insulin tolerance tests confirmed improvement of insulin sensitivity accompanied with upregulation of phosphorylated AKT in the peripheral insulin target tissues of TRAPδ βKO mice. Together, these data uncover a critical role of TRAPδ in preproinsulin translocation and insulin biosynthesis. The moderately decreased circulating insulin promotes insulin sensitivity in the insulin target tissues. Disclosure J.Guo: None. Y.Huang: None. M.Liu: None. Y.Yang: None. N.Xu: None. Y.Yang: None. W.Feng: None. Y.Ye: None. X.Li: None. X.Xu: None. J.Cui: None. Funding National Natural Science Foundation of China (81830025, 82220108014, 82270864, 82070854); National Key R&D Program of China (2019YFA0802502, 2022YFE0131400); Tianjin Municipal Health and Health Committee (TJWJ2021ZD00); Tianjin Key Medical Discipline (Specialty) Construction Project (TJYXZDXK-030A)