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Front Endocrinol (Lausanne) ; 14: 1203534, 2023.
Article in English | MEDLINE | ID: mdl-37441495

ABSTRACT

Introduction: The enhanced ß-cell senescence that accompanies insulin resistance and aging contributes to cellular dysfunction and loss of transcriptional identity leading to type 2 diabetes (T2D). While senescence is among the 12 recognized hallmarks of aging, its relation to other hallmarks including altered nutrient sensing (insulin/IGF1 pathway) in ß-cells is not fully understood. We previously reported that an increased expression of IGF1R in mouse and human ß-cells is a marker of older ß-cells; however, its contribution to age-related dysfunction and cellular senescence remains to be determined. Methods: In this study, we explored the direct role of IGF1R in ß-cell function and senescence using two independent mouse models with decreased IGF1/IGF1R signaling: a) Ames Dwarf mice (Dwarf +/+), which lack growth hormone and therefore have reduced circulating levels of IGF1, and b) inducible ß-cell-specific IGF1R knockdown (ßIgf1rKD) mice. Results: Compared to Dwarf+/- mice, Dwarf+/+ mice had lower body and pancreas weight, lower circulating IGF1 and insulin levels, and lower IGF1R and p21Cip1 protein expression in ß-cells, suggesting the suppression of senescence. Adult ßIgf1rKD mice showed improved glucose clearance and glucose-induced insulin secretion, accompanied by decreased p21Cip1 protein expression in ß-cells. RNA-Seq of islets isolated from these ßIgf1rKD mice revealed the restoration of three signaling pathways known to be downregulated by aging: sulfide oxidation, autophagy, and mTOR signaling. Additionally, deletion of IGF1R in mouse ß-cells increased transcription of genes important for maintaining ß-cell identity and function, such as Mafa, Nkx6.1, and Kcnj11, while decreasing senescence-related genes, such as Cdkn2a, Il1b, and Serpine 1. Decreased senescence and improved insulin-secretory function of ß-cells were also evident when the ßIgf1rKD mice were fed a high-fat diet (HFD; 60% kcal from fat, for 5 weeks). Discussion: These results suggest that IGF1R signaling plays a causal role in aging-induced ß-cell dysfunction. Our data also demonstrate a relationship between decreased IGF1R signaling and suppressed cellular senescence in pancreatic ß-cells. Future studies can further our understanding of the interaction between senescence and aging, developing interventions that restore ß-cell function and identity, therefore preventing the progression to T2D.


Subject(s)
Diabetes Mellitus, Type 2 , Insulin-Secreting Cells , Animals , Mice , Diabetes Mellitus, Type 2/genetics , Diabetes Mellitus, Type 2/metabolism , Glucose/metabolism , Insulin/metabolism , Insulin-Secreting Cells/metabolism , Receptor, IGF Type 1/metabolism , Signal Transduction/genetics
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