The Kings Ins2(+/G32s) Mouse: A Novel Model Of Beta-Cell Endoplasmic Reticulum Stress And Human Diabetes

Animal models are important tools in diabetes research because ethical and logistical constraints limit access to human tissue. beta-Cell dysfunction is a common contributor to the pathogenesis of most types of diabetes. Spontaneous hyperglycemia was developed in a colony of C57BL/6J mice at King's College London (KCL). Sequencing identified a mutation in the Ins2 gene, causing a glycine-to-serine substitution at position 32 on the B chain of the preproinsulin 2 molecule. Mice with the Ins2(+/G32S) mutation were named KCL Ins2 G32S (KINGS) mice. The same mutation in humans (rs80356664) causes dominantly inherited neonatal diabetes. Mice were characterized, and beta-cell function was investigated. Male mice became overtly diabetic at similar to 5 weeks of age, whereas female mice had only slightly elevated nonfasting glycemia. Islets showed decreased insulin content and impaired glucose-induced insulin secretion, which was more severe in males. Transmission electron microscopy and studies of gene and protein expression showed beta-cell endoplasmic reticulum (ER) stress in both sexes. Despite this, beta-cell numbers were only slightly reduced in older animals. In conclusion, the KINGS mouse is a novel model of a human form of diabetes that may be useful to study beta-cell responses to ER stress.