Erik Korsgren1, Olle Korsgren. 1. Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
Abstract
BACKGROUND: Cure of diabetes and normalization of glucose disposal during intravenous glucose tolerance tests (IVGTT) remains critical for stringent evaluation of novel replacement therapies in type 1 diabetes. Glucose disposal during an IVGTT depends on a complex interaction of both insulin-dependent and -independent mechanisms. Glucose effectiveness, that is, the function of glucose per se, independent of insulin, to stimulate its uptake and suppress endogenous glucose production is less recognized. METHODS: To unravel the relative importance of these pathways, rats were injected with streptozotocin to induce diabetes and implanted subcutaneously with slow-release devices of insulin. RESULTS: These animals demonstrated rapid normalization of blood glucose and perfectly normal glucose disposal during an IVGTT with no differences when compared with nondiabetic controls even though no active c-peptide secretion was detected in plasma and almost no remaining insulin-producing cells were present in the pancreas. CONCLUSIONS: The present study highlights that glucose is the predominant mediator of its own disposal in rodents having only basal and nonglucose-regulated plasma insulin levels. The herein presented results calls for a reassessment how results obtained in the most commonly used experimental models should be interpreted in the development of future replacement therapies in type 1 diabetes.
BACKGROUND: Cure of diabetes and normalization of glucose disposal during intravenous glucose tolerance tests (IVGTT) remains critical for stringent evaluation of novel replacement therapies in type 1 diabetes. Glucose disposal during an IVGTT depends on a complex interaction of both insulin-dependent and -independent mechanisms. Glucose effectiveness, that is, the function of glucose per se, independent of insulin, to stimulate its uptake and suppress endogenous glucose production is less recognized. METHODS: To unravel the relative importance of these pathways, rats were injected with streptozotocin to induce diabetes and implanted subcutaneously with slow-release devices of insulin. RESULTS: These animals demonstrated rapid normalization of blood glucose and perfectly normal glucose disposal during an IVGTT with no differences when compared with nondiabetic controls even though no active c-peptide secretion was detected in plasma and almost no remaining insulin-producing cells were present in the pancreas. CONCLUSIONS: The present study highlights that glucose is the predominant mediator of its own disposal in rodents having only basal and nonglucose-regulated plasma insulin levels. The herein presented results calls for a reassessment how results obtained in the most commonly used experimental models should be interpreted in the development of future replacement therapies in type 1 diabetes.