LONG-TERM EFFECTS OF A HIGH GLUCOSE-CONCENTRATION INVITRO ON THE OXIDATIVE-METABOLISM AND INSULIN PRODUCTION OF ISOLATED RAT PANCREATIC-ISLETS

The present study was performed to clarify whether exposure in tissue culture of pancreatic islet B cells to high glucose concentrations will lead to glucose insensitivity and/or toxicity. For this purpose, isolated rat islets were maintained in tissue culture for up to 7 days in the presence of either 5.6, 11, or 56 mmol/L glucose and subsequently analyzed with regard to oxidative metabolism, insulin release, islet content of insulin, and insulin mRNA. Islets maintained at 56 mmol/L glucose showed a decreased insulin content, but no changes in insulin mRNA content when compared with control islets (cultured at 11 mmol/L glucose). In short-term incubations of the high-glucose cultured islets, the rate of insulin release at 1.67 mmol/L glucose was enhanced and could not be further stimulated by a 16.7-mmol/L glucose challenge. However, the insulin release at 16.7 mmol/L was decreased when compared with islets cultured at 11 mmol/L glucoss. Islets cultured at 56 mmol/L glucose showed an increased oxygen uptake when incubated at 1.67 mmol/L glucose with no further stimulation at 16.7 mmol/L glucose. These islets also showed increased rates of glucose oxidation at incubation with 1.67 mmol/L glucose, but similar rates of oxidation at 16.7 mmol/L glucose as compared with islets cultured in 11 mmol/L glucose. Islets cultured at 5.6 mmol/L glucose showed decreased insulin release when incubated at either 1.67 mmol/L or 16.7 mmol/L glucose. The rates of glucose oxidation of these islets were also decreased at 16.7 mmol/L glucose when compared with the controls, whereas the oxygen uptake was decreased only during incubation at 1.67 mmol/L glucose. There was also a decreased content of insulin mRNA in these islets. When islets were cultured at 56 mmol/L glucose for 6 days followed by 5.6 mmol/L glucose for 1 day, there was a restoration of their glucose responsiveness with respect to both glucose oxidation and insulin release, although the cellular stone of insulin remained decreased. It is concluded that rat pancreatic islets maintained in culture at a high glucose concentration show no signs of lasting functional damage. The transient glucose insensitivity shown by these islets reflects a sustained high rate of insulin release also during incubation at a low glucose concentration. © 1991.