Jan Bruggink

Kinetics of Intraperitoneally Infused Insulin In Rats: Functional Implications for the Bioartificial Pancreas

Intraperitoneal transplantation of encapsulated islets can restore normoglycemia in diabetic recipients but not normal glucose tolerance nor normal insulin responses to a physiological stimulus. This study investigates whether the intraperitoneal implantation site as such contributes to the interference with optimal transport kinetics between the islets and the bloodstream. Insulin was infused into the peritoneal cavity of conscious and freely moving rats in doses of 20, 40, and 80 pmol.l-1.min-1 during 15 min, to mimic the gradual release of insulin from an encapsulated, i.e., a nonvascularized, islet graft. With 20 pmol.l-1.min-1, we observed virtually no rise of insulin levels, and it took 30 min until glucose levels had dropped significantly. With 40 and 80 pmol.l-1.min-1 insulin infusions, there was a dose-dependent rise of insulin and decrease of glucose levels. When compared with intraportal infusions with the same insulin dosages, however, they were strongly delayed and reduced as well as prolonged. Similar results were obtained when inulin instead of insulin was intraperitoneally infused, with indicates that the transport of insulin from the peritoneal cavity to the bloodstream is mainly by passive diffusion. With a view on the clinical efficacy of the bioartificial pancreas, our findings indicate that we should focus on finding or creating a transplantation site that, more than the unmodified peritoneal cavity, permits close contact between the bloodstream and the encapsulated islet tissue.

Individual Behavioral Characteristics of Wild-Type Rats Predict Susceptibility to Experimental Autoimmune Encephalomyelitis

Neuroendocrine-immune interactions are thought to be important in determining susceptibility to autoimmune disease. Animal studies have revealed that differences in susceptibility to experimental autoimmune encephalomyelitis (EAE) are related to reactivity in the hypothalamo-pituitary-adrenal axis. It is known that there is a close relation between neuroendocrine parameters and behavioral characteristics, suggesting that behavior and disease susceptibility may be associated. In the present study we investigated whether behavioral characteristics of wild-type rats are related to susceptibility to disease. We show here that the latency of the animal to attack an intruder correlates significantly with the EAE disease score: animals that do not attack the intruder during the test period are more resistant to the disease than animals with short attack latency times. These data, obtained in an unselected strain of wild-type rats, demonstrate that behavioral response patterns of individual animals can in part predict susceptibility to autoimmune disease.

Daily variation of food-induced changes in blood glucose and insulin in the rat and the control by the suprachiasmatic nucleus and the vagus nerve

Rats were provided with permanent cardiac catheters allowing free movement and blood sampling without anaesthesia. During food intake the increments of plasma insulin and blood glucose were smaller and more slowly increasing in the light phase than during the dark phase. After vagal blockade the increase in both blood glucose and plasma insulin was reduced. Since this effect was more prominent in the dark phase it suggests that during this phase vagal activity may stimulate an increase in glucose inflow into the blood by activating transport and digestion of food. Electrolytic lesions of the nucleus suprachiasmaticus caused disappearance of the circadian variation of insulin and glucose responses. In this situation in both phases rapid increments of insulin and glucose occurred similar to the controls during the dark phase. It is suggested that the nucleus suprachiasmaticus directly or indirectly controls vagal activity, which determines via its influence on the gastrointestinal tract the circadian variation in blood glucose and plasma insulin responses after food intake.

Hyperinsulinemia and Glucose Tolerance in Obese Rats With Lesions of the Ventromedial Hypothalamus: Dependence on Food Intake and Route of Administration

This study was performed to investigate the consequences of developing obesity on glucose homeostasis in animals showing hyperphagia plus vagal hyperinsulinemia and rats that were normophagic and hyperinsulinemic. Male rats were lesioned in the ventromedial hypothalamus (VMH) and kept either under ad libitum or absolute (oral or intragastrical) pair-feeding conditions for 4 weeks. Hyperphagic rats, as well as normophagic VMH rats, became obese, but only ad lib-fed obese rats displayed glucose intolerance to intravenous (IV) glucose infusions. Orally pair-fed VMH rats also showed normal oral and intragastric glucose tolerance, but in intragastrically fed VMH animals and controls, oral and intragastric glucose tolerance was decreased. These results indicate that (1) obesity as a consequence of VMH lesions is not dependent on hyperphagia, confirming earlier reports, and also independent of the ingestion of bulk meals. (2) beta-cell release of insulin to IV glucose infusion is not sufficient when hyperphagia and vagally mediated hyperinsulinemia coincide, and is therefore dependent on several factors; and (3) oral glucose intolerance develops when preabsorptive reflexes are blunted, irrespective of whether the animals were hyperinsulinemic or not.

BIPHASIC INSULIN-SECRETION AFTER INTRAVENOUS BUT NOT AFTER INTRAPORTAL CCK-8 INFUSION IN RATS

The effects of physiological doses of sulfated cholecystokinin-8 (CCK-8) on insulin secretion were investigated in unrestrained unanesthetized rats. The routes of administration were intravenous or intraportal infusion. Intravenous infusion (0.33–5.0 μg CCK-8 · kg−1 · 20 min−1) resulted in a biphasic response pattern consisting of a fast 1st-min rise in plasma insulin concentration and a slower second phase that lasted throughout the infusion. The first phase showed the same amplitude with all amounts of CCK-8 administered in this study, whereas the second phase exhibited dose dependency. Blood glucose levels were lowered during all infusions of CCK-8, although the second phase of insulin release was absent with the lowest dose. These results suggest a strong stimulatory effect of CCK-8 on the pancreatic β-cells, probably by changing the set point for glucose. The described effects of intravenous administration of CCK-8 cannot be produced when the infusion is given into the portal vein. Only very high concentrations of CCK-8 (15 μg · kg−1 · 20 min−1) produced a small increase in plasma insulin levels, indicating a strong CCK-8-eliminating mechanism in the liver. These results indicate that 1) CCK-8 evokes biphasic insulin release and a concomitant drop in glucose levels, and 2) CCK-8 acting on the β-cell in vivo is not of intestinal origin but is probably released by the pancreatic vagai branch.

Overfeeding-Induced Obesity in Rats : Insulin Sensitivity and Autonomic Regulation of Metabolism

The metabolic consequences of the development of obesity and the underlying mechanisms were investigated. For this purpose, male rats were overfed for 5 weeks through long-term gastric catheters. Permanent cardiac cannulas implanted before the overfeeding period allowed frequent blood sampling and infusions without disturbing the rats. Hyperalimented rats became grossly obese, displayed elevated basal plasma norepinephrine (NE) concentrations, and developed hyperinsulinemia and insulin insensitivity, but remained normoglycemic and preserved normal intravenous (IV) glucose tolerance. During physical exercise (ie, 15 minutes of swimming), obese rats displayed exaggerated increases in blood glucose concentrations, whereas plasma free fatty acid (FFA) responses were blunted. These alterations were probably due to decreased NE release by the sympathetic nervous system during exercise and to altered tissue responsivity to adrenergic stimulation. The latter was demonstrated by infusions of catecholamines in the resting state. Responses to mild stress were increased in obese animals, as indicated by increased responses of plasma epinephrine (E) and corticosterone during handling and first contact with water. The results of the present study indicate that overfeeding induces changes in the sympathetic control of metabolism and insulin secretion. Whereas elevated NE levels in the basal state probably reflect increased energy expenditure, the pattern of nutrient mobilization during exercise is directed toward sparing of fats.

Inhibition of glutathione efflux in the recirculating rat liver perfusion by cysteine but not by oxothiazolidine carboxylate, an intracellular cysteine precursor

In the recirculating rat liver perfusion a continuous release of glutathione into the perfusion medium is observed. Addition of L‐cysteine to the perfusion medium immediately arrested this glutathione efflex. The cysteine precursor oxothiazolidine carboxylate did not block the glutathione efflux in spite of the fact that it generated more L‐cysteine inside the liver cells than L‐cysteine itself; L‐cysteine is rapidly oxidized to cystine, that is no longer taken up by the liver. The results suggest that the inhibition of glutathione efflux results from the presence of cystine in the perfusion medium.