Function of pancreatic endocrine cells in experimental acute pancreatitis

The Effects of Trypsin Inhibitor on Insulin Secretion Using Rat Pancreas in an Organ Bath

BACKGROUND/AIM

We developed an experimental method to reproduce insulin secretion from isolated rat pancreas preparations using an organ bath system. However, secretion of trypsin, another pancreatic enzyme, interferes with insulin production in such systems. We aimed to ascertain the minimum trypsin inhibitor (TI), dose for obtaining a sustained, stable rate of insulin secretion.

MATERIALS AND METHODS

The action of TI (1-10 μg/ml) on pancreatic preparations of male Wistar-Imamichi rats in organ bath experiments was assessed by measuring insulin, amylase, and trypsin activity.

RESULTS

The level of insulin outflow remained steady in the TI-treated samples, in contrast to that in the untreated control, where insulin secretion decreased over time. The level of amylase outflow did not change significantly. Trypsin activity was significantly lower in the TI-treated samples than in the control.

CONCLUSION

Even low concentrations of TI can maintain insulin secretion by inhibiting trypsin activity in organ bath experiments.

Mechanisms of Post-Pancreatitis Diabetes Mellitus and Cystic Fibrosis-Related Diabetes: A Review of Preclinical Studies

Anatomical proximity and functional correlations between the exocrine and endocrine pancreas warrant reciprocal effects between the two parts. Inflammatory diseases of the exocrine pancreas, such as acute or chronic pancreatitis, or the presence of cystic fibrosis disrupt endocrine function, resulting in diabetes of the exocrine pancreas. Although novel mechanisms are being increasingly identified, the intra- and intercellular pathways regulating exocrine-endocrine interactions are still not fully understood, making the development of new and more effective therapies difficult. Therefore, this review sought to accumulate current knowledge regarding the pathogenesis of diabetes in acute and chronic pancreatitis, as well as cystic fibrosis.

Development of an organ bath technique for isolated rat pancreas preparations to assess the effect of 1,5-AG on insulin secretion

To investigate substances related to insulin secretion, we reported a convenient experimental method to reproduce insulin secretion from isolated rat pancreas preparations using an organ bath. While the method has experimental utility for investigating insulin secretion, optimization of the experimental design is still needed. The level of insulin outflow in the control decreased over time in our previous study. Decreasing serum 1,5-anhydroglucitol (1,5-AG) levels is also known to be shown in patients with worsening glycemic control. There is one in vitro report demonstrated that 1,5-AG induced insulin release. It appears that discussion needs to be deepened further on it. In this study, we investigated the effect of 1,5-AG on insulin secretion through to optimize the condition of endocrine function using the ex vivo organ bath technique. The level of insulin outflow in the control and 1,5-AG groups decreased over time in the organ bath experiment. To analyze the effect of trypsin on reduced insulin secretion, pancreas preparation was treated with soybean trypsin inhibitor (TI). Insulin outflow levels of the TI group were significantly higher than the control group. An enzyme indicator of tissue damage tended to be lower in the TI group. There was no significant enhancement of insulin secretion by 1,5-AG. The present study demonstrated the utility of TI application for the organ bath technique. This finding supported the development of an organ bath technique for the assessment of the effects of novel therapeutics on insulin secretion.

Pancreatic endocrine function and glucose transporter (GLUT)-2 expression in rat acute pancreatitis

INTRODUCTION

Impairment in pancreatic endocrine function is believed to play an important role in the development of glucose intolerance in acute pancreatitis.

AIM

To investigate the functional aspects of endocrine cells in acute pancreatitis and the expression of glucose transporter (GLUT) 2 in the pancreatitis islet.

METHODOLOGY

A mild form of acute pancreatitis was induced in rats by an injection of a sodium taurocholate solution via a cannulated biliopancreatic duct. Isolated islets were stimulated by glucose, and insulin secretion was analyzed by radioimmunoassay. Immunohistochemical detection of GLUT2 with use of a specific antibody was attempted to determine GLUT2 expression in pancreatic islets.

RESULTS

A marked elevation of glucose levels observed in the current rat pancreatitis model confirmed that glucose intolerance can occur even in a mild form of pancreatitis. The architecture of the islets, however, remained intact despite marked inflammatory changes in the neighboring exocrine region. Insulin secretion studies revealed that the ability of islets to secrete insulin in response to glucose was markedly reduced in pancreatitis islets. GLUT2 immunoreactivity in endocrine cells was found to be intact in pancreatitis islets.

CONCLUSION

The amount of insulin released from isolated islets following glucose stimulation is reduced in acute edematous pancreatitis, although pancreatic islets remain histologically intact. On the basis of the present findings, it appears that although the mechanisms responsible for this functional deficiency remain to be determined, the decrease in insulin secretion is possibly caused by impairment of some pancreatic B-cell functions rather than GLUT2-mediated glucose transportation.