Secretin-induced exocrine secretion in perfused pancreas isolated from diabetic rats.

Exocrine secretory function in response to 10 pM to 10 nM synthetic secretin was evaluated in perfused pancreas isolated from control, streptozocin-induced diabetic (STZ-D), alloxan-induced diabetic (ALX-D), and insulin-treated STZ-D rats. In STZ-D rats, the basal rate of pancreatic juice flow was significantly increased (10.3 +/- 1.0 microliters/20 min) compared with control rats (4.4 +/- 0.2 microliters/20 min). The basal rate of amylase output as well as pancreatic amylase content were significantly decreased to less than 5% of control values. The basal rates of protein and trypsinogen outputs were similar in both groups. In both control and diabetic rats, secretin caused a dose-dependent increase in exocrine secretion. Secretin (10 pM to 10 nM) induced 1.1- to 11.7-fold increases in exocrine secretion in STZ-D rats. These increases were significantly lower than the 2.1- to 20.8-fold increases in control rats. Furthermore, there was no significant increase in exocrine secretion from STZ-D rats in response to 10 pM secretin, although this concentration of secretin caused a significant increase in control rats. Secretin-induced exocrine secretion in ALX-D rats was similar to that in STZ-D rats. In insulin-treated STZ-D rats, the basal rates of pancreatic secretion were not significantly different from those of control rats. These results suggest that insulin resistance in this patient was due to a circulating factor of low molecular weight that uncoupled insulin stimulation of glucose transport from receptor binding and phosphorylation. The factor appears to increase the binding activity of the alpha-subunit of the insulin receptor without affecting the kinase activity of the beta-subunit.