Effects of cytochalasin B and D upon insulin release and pancreatic islet cell metabolism
- Authors:
- Published online on: February 1, 2002 https://doi.org/10.3892/ijmm.9.2.165
- Pages: 165-172
Metrics: Total
Views: 0 (Spandidos Publications: | PMC Statistics: )
Total PDF Downloads: 0 (Spandidos Publications: | PMC Statistics: )
Abstract
Cytochalasin B is known to enhance insulin release evoked by nutrient and non-nutrient secretagogues, including D-glucose, despite inhibiting D-glucose uptake and metabolism in pancreatic islets. In the present study, cytochalasin D, which failed to affect D-glucose uptake and metabolism by isolated islets, also augmented glucose-stimulated insulin release, but unexpectedly to a lesser extent than cytochalasin B. Such was not the case, however, in islets stimulated by non-glucidic nutrients such as 2-ketoisocaproate or the association of L-leucine and L-glutamine. This situation coincided with the fact that cytochalasin B inhibited more severely D-glucose metabolism in non-B, as distinct from B, islet cells and, in the former case, caused a relatively greater inhibition of hexose catabolism at 2.8 mM than at 16.7 mM D-glucose. Nevertheless, even in the presence of forskolin, cytochalasin B was more efficient than cytochalasin D in augmenting glucose-stimulated insulin secretion. Thus, although these data document that non-B islet cells are more sensitive than purified islet B cells to cytochalasin B, at least in terms of inhibition of D-glucose catabolism, such a difference and its possible consequence upon the release of glucagon and other non-insulinic hormones by non-B islet cells do not appear sufficient to account for the greater enhancing action of cytochalasin B, as distinct from cytochalasin D, upon glucose-stimulated insulin output. Likewise, the latter difference does not appear attributable to a greater efficiency of cytochalasin B, as compared to cytochalasin D, upon the mechanical events involved in nutrient-stimulated exocytosis of insulin granules. Hence, the present findings suggest a so-far-unidentified interference of cytochalasin B with the B-cell glucose-sensing device.