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  • Mechanisms of octanoic acid potentiation of insulin secretion in isolated islets.

Mechanisms of octanoic acid potentiation of insulin secretion in isolated islets.

Islets (2019-03-09)
Tingting Zhang, Pan Chen, Charles A Stanley, Toshinori Hoshi, Changhong Li
ABSTRACT

A potentiating effect of medium-chain triglycerides on glucose-stimulated insulin secretion (GSIS) has been observed since the 1960s. Subsequent observations identified octanoic acid (OA), the main component of medium-chain triglyceride, as the potentiator of GSIS, but the mechanism was unclear. We used wild-type (WT), short-chain 3-hydroxyacyl-CoA dehydrogenase knockout (Hadh-/-), and sulfonylurea receptor 1 knockout (Sur1-/-) mouse islets to define the mechanism of OA potentiation of insulin secretion. Application of OA alone induced a 2- to 3- fold increase of insulin secretion with an apparent threshold of 3 mM in WT mouse islets, suggesting that OA itself is a weak insulin secretagogue. However, OA at 1 mM strongly potentiated fuel-stimulated insulin secretion, especially GSIS. The potentiating effect on fuel-stimulated insulin secretion by OA did not require fatty acid β-oxidation because OA also potentiated amino acid-stimulated insulin secretion in islets isolated from Hadh-/- mice, which cannot fully oxidize OA. Measurements using Sur1-/- islets indicated that the potentiating effect of OA on fuel-stimulated insulin secretion is Ca2+ dependent and is often accompanied by β-cell membrane potential depolarization, and may also involve the Ca2+/calmodulin complex. Experiments using DCPIB, an ethacrynic acid derivative, to inhibit volume-sensitive anion channels (VSACs) in Sur1-/- islets demonstrated that the potentiation effects of OA on insulin secretion are in part medicated by activation of VSAC. In addition, inhibition of IP3 receptor also abolishes the OA-induced intracellular Ca2+ increase in Sur1-/- islets.

MATERIALS
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Sigma-Aldrich
DCPIB, ≥98% (HPLC)