β-oxidation of 5-hydroxydecanoate, a putative blocker of mitochondrial ATP-sensitive potassium channels

5-Hydroxydecanoate (5-HD) inhibits ischaemic and pharmacological preconditioning of the heart. Since 5-HD is thought to inhibit specifically the putative mitochondrial ATP-sensitive K+ (K-ATP) channel, this channel has been inferred to be a mediator of preconditioning. However, it has recently been shown that 5-HD is a substrate for acyl-CoA synthetase, the mitochondrial enzyme which 'activates' fatty acids. Here, we tested whether activated 5-HD, 5-hydroxydecanoyl-CoA (5-HD-CoA), is a substrate for medium-chain acyl-CoA dehydrogenase (MCAD), the committed step of the mitochondrial beta-oxidation pathway. Using a molecular model, we predicted that the hydroxyl group on the acyl tail of 5-HD-CoA would not sterically hinder the active site of MCAD. Indeed, we found that 5-HD-CoA was a substrate for purified human liver MCAD with a K-m of 12.8 +/- 0.6 muM and a k(cat) of 14.1 s(-1). For comparison, with decanoyl-CoA (K-m similar to3 muM) as substrate, k(cat) was 6.4 s(-1). 5-HD-CoA was also a substrate for purified pig kidney MCAD. We next tested whether the reaction product, 5-hydroxydecenoyl-CoA (5-HD-enoyl-CoA), was a substrate for enoyl-CoA hydratase, the second enzyme of the beta-oxidation pathway. Similar to decenoyl-CoA, purified 5-HD-enoyl-CoA was also a substrate for the hydratase reaction. In conclusion, we have shown that 5-HD is metabolised at least as far as the third enzyme of the beta-oxidation pathway. Our results open the possibility that beta-oxidation of 5-HD or metabolic intermediates of 5-HD may be responsible for the inhibitory effects of 5-HD on preconditioning of the heart.