The aim of this study was to examine the hypothesis that delta-opioid receptor activation before ischemia suppresses gap junction (GJ) permeability by PKC-mediated connexin 43 (Cx43) modulation, which contributes to infarct size limitation afforded by the delta-opioid receptor activation. A delta-opioid receptor agonist, [D-Ala(2),D-Leu(5)]-enkephalin acetate (DADLE, 300 nM), was used in place of preconditioning (PC) ischemia to trigger PC mechanisms in rat hearts. GJ permeability during ischemia, which was assessed by Lucifer yellow, was reduced by DADLE to 47% of the control level, and this effect of DADLE was almost abolished by a PKC-epsilon inhibitor [PKC-epsilon translocation inhibitory peptide (PKC-epsilon-TIP)] but was not affected by a PKC-delta inhibitor (rottlerin). After DADLE infusion, PKC-epsilon, but not PKC-delta, was coimmunoprecipitated with Cx43, and the level of phosphorylation of Cx43 at a PKC-dependent site (Ser(368)) was significantly elevated during ischemia. DADLE reduced infarct size after 35 min of ischemia followed by 2 h of reperfusion by 69%, and PKC-epsilon-TIP and rottlerin eliminated 48% and 63%, respectively, of the infarct size-limiting effect of DADLE. Infusion of a GJ blocker, heptanol, before reperfusion reduced infarct size by 36%, and this protection was not enhanced by preischemic infusion of rottlerin + DADLE, which allows PKC-epsilon activation by DADLE. These results suggest that phosphorylation of Cx43 by PKC-epsilon plays a crucial role in delta-opioid-induced suppression of GJ permeability in ischemic myocardium and that this modulation of the GJ is possibly an adjunct mechanism of infarct size limitation afforded by preischemic delta-opioid receptor activation.
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