FUNDC1: a key mediator of adenosine A2BR activation-induced inhibition of cardiac mitophagy under ischemia/reperfusion conditions

Mitophagy is an essential factor in mitochondrial quality control and myocardial ischaemia/reperfusion (I/R) injury protection. Because adenosine A2B receptor (A2BR) activation exerts a major role in reducing myocardial I/R injury, the effects of adenosine A2BR activation on cardiac mitophagy under reperfusion conditions were investigated.

Adenosine A2BR activation may inhibit myocardial mitophagy by downregulating expression of the mitochondrial FUNDC1 by activating Src tyrosine kinase under I/R conditions and could increase the interaction between Src tyrosine kinase and FUNDC1.

110 adult Wistar rats (7-10 w), weighing 250-350 grams, were cultured in specific-pathogen-free (SPF) conditions before experiments. All hearts were removed and reperfused by Langendorff device. Six hearts with coronary flow (CF) values >28 or <10 mL/min were excluded. Others were arbitrarily divided into the following groups: sham operation group, I/R group, BAY60-6583 (BAY) (1-1,000 nM) + I/R group, PP2 + BAY + I/R group. After ischemia in rats, reperfusion was performed. H9c2 cells were placed in an imitated ischemic environment followed by Tyrode's solution to stimulate hypoxia/reoxygenation (H/R) injury. The mitochondrial fluorescence indicator MitoTracker Green and lysosomal fluorescence indicator LysoTracker Red were used to examine mitochondria and lysosomes, respectively. Colocalization of mitochondrial and autophagy marker proteins was determined by immunofluorescence. Autophagic flow currents were tested by Ad-mCherry-GFP-LC3B. Protein-protein interactions were predicted using a database and analyzed by co-immunoprecipitation. Autophagy marker protein, mitophagy marker protein, and mitophagy protein FUNDC1 were detected by immunoblotting.

Compared with those in the I/R group, myocardial autophagy and mitophagy were suppressed by the selective adenosine A2BR agonist BAY, and this effect was inhibited by the selective Src tyrosine kinase inhibitor PP2, indicating that adenosine A2BR activation could inhibit myocardial autophagy and mitophagy by activating Src tyrosine kinase. In support, in H9c2 cells, the selective Src tyrosine kinase inhibitor PP2 inhibited the effect of BAY on TOM20 with LC3 or mitochondria with lysosomes colocalization and autophagy flow. Here, we showed that mitochondrial FUNDC1 co-precipitated with Src tyrosine kinase after BAY was added. Consistently, the immunofluorescence and western blotting results demonstrated that compared to that in the H/R group, the expression of mitochondrial FUNDC1 was reduced by BAY, but this effect was reversed by PP2. Conclusions: Adenosine A2BR activation may inhibit myocardial mitophagy by downregulating expression of the mitochondrial FUNDC1 by activating Src tyrosine kinase under I/R conditions and could increase the interaction between Src tyrosine kinase and FUNDC1.