Targeting myocardial equilibrative nucleoside transporter ENT1 provides cardioprotection by enhancing myeloid Adora2b signaling
Wei Ruan, Jiwen Li, Seungwon Choi, Xinxin Ma, Yafen Liang, Ragini Nair, Xiaoyi Yuan, Tingting W. Mills, Holger K. Eltzschig
Wei Ruan, Jiwen Li, Seungwon Choi, Xinxin Ma, Yafen Liang, Ragini Nair, Xiaoyi Yuan, Tingting W. Mills, Holger K. Eltzschig
View: Text | PDF
Research Article Cardiology Inflammation

Targeting myocardial equilibrative nucleoside transporter ENT1 provides cardioprotection by enhancing myeloid Adora2b signaling

Abstract

Previous studies implicate extracellular adenosine signaling in attenuating myocardial ischemia and reperfusion injury (IRI). This extracellular adenosine signaling is terminated by its uptake into cells by equilibrative nucleoside transporters (ENTs). Thus, we hypothesized that targeting ENTs would function to increase cardiac adenosine signaling and concomitant cardioprotection against IRI. Mice were exposed to myocardial ischemia and reperfusion injury. Myocardial injury was attenuated in mice treated with the nonspecific ENT inhibitor dipyridamole. A comparison of mice with global Ent1 or Ent2 deletion showed cardioprotection only in Ent1–/– mice. Moreover, studies with tissue-specific Ent deletion revealed that mice with myocyte-specific Ent1 deletion (Ent1loxP/loxP Myosin Cre+ mice) experienced smaller infarct sizes. Measurements of cardiac adenosine levels demonstrated that postischemic elevations of adenosine persisted during reperfusion after targeting ENTs. Finally, studies in mice with global or myeloid-specific deletion of the Adora2b adenosine receptor (Adora2bloxP/loxP LysM Cre+ mice) implied that Adora2b signaling on myeloid-inflammatory cells in cardioprotection provided by ENT inhibition. These studies reveal a previously unrecognized role for myocyte-specific ENT1 in cardioprotection by enhancing myeloid-dependent Adora2b signaling during reperfusion. Extension of these findings implicates adenosine transporter inhibitors in cardioprotection against ischemia and reperfusion injury.

Authors

Wei Ruan, Jiwen Li, Seungwon Choi, Xinxin Ma, Yafen Liang, Ragini Nair, Xiaoyi Yuan, Tingting W. Mills, Holger K. Eltzschig

×

Figure 2

Global deletion of Ent1, but not Ent2, confers ENT-dependent cardioprotection.

Options: View larger image (or click on image) Download as PowerPoint
Global deletion of Ent1, but not Ent2, confers ENT-dependent cardioprote...
(A and B) Ent1 (A) or Ent2 (B) transcript levels in the heart of WT, Ent1–/–, or Ent2–/– mice (n = 3–5; 1-way ANOVA, **P < 0.01, ***P < 0.001 in Bonferroni’s multiple-comparison test). (C) Cardiac ENT1 protein by Western blot analysis. (n = 5–7; 1-way ANOVA, ***P < 0.001 in Bonferroni’s multiple-comparison test). (D) Cardiac ENT2 protein by Western blot analysis (n = 3; 1-way ANOVA, **P < 0.01 in Bonferroni’s multiple-comparison test). (E) Experimental strategy for the murine myocardial IRI in WT, Ent1–/–, or Ent2–/– mice. (F) Myocardial infarct sizes in WT, Ent1–/–, or Ent2–/– mice (n = 8 for WT, n = 5 for Ent1–/–, n = 7 for Ent2–/–, 1-way ANOVA, ***P < 0.001 in Bonferroni’s multiple-comparison test). (G) Representative images of left ventricles stained by Evans blue and TTC. The infarct area is outlined by a green line; AAR is outlined by a blue line. Scale bar: 1 mm. (H) cTnI levels after myocardial injury (n = 8 for WT, n = 5 for Ent1–/–, n = 7 for Ent2–/–, 1-way ANOVA, *P < 0.05 in Bonferroni’s multiple-comparison test). Data are shown as mean ± SEM. Each dot represents 1 mouse.