Abstract

Abstract Background The immune response following acute myocardial infarction encompasses a delicate balance between inflammatory and reparative programs. Our knowledge of these complex mechanisms is mainly derived from studies using a murine model of permanent coronary artery occlusion. In this study we developed, validated and implemented multiparametric imaging methods to investigate cardiac function and the systemic immune response in transient or permanent coronary artery occlusion mouse models. Methods The myocardial infarction models encompassed either transient (40 min) or permanent LAD occlusion in C57BL/6 mice, and non-infarcted mice were used as controls. Two or seven days later, the animals subjected to systemic immunoimaging of the bone marrow, spleen and myocardium with late gadolinium enhancement cardiac MRI (LGE cMRI), 18F-fluorodeoxyglucose (18F-FDG) PET, 18F-Fluorothymidine (18F-FLT) PET, 64Cu-CCR2 PET targeting inflammatory monocytes, 89Zr-CD11b nanobody PET and 19F-HDL-PERFECTA MRI, both targeting myeloid cells. In addition, the same myocardial infarction models were applied to atherosclerosis-prone Apoe−/− and systemic inflammation and plaque progression were assessed by flow cytometry and immunohistochemistry four weeks after infarction. Results Through LGE cMRI and 18F-FDG PET, we observed that temporary coronary occlusion resulted in a smaller infarct size, better cardiac function and viability compared to permanent occlusion. Multiparametric immunoimaging targeting CD11b+ cells by 89Zr-CD11b nanobody PET and Ly6Chi inflammatory monocytes by 64Cu-CCR2 PET demonstrated that mice subjected to transient coronary occlusion had less immune cell influx to the ischemic myocardium. This finding was confirmed by flow cytometry analysis of the infarct zone. In contrast, both myocardial infarction models cause a similar systemic immune response in the bone marrow and spleen as observed with multimodal imaging with subsequent similar numbers of CD11b+ cells in the blood. Both permanent and temporary coronary artery occlusion aggravate atherosclerosis in Apoe−/− mice with higher macrophage and Ly6Chi monocyte numbers in aortas and larger plaque size compared to Apoe−/− mice without myocardial infarction. Conclusions We developed and employed multimodal, multiparametric imaging protocols to characterize the immune response in the heart, bone marrow and spleen in two models of myocardial infarction. While cardiac function was superior in the ischemia reperfusion model, both types of myocardial infarction accelerated atherosclerosis. Funding Acknowledgement Type of funding sources: Other. Main funding source(s): NIH and DFG

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