Abstract
Abstract Background Cluster of differentiation-14 (CD14) facilitates the excessive pro-inflammatory monocyte-macrophage response to myocardial injury. Both acute and chronic infiltration of pro-inflammatory macrophages are implicated in the immunological progression of ischemic heart failure. However, investigation of clinically practicable strategies of CD14 blockade are yet to be reported. Purpose This fully blinded and randomised preclinical study evaluated the efficacy of a neutralising anti-CD14 antibody given at reperfusion in a murine model of reperfused ST-elevation myocardial infarction (STEMI) with key clinical features. Methods Large anterior STEMI was induced in 48 adult mice by left anterior descending coronary artery occlusion for 1 h prior to reperfusion and randomisation to receive anti-CD14 antibody, isotype control (IgG2a) or saline weekly for four weeks (independently blinded). Outcome measures included functional assessments by 9.4T cardiac magnetic resonance (CMR) imaging and ultra-high-resolution echocardiography at 21- and 28-days post-STEMI, respectively. Results Multi-plane short axis CMR at 21-days post-STEMI revealed greater left ventricular (LV) ejection fraction in the anti-CD14 antibody-treated group compared with saline- and isotype-treated controls (30±1 vs 19±1 and 20±1 %, respectively, p<0.001; Figure 1A). CMR also revealed reduced LV dilatation with anti-CD14-treatment compared to control groups (76±5 vs 102±8 and 107±7 µl EDV in saline- and isotype-treated controls, respectively, p<0.05). Parasternal long axis echocardiography at 28 days post-STEMI confirmed that anti-CD14 antibody treatment was associated with greater LV systolic function compared to saline and isotype controls (30±1 vs 24±1 and 25±2 % EF, respectively, p<0.05; Figure 1B). Preservation of LV end-diastolic (86±4 vs 111±6 and 101±5 µl, p<0.01) and end-systolic (61±3 vs 84±5 and 77±5 µl, p<0.01) volumes was also observed with anti-CD14 treatment. Global longitudinal strain (GLS) of the LV was also significantly greater at 28 days post-STEMI with anti-CD14 treatment relative to saline and isotype controls (-8.5±0.4 vs -6.8±0.3 and -6.6±0.4 %, respectively, p<0.05). Conclusion(s) The findings of this fully blinded and randomised preclinical study provide evidence of a clinically practicable strategy of CD14 blockade initiated at reperfusion to mitigate progressive LV systolic dysfunction and dilatation post-STEMI.Figure 1.Functional outcome measures
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