Inhibition of myeloperoxidase to treat left ventricular dysfunction in non-ischaemic cardiomyopathy.

ABSTRACT

AIMS: Non-ischaemic cardiomyopathy (NICMP), an incurable disease terminating in systolic heart failure (heart failure with reduced ejection fraction [HFrEF]), causes immune activation, however anti-inflammatory treatment strategies so far have failed to alter the course of this disease. Myeloperoxidase (MPO), the principal enzyme in neutrophils, has cytotoxic, pro-fibrotic and nitric oxide oxidizing effects. Whether MPO inhibition ameliorates the phenotype in NICMP remains elusive. METHODS AND RESULTS: Prognostic information from MPO was derived from proteomic data of a large human cardiovascular health cohort (n = 3289). In a murine model of NICMP, we studied the mechanisms of MPO in this disease. In a case series, the MPO inhibitor was also evaluated in NICMP patients. Individuals with increased MPO revealed higher long-term mortality and worsening of heart failure, with impaired prognosis when MPO increased during follow-up. MPO infusion attenuated left ventricular ejection fraction (LVEF) in mice with NICMP, whereas genetic ablation or inhibition of MPO decreased systemic vascular resistance (SVR, 9.4 ± 0.7 mmHg*min/ml in NICMP vs. 6.7 ± 0.8 mmHg*min/ml in NICMP/Mpo-/-mice, n = 8, p = 0.006, data expressed as mean ± standard error of the mean) and improved left ventricular function (LVEF 30.3 ± 2.2% in NICMP vs. 40.7 ± 1.1% in NICMP/Mpo-/- mice, n = 16, p < 0.0001). Four patients diagnosed with NICMP and treated with an MPO inhibitor over 12 weeks showed increase in LVEF, decline in natriuretic peptides and improved 6-min walking distance. MPO inhibitor-related changes in the proteome of NICMP patients predicted reduced mortality when related to the changes in the proteome of the above referenced cardiovascular health cohort. CONCLUSIONS: Myeloperoxidase predicts long-term outcome in HFrEF and its inhibition elicits systemic anti-inflammatory and vasodilating effects which translate into improved left ventricular function. MPO inhibition deserves further evaluation as a novel, complementary treatment strategy for HFrEF.