Abstract 9486: miR-425/CFL2 Regulates Natriuretic Peptides Expression in Human CVD

Abstract

Introduction: Previously, miR-425 have been implicated in the inhibition of the cardiac natriuretic peptide (NP) ANP gene expression with their role on BNP undefined. The mechanism by which miR-425 modulates NP expression remains to be explored. In heart failure (HF), adrenergic and neurohormone pathways are aberrantly activated. Our goal was to investigate the role of miR-425 and its downstream target Cofilin 2 (CFL2) on ANP and BNP expression in human CV disease (CVD). Hypothesis: We hypothesized miR-425, via CFL2, supresses NPs expression in vitro. MiR-425, CFL2 and NP levels were also determined in CVD patients. Methods: In vitro, human cardiomyocytes (HCM) were treated with vehicle (Veh), catecholamine isoproterenol (ISO) and cytokine endothelin (ET), miR-425 mimic. Cells were transfected with CFL2 plasmid or CFL2 siRNA. Normal (NM, n=100), Hypertension (HTN, n=30) and Acute HF (AHF, n=74) cohorts were studied. A confirmatory cohort was recruited. Plasma NT-proBNP, miR-425 were measured. In left ventricles (LV) from NM or HF (n=5 each), NP, CFL2 and miR-425 expression were assessed. Data expressed as means±SEM. * p<0.05 vs NM or Veh. Results: In vitro in HCM, treatment with ISO or ET in HCM reduced miR-425 and elevated NP mRNA levels. Furthermore, miR-425 mimic reduced Nppa (Veh: 1.0±0.03, mimic: 0.7±0.02*) and Nppb levels (Veh: 1.0±0.03, mimic: 0.5±0.01*). We showed that a top predicted target of miR-425, CFL2, was also reduced by the mimic. Further, NP mRNA was elevated by CFL2 overexpression and reduced by the knockdown of CFL2. In humans, MiR-425 was lower in HTN and AHF patients (NM: 0.15±0.03, HTN: 0.03±0.005*, HF: 0.01±0.003*) than NM. MiR-425 negatively correlates with NT-proBNP in NM and AHF cohorts. Downregulation of miR-425 was validated in a second AHF cohort. Similarly, in HF LV tissues, miR-425 (NM: 2.5±0.5, HF: 1.0±0.5*) was lower than NM group, while CFL2 and NP gene and protein expression were increased. Conclusion: In vitro, cardiac stress hormones downregulate miR-425 and increase NP gene expression, potentially through a novel target, CFL2. In CVD patients, miR-425 is lower, accompanied by an elevation of CFL2 and NP. Our findings implicate the pathway of stress hormones/miR-425/CFL2/NP production in CVD.