Abstract 452: Role of CD38 in Cardiovascular Performance and Its Use as a Therapeutic Target in Obesity-Induced Diastolic Dysfunction

Abstract

Background: Cardiac tissue possesses high energetic requirements. During development of heart failure there is a shift from fatty acid oxidation to the utilization of other substrates. This transition leads to the decline in NAD/NADH ratio, which increases susceptibility to stress. CD38 is the main NAD + -consuming enzyme responsible for NAD + levels regulation in tissue and therefore represents a possible therapeutic target in such conditions. Objective: To investigate the role of CD38 in cardiovascular performance and its potential use as a therapeutic target in obesity-induced heart failure. Results: When comparing adult Wild-Type (WT) and CD38 Knock-out (KO) mice we observed that the latter had higher exercise performance, increased heart rate variability (HRV) and decreased heart rate (HR). When comparing WT and CD38 catalytically inactive (CI) mice we observed the same results, showing its relation with CD38 catalytic activity. WT mice treated with an antibody which blocks CD38 activity showed improved exercise capacity and HRV. In both genetically modified or antibody treated groups, NAD+ levels were significantly increased in heart. In order to explore the NAD + role in these findings, we compared WT control and CD38KO treated with FK866 (Nampt inhibitor) and observed that NAD+ levels in heart decreased as well as exercise capacity. We then aimed to demonstrate CD38 role as a target for therapeutic intervention in a model of cardiac strain induced by obesity in aged mice. We compared WT and CD38 CI aged mice, placed in normal diet (ND) or high fat diet (HFD). WT animals fed HFD showed decreased exercise capacity and this effect is reversed in CD38 CI fed HFD. Similarly, WT placed in HFD developed diastolic dysfunction seen as a significant increase in E/e’ ratio, and CD38 CI placed in HFD were protect against the development of this dysfunction. Mechanistically, we observed that blockage of CD38 resulted in decreased protein acetylation and increased SERCA expression. Conclusion: CD38 plays a role in cardiovascular performance by regulation of NAD + homeostasis. In a model of obesity-induced diastolic dysfunction NAD+-boosting by blocking CD38 activity led to protection by up-regulating SERCA expression.