ABSTRACT Nearly 63 million people (20% of the US population) are eligible for VA benefits and services because they are veterans, family members or survivors of veterans. Cardiovascular diseases (CVD) contribute to significant morbidity and mortality of the military veterans and civilians (CDC/National Center for Health Statistics). I have been associated with VA and non-VA funded clinician-scientists and basic researchers for the past 25 years. I am also a VA funded investigator. The overall focus of my research as a VA funded scientist is to investigate the causal role of inflammation, inflammatory cytokines and chemokines, and inhibitors of inflammation in CVD. Since inflammation is a critical component in the pathogenesis of CVD, and CVD are the major contributing factors for morbidity and mortality within both military veteran and civilian populations of both sexes, my studies are highly relevant to the VA mission. Since hypertension, diabetes, obesity, and smoking predispose veterans and civilians alike to CVD, my ongoing studies are timely and critical in further understanding the molecular mechanisms underlying the pathophysiology of these chronic diseases. Using the most promising research strategies and problem-solving approaches, my goals are to identify newer therapeutic targets and approaches to blunt progression of CVD and associated mortality. We identified two molecule that show promise: TRAF3IP2 and RECK. TRAF3IP2 (TRAF3 Interacting Protein 2) is a cytoplasmic adapter molecule and an upstream regulator of at least three major proinflammatory signal transduction pathways that are known to play a pathological role in ischemic/non-ischemic cardiac diseases. TRAF3IP2 is an upstream regulator of IKK/NF-kB, JNK/AP-1 and p38 MAPK, whose persistent activation exerts negative myocardial inotropic effects. It also induces the expression of collagens and MMPs. TRAF3IP2 is also a critical intermediate in IL-17, IL-18 and TLR4 signaling, all of which are involved in HF development and progression. RECK (Reversion Inducing Cysteine Rich Protein with Kazal Motifs) is a membrane anchored MMP regulator. It also exerts anti-inflammatory effects by physically associating with ADAMs, and IL-6R and gp130. Our preliminary data show that human heart failure of ischemic/non-ischemic origin (explanted hearts) is characterized by high levels of TRAF3IP2 and suppressed expression of RECK. Therefore, my goal and passion are to work towards developing TRAF3IP2 inhibitors and RECK inducers and investigate their potential in blunting the progression of heart failure in preclinical models. Towards this goal, using molecular modeling and docking, we tested several thousands of compounds, and identified two potential small molecule TRAF3IP2 inhibitors and one small molecule RECK inducer, and submitted invention disclosures to VA and the affiliate. Since RECK expression is downregulated in human heart failure, my ongoing studies are focused on investigating wheth...