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Using Genetics For Early Phenotyping & Prevention of Hypertrophic Cardiomyopathy

$2,146,465P50FY2017HLNIH

Brigham And Women'S Hospital, Boston MA

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Discovering the genetic basis of human heart disease presents a remarkable opportunity to predict and prevent disease. By identifying at-risk individuals prior to clinical diagnosis and fostering development of novel therapies to delay or prevent clinical expression, genetic discoveries can transform medicine. Hypertrophic cardiomyopathy (HCM) provides a paradigm for fulfilling this opportunity. HCM is the most common monogenic cardiovascular disorder and is caused by dominant mutations in sarcomere genes. Clinical characteristics include left ventricular hypertrophy (LVH), myocardial fibrosis, diastolic dysfunction, and an increased risk for arrhythmias, sudden death and heart failure. Unexplained LVH, the defining clinical feature of HCM, is a relatively late manifestation of disease and typically emerges around the time of puberty. In contrast, gene-based diagnosis identifies not only individuals who carry pathogenic mutations (G+) and have overt disease (LVH+), but also at-risk G+ individuals who have not yet developed a clinical diagnosis of HCM (LVH-). Our investigations of G+/LVH- preclinical HCM subjects have identified novel early phenotypes in this important subset, thus providing insight into the initial consequences of sarcomere mutations and disease pathogenesis. Impaired LV relaxation and increased myocardial collagen synthesis both precede the onset of LVH. Furthermore, preclinical mutation carriers are a unique at-risk population to target therapies to prevent disease progression. Promising work in animal models has shown that early pharmacologic therapy can counteract the effect of pathogenic sarcomere mutation and diminish the emergence of HCM. Molecular network analysis in mouse models of HCM identified a central role for transforming growth factor-beta (TGFß) activation in myocardial fibrogenesis. Administration of neutralizing antibody or angiotensin II receptor blockade to inhibit TGF-ß activation in prehypertrophic HCM mice was associated with less development of hypertrophy and fibrosis compared with placebo. Collectively these data suggest considerable benefit from defining genetic susceptibility and intervening early in HCM. Through our 2-stage CTRIP studies, we will foster clinical translation of these key scientific discoveries, culminating in a Phase II multicenter, doubleblind, placebo-controlled randomized clinical trial to assess the safety and efficacy of the potent ARB, candesartan, in attenuating disease progression, using early phenotypes as surrogate endpoints to monitor treatment response. With these efforts, we will begin to reshape the clinical paradigm for treating adult-onset genetic disorders, based on early diagnosis, mechanistic insight, and disease modification.

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