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The Role of BAG3 in the Failing Heart
Myers, Valerie
Myers, Valerie
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Thesis/Dissertation
Date
2018
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Biomedical Sciences
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http://dx.doi.org/10.34944/dspace/3305
Abstract
Heart disease has been the leading cause of death in the United States for more than 90 years. The leading cause of death in individuals aged 65 and older has remained diseases of the heart from 1950 to the current time. According to the CDC, once diagnosed with heart disease, individuals have an approximately 50% chance of dying within 5 years, regardless of race. Mortality related to heart disease increased dramatically from the start of the 1900s to 1921, but subsequently experienced a steady decline from the mid-1960’s to 2000. However, when the decrease in heart disease is examined at the level of race it is clear that the decrease is not equally shared. While the leading cause of death among both Caucasian American men and women and African American men and women remains heart disease, the decrease in incidence of coronary heart disease among African American men was only half of the decrease in incidence among Caucasian American men. Genetic variants in BAG3 (Bcl-2 associated athanogene 3), a highly evolutionarily conserved gene that has recently emerged as a major dilated cardiomyopathy locus, are prevalent in isolated populations. This led us to hypothesize that variants in BAG3 might contribute to the increased prevalence of IDC in individuals of African ancestry. Expressed predominantly in the heart, the skeletal muscle and in many cancers, BAG3 has pleotropic effects in the heart. It inhibits apoptosis by binding to Bcl-2, facilitates protein quality control by binding to both large and small heat shock proteins, mediates adrenergic responsiveness by coupling the β-adrenergic receptor and the L-type Ca2+ channel, and maintains the integrity of the sarcomere by anchoring actin filaments to the Z disc. However, a paucity of subjects of African ancestry have been included in cohorts of probands with familial dilated cardiomyopathy whose exomes or genomes have been sequenced. Based on our previous observations and reports from other groups we postulated: 1) that mice with haplo-insufficiency of BAG3 will re-capitulate disease seen in humans and serve as a model for studying the pathogenesis of BAG3. 2) The prevalence or identification of specific BAG3 variants will differ by race and/or ethnicity. 3) SNVs of BAG3 may contribute to disease progression and thereby be pathogenic. Our study points out that we cannot understand population-based differences without enhancing the diversity of populations included in genomic studies. Similarly, in the era of big data, efforts must be undertaken to assess the genetic profile of both probands and their family members as without the ability to measure segregation, penetrance and plasticity we can only ascribe associations to functional genetic variants.
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