Fingerprint Profile of Alcohol-Associated Heart Failure in Human Hearts Alcoholism: Clinical and Experimental Research Volume 32 Issue 5 Page 814-821, May 2008
Excessive alcohol consumption is recognized as a cause of left ventricular dysfunction and leads often to alcohol-induced heart failure. It is thought that 36% of all cases of dilated cardiomyopathy are due to excessive alcohol intake. In addition, since chronic alcohol-consumption is a social behavior that is not always clearly self-reported clinically, it has been difficult to diagnose alcohol-induced heart failure versus heart failure due to idiopathic dilated cardiomyopathy (IDCM). Interestingly, both diseases are associated with left ventricular dysfunction and congestive heart failure.
Our study shows that alcohol-induced heart failure has a "specific fingerprint" profile of de-regulated genes. This profile can differentiate patients with pure alcohol-induced heart failure from patients with heart failure from IDCM with alcohol as a complicating or contributing factor. Furthermore, the pattern of gene de-regulation suggests a pivotal role for changes in matrix, cytoskeletal, and structural proteins in the development of clinical heart failure resulting from excessive alcohol consumption.
We report for the first time a genomic "fingerprint" profile of de-regulated genes associated with human alcohol-induced heart failure. We conclude that the pathogenesis of alcohol-induced heart failure in humans is likely related to changes in architectural (e.g. cytoskeletal), matrix, and/or structural proteins. The reversibility of the disease upon cessation of alcohol consumption makes this a likely pathogenetic mechanism. Nevertheless, there is a point at which extracellular as well as cellular changes result in irreversible heart failure.
Request Reprint E-Mail: gwathmey@earthlink.net
__________________________________________________________________
