Abstract
Background: Acquired heart failure (HF) originates with failing heart muscle, yet it is currently not possible to assay the biochemical health of cardiomyocytes. A key pathophysiology of HF is weakened calcium transient under the regulation of a membrane deformation protein bridging integrator 1 (BIN1). BIN1 decreases with HF and is blood available. We hypothesized that a recently cloned cardiac BIN1 isoform (cBIN1, BIN1+13+17) can be selectively measured to diagnose heart muscle health. Methods: Expression of cBIN1 in human heart and plasma was determined by immunoprecipitation, western blotting, and mass spectrometry analysis. A cBIN1 specific ELISA was developed using the combination of anti-BIN1 exon 17 (clone 99D from Sigma) and 13 (gift from Sarcotein Diagnostics) antibodies. Plasma cBIN1 concentration was then measured in a large clinical cohort of HFrEF (N=180) patients and compared to a sex and age matched cohort of healthy volunteers. Plasma cBIN1 concentration was also compared to NT-proBNP for its ability to detect patients with HFrEF. Results: Biochemistry and mass spectrometry confirms that cBIN1 is expressed in human myocardium. An ELISA assay selects for the cBIN1 isoform which significantly reduced in HFrEF (3.0±0.3, n=286, mean±SEM, ng/ml, p<0.001) versus matched healthy volunteers (3.0±0.3, n=340). Low plasma cBIN1 diagnoses HFrEF with a ROC area under the curve of 0.92. cBIN1 ROC characteristics are additive to those of NT-proBNP. In addition, low plasma cBIN1 predicts future cardiovascular hospitalization and death over a 12 month follow-up period. Conclusions: A cBIN1 specific ELISA can quantify cBIN1 in human plasma. Low plasma cBIN1 diagnoses diseased heart muscle in HFrEF patients and predicts future hospitalization and death.
Published Version
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