Reduced force production during low blood flow to the heart correlates with altered troponin I phosphorylation |
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Authors: | Bridgette Christopher Gresin O. Pizarro Bryson Nicholson Samantha Yuen Brian D. Hoit Ozgur Ogut |
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Affiliation: | 2. Department of Physiology and Biophysics, Case Western Reserve University, Cleveland, OH, 44106, USA 1. Division of Cardiovascular Diseases, Mayo Clinic, 200 First Street S.W., Rochester, MN, 55902, USA 3. Department of Medicine, University Hospitals of Cleveland, Cleveland, OH, 44106, USA
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Abstract: | A rat model of low myocardial blood flow was established to test the hypothesis that post-translational changes to proteins of the thin and thick muscle filaments correlate with decreased cardiac contractility. Following 3 days of low blood flow by constriction of the left anterior descending artery, rat hearts demonstrated a reduction in fractional shortening at rest and a relative decline in fractional shortening when challenged with high dose versus low dose dobutamine, reflecting reduced energy reserves. Permeabilized fibers from low blood flow hearts demonstrated a decline in maximum force per cross-section and Ca2+ sensitivity as compared to their sham operated counterparts. An examination of sarcomeric proteins by twodimensional gel electrophoresis, mass spectrometry, and phospho-specific antibodies provided evidence for Ser23/24 and Ser43/45 phosphorylation of troponin I (TnI). Total TnI phosphorylation was not different between the groups, but Ser23/24 phosphorylation declined with low blood flow, implying an accompanying increase in phosphorylation at other sites of TnI. Affinity chromatography demonstrated that TnI from low blood flow myocardium had reduced relative affinity to Ca2+ bound troponin C compared to TnI from sham operated hearts, providing a mechanism for reduced Ca2+ sensitivity of force production in low blood flow fibers. These findings suggest that altered TnI function, due to changes in the distribution of phosphorylated sites, is an early contributor to reduced contractility of the heart. |
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