Ablation is Associated with Changes in the Expression of Titin-interacting and Metabolic Proteins

Overview

Journal Mol Omics

Publisher Royal Society of Chemistry

Specialties Biochemistry
Biology
Molecular Biology

Date 2022 Jun 28

PMID 35762193

Authors

Eli J Larson

Zachery R Gregorich

Yanghai Zhang

Brad H Li

Timothy J Aballo

Jake A Melby

Ying Ge

Wei Guo

Affiliations

Soon will be listed here.

Abstract

Dilated cardiomyopathy (DCM) is a major risk factor for developing heart failure and is often associated with an increased risk for life-threatening arrhythmia. Although numerous causal genes for DCM have been identified, RNA binding motif protein 20 () remains one of the few splicing factors that, when mutated or genetically ablated, leads to the development of DCM. In this study we sought to identify changes in the cardiac proteome in knockout (KO) rat hearts using global quantitative proteomics to gain insight into the molecular mechanisms precipitating the development of DCM in these rats. Our analysis identified changes in titin-interacting proteins involved in mechanical stretch-based signaling, as well as mitochondrial enzymes, which suggests that activation of pathological hypertrophy and altered mitochondrial metabolism and/or dysfunction, among other changes, contribute to the development of DCM in KO rats. Collectively, our findings provide the first report on changes in the cardiac proteome associated with genetic ablation of .

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