An extensive β1-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
Philip D. Tatman, … , Stephen B. Liggett, Michael R. Bristow
Philip D. Tatman, … , Stephen B. Liggett, Michael R. Bristow
Published August 22, 2023
Citation Information: JCI Insight. 2023;8(16):e169720. https://doi.org/10.1172/jci.insight.169720.
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Research Article Cardiology Genetics

An extensive β1-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies

Abstract

We investigated the extent, biologic characterization, phenotypic specificity, and possible regulation of a β1-adrenergic receptor–linked (β1-AR–linked) gene signaling network (β1-GSN) involved in left ventricular (LV) eccentric pathologic remodeling. A 430-member β1-GSN was identified by mRNA expression in transgenic mice overexpressing human β1-ARs or from literature curation, which exhibited opposite directional behavior in interventricular septum endomyocardial biopsies taken from patients with beta-blocker–treated, reverse remodeled dilated cardiomyopathies. With reverse remodeling, the major biologic categories and percentage of the dominant directional change were as follows: metabolic (19.3%, 81% upregulated); gene regulation (14.9%, 78% upregulated); extracellular matrix/fibrosis (9.1%, 92% downregulated); and cell homeostasis (13.3%, 60% upregulated). Regarding the comparison of β1-GSN categories with expression from 19,243 nonnetwork genes, phenotypic selection for major β1-GSN categories was exhibited for LV end systolic volume (contractility measure), ejection fraction (remodeling index), and pulmonary wedge pressure (wall tension surrogate), beginning at 3 months and persisting to study completion at 12 months. In addition, 121 lncRNAs were identified as possibly involved in cis-acting regulation of β1-GSN members. We conclude that an extensive 430-member gene network downstream from the β1-AR is involved in pathologic ventricular remodeling, with metabolic genes as the most prevalent category.

Authors

Philip D. Tatman, David P. Kao, Kathryn C. Chatfield, Ian A. Carroll, Jessica A. Wagner, Eric R. Jonas, Carmen C. Sucharov, J. David Port, Brian D. Lowes, Wayne A. Minobe, Sophia P. Huebler, Anis Karimpour-Fard, Erin M. Rodriguez, Stephen B. Liggett, Michael R. Bristow

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Figure 4

Temporal pattern of mRNA abundance-ventricular function and structure phenotypic relationships.

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Temporal pattern of mRNA abundance-ventricular function and structure ph...
Patients with nonischemic dilated cardiomyopathy were investigated at baseline (month 0; n = 46) on no beta-blocker treatment; n= 46 were investigated at 3 months and n = 39 at 12 months on beta-blockade. The y axes are Zp values ≥ 1.96 from nonparametric permutation testing of average Spearman’s rank correlation Rho values of β1-GSN ventricular myocardial ontology (VMO) categories (Table 2 and Figure 3) versus non–β1-GSN VMO controls at months 0, 3, and 12. Blue, direct relationship of phenotypic measurement with net (including upregulated and downregulated genes) RNA expression; yellow, inverse relationship of net mRNA abundance changes with phenotypic measure; gray, no statistically significant relationship of net mRNA expression and phenotype measurement. The designations above the bars are as follows: first entry is for upregulated genes (top), second is for downregulated (bottom); (+), direct directional correlation with the phenotypic measure; (−), inverse directional correlation; 0, no directional correlation.