An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies

We investigated the extent, biologic characterization, phenotypic specificity, and possible regulation of a β(1)-adrenergic receptor–linked (β(1)-AR–linked) gene signaling network (β(1)-GSN) involved in left ventricular (LV) eccentric pathologic remodeling. A 430-member β(1)-GSN was identified by mR...

Descripción completa

Detalles Bibliográficos
Autores principales: Tatman, Philip D., Kao, David P., Chatfield, Kathryn C., Carroll, Ian A., Wagner, Jessica A., Jonas, Eric R., Sucharov, Carmen C., Port, J. David, Lowes, Brian D., Minobe, Wayne A., Huebler, Sophia P., Karimpour-Fard, Anis, Rodriguez, Erin M., Liggett, Stephen B., Bristow, Michael R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10543724/
https://www.ncbi.nlm.nih.gov/pubmed/37606047
http://dx.doi.org/10.1172/jci.insight.169720
_version_ 1785114344481095680
author Tatman, Philip D.
Kao, David P.
Chatfield, Kathryn C.
Carroll, Ian A.
Wagner, Jessica A.
Jonas, Eric R.
Sucharov, Carmen C.
Port, J. David
Lowes, Brian D.
Minobe, Wayne A.
Huebler, Sophia P.
Karimpour-Fard, Anis
Rodriguez, Erin M.
Liggett, Stephen B.
Bristow, Michael R.
author_facet Tatman, Philip D.
Kao, David P.
Chatfield, Kathryn C.
Carroll, Ian A.
Wagner, Jessica A.
Jonas, Eric R.
Sucharov, Carmen C.
Port, J. David
Lowes, Brian D.
Minobe, Wayne A.
Huebler, Sophia P.
Karimpour-Fard, Anis
Rodriguez, Erin M.
Liggett, Stephen B.
Bristow, Michael R.
author_sort Tatman, Philip D.
collection PubMed
description We investigated the extent, biologic characterization, phenotypic specificity, and possible regulation of a β(1)-adrenergic receptor–linked (β(1)-AR–linked) gene signaling network (β(1)-GSN) involved in left ventricular (LV) eccentric pathologic remodeling. A 430-member β(1)-GSN was identified by mRNA expression in transgenic mice overexpressing human β(1)-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 β(1)-GSN categories with expression from 19,243 nonnetwork genes, phenotypic selection for major β(1)-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 β(1)-GSN members. We conclude that an extensive 430-member gene network downstream from the β(1)-AR is involved in pathologic ventricular remodeling, with metabolic genes as the most prevalent category.
format Online
Article
Text
id pubmed-10543724
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher American Society for Clinical Investigation
record_format MEDLINE/PubMed
spelling pubmed-105437242023-10-03 An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies Tatman, Philip D. Kao, David P. Chatfield, Kathryn C. Carroll, Ian A. Wagner, Jessica A. Jonas, Eric R. Sucharov, Carmen C. Port, J. David Lowes, Brian D. Minobe, Wayne A. Huebler, Sophia P. Karimpour-Fard, Anis Rodriguez, Erin M. Liggett, Stephen B. Bristow, Michael R. JCI Insight Research Article We investigated the extent, biologic characterization, phenotypic specificity, and possible regulation of a β(1)-adrenergic receptor–linked (β(1)-AR–linked) gene signaling network (β(1)-GSN) involved in left ventricular (LV) eccentric pathologic remodeling. A 430-member β(1)-GSN was identified by mRNA expression in transgenic mice overexpressing human β(1)-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 β(1)-GSN categories with expression from 19,243 nonnetwork genes, phenotypic selection for major β(1)-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 β(1)-GSN members. We conclude that an extensive 430-member gene network downstream from the β(1)-AR is involved in pathologic ventricular remodeling, with metabolic genes as the most prevalent category. American Society for Clinical Investigation 2023-08-22 /pmc/articles/PMC10543724/ /pubmed/37606047 http://dx.doi.org/10.1172/jci.insight.169720 Text en © 2023 Tatman et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Tatman, Philip D.
Kao, David P.
Chatfield, Kathryn C.
Carroll, Ian A.
Wagner, Jessica A.
Jonas, Eric R.
Sucharov, Carmen C.
Port, J. David
Lowes, Brian D.
Minobe, Wayne A.
Huebler, Sophia P.
Karimpour-Fard, Anis
Rodriguez, Erin M.
Liggett, Stephen B.
Bristow, Michael R.
An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
title An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
title_full An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
title_fullStr An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
title_full_unstemmed An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
title_short An extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
title_sort extensive β(1)-adrenergic receptor gene signaling network regulates molecular remodeling in dilated cardiomyopathies
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10543724/
https://www.ncbi.nlm.nih.gov/pubmed/37606047
http://dx.doi.org/10.1172/jci.insight.169720
work_keys_str_mv AT tatmanphilipd anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT kaodavidp anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT chatfieldkathrync anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT carrolliana anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT wagnerjessicaa anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT jonasericr anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT sucharovcarmenc anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT portjdavid anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT lowesbriand anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT minobewaynea anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT hueblersophiap anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT karimpourfardanis anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT rodriguezerinm anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT liggettstephenb anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT bristowmichaelr anextensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT tatmanphilipd extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT kaodavidp extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT chatfieldkathrync extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT carrolliana extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT wagnerjessicaa extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT jonasericr extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT sucharovcarmenc extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT portjdavid extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT lowesbriand extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT minobewaynea extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT hueblersophiap extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT karimpourfardanis extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT rodriguezerinm extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT liggettstephenb extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies
AT bristowmichaelr extensiveb1adrenergicreceptorgenesignalingnetworkregulatesmolecularremodelingindilatedcardiomyopathies

Ejemplares similares