Publication

Transgenic Mouse Model with Deficient Mitochondrial Polymerase Exhibits Reduced State IV Respiration and Enhanced Cardiac Fibrosis

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Last modified
  • 02/20/2025
Type of Material
Authors
    Christopher Koczor, Emory UniversityRebecca A. Torres, Emory UniversityEarl J Fields, Emory UniversityQianhong Qin, Emory UniversityJade Park, Emory UniversityTomika Ludaway, Emory UniversityRodney Russ, Emory UniversityWilliam Lewis, Emory University
Language
  • English
Date
  • 2013-02
Publisher
  • Nature Publishing Group: Open Access Hybrid Model Option B
Publication Version
Copyright Statement
  • © 2012, Rights Managed by Nature Publishing Group
Final Published Version (URL)
Title of Journal or Parent Work
ISSN
  • 0023-6837
Volume
  • 93
Issue
  • 2
Start Page
  • 151
End Page
  • 158
Grant/Funding Information
  • These studies were supported by DHHS/NIH/NIDA DA030996 to WL.
Supplemental Material (URL)
Abstract
  • Mitochondria produce the energy required for proper cardiac contractile function, and cardiomyocytes that exhibit reduced mitochondrial electron transport will have reduced energy production and decreased contractility. Mitochondrial DNA (mtDNA) encodes the core subunits for the protein complexes of the electron transport chain (ETC). Reduced mtDNA abundance has been linked to reduced ETC and the development of heart failure in genetically engineered mice and in human diseases. Nucleoside reverse transcriptase inhibitors (NRTIs) for HIV/AIDS are used in antiretroviral regimens, which cause decreased mtDNA abundance by inhibiting the mitochondrial polymerase, pol γ as a limiting side effect. We explored consequences of AZT exposure on mtDNA abundance in an established transgenic mouse model (TG) in which a cardiac-targeted mutant form of pol γ displays a dilated cardiomyopathy (DCM) phenotype with increased left ventricle (LV) mass and increased LV end diastolic dimension. TG and wild-type littermate mice received 0.22mg/day AZT or vehicle for 35 days and subsequently analyzed for physiological, histological, and molecular changes. After 35 days, Y955C TGs exhibited cardiac fibrosis independent of AZT. Reduced mtDNA abundance was observed in the Y955C mouse; AZT treatment had no effect on that depletion suggesting that Y955C was sufficient to reduce mtDNA abundance maximally. Isolated mitochondria from AZT-treated Y955C hearts displayed reduced mitochondrial energetic function by oximetric measurement. AZT treatment of the Y955C mutation further reduced basal mitochondrial respiration and state IVo respiration. Together, these results demonstrate that defective pol γ function promotes cardiomyopathy, cardiac fibrosis, mtDNA depletion, and reduced mitochondrial energy production.
Author Notes
  • Correspondence to: William Lewis, 101 Woodruff Circle, WMB 7117, Atlanta, GA 30322, wlewis@emory.edu, Phone: 404-712-9005
Keywords
Research Categories
  • Health Sciences, Pathology

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