Mitochondrial energy failure in HSD10 disease is due to defective mtDNA transcript processing
Mar 1, 2015·,,,,,,,,,,,·
0 min read
Kathryn C. Chatfield
Curtis R. Coughlin
Marisa W. Friederich
Renata C. Gallagher
Jay R. Hesselberth
Mark A. Lovell
Rob Ofman
Michael A. Swanson
Janet A. Thomas
Ronald J. A. Wanders
Eric P. Wartchow
Johan L. K. Van Hove
Abstract
Muscle, heart and liver were analyzed in a male subject who succumbed to HSD10 disease. Respiratory chain enzyme analysis and BN-PAGE showed reduced activities and assembly of complexes I, III, IV, and V. The mRNAs of all RNase P subunits were preserved in heart and overexpressed in muscle, but MRPP2 protein was severely decreased. RNase P upregulation correlated with increased expression of mitochondrial biogenesis factors and preserved mitochondrial enzymes in muscle, but not in heart where this compensatory mechanism was incomplete. We demonstrate elevated amounts of unprocessed pre-tRNAs and mRNA transcripts encoding mitochondrial subunits indicating deficient RNase P activity. This study provides evidence of abnormal mitochondrial RNA processing causing mitochondrial energy failure in HSD10 disease.
Type
Publication
Mitochondrion
3-Hydroxyacyl CoA Dehydrogenases
Acetyl-CoA C-Acetyltransferase
Cell Respiration
DNA
Mitochondrial
Dyskinesias
Electron Transport
Energy Metabolism
Gene Expression
HSD10 Disease
Humans
Infant
Newborn
Lipid Metabolism
Inborn Errors
Liver
Male
MHBD Disease
Mitochondria
MRPP2
Muscles
Myocardium
RNA Processing
Post-Transcriptional
RNase P
Transcription
Genetic
X-Linked Intellectual Disability