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Progressive increase in mtDNA 3243A>G heteroplasmy causes abrupt transcriptional reprogramming.


ABSTRACT: Variation in the intracellular percentage of normal and mutant mitochondrial DNAs (mtDNA) (heteroplasmy) can be associated with phenotypic heterogeneity in mtDNA diseases. Individuals that inherit the common disease-causing mtDNA tRNA(Leu(UUR)) 3243A>G mutation and harbor ?10-30% 3243G mutant mtDNAs manifest diabetes and occasionally autism; individuals with ?50-90% mutant mtDNAs manifest encephalomyopathies; and individuals with ?90-100% mutant mtDNAs face perinatal lethality. To determine the basis of these abrupt phenotypic changes, we generated somatic cell cybrids harboring increasing levels of the 3243G mutant and analyzed the associated cellular phenotypes and nuclear DNA (nDNA) and mtDNA transcriptional profiles by RNA sequencing. Small increases in mutant mtDNAs caused relatively modest defects in oxidative capacity but resulted in sharp transitions in cellular phenotype and gene expression. Cybrids harboring 20-30% 3243G mtDNAs had reduced mtDNA mRNA levels, rounded mitochondria, and small cell size. Cybrids with 50-90% 3243G mtDNAs manifest induction of glycolytic genes, mitochondrial elongation, increased mtDNA mRNA levels, and alterations in expression of signal transduction, epigenomic regulatory, and neurodegenerative disease-associated genes. Finally, cybrids with 100% 3243G experienced reduced mtDNA transcripts, rounded mitochondria, and concomitant changes in nuclear gene expression. Thus, striking phase changes occurred in nDNA and mtDNA gene expression in response to the modest changes of the mtDNA 3243G mutant levels. Hence, a major factor in the phenotypic variation in heteroplasmic mtDNA mutations is the limited number of states that the nucleus can acquire in response to progressive changes in mitochondrial retrograde signaling.

SUBMITTER: Picard M 

PROVIDER: S-EPMC4183335 | biostudies-literature | 2014 Sep

REPOSITORIES: biostudies-literature

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Progressive increase in mtDNA 3243A>G heteroplasmy causes abrupt transcriptional reprogramming.

Picard Martin M   Zhang Jiangwen J   Hancock Saege S   Derbeneva Olga O   Golhar Ryan R   Golik Pawel P   O'Hearn Sean S   Levy Shawn S   Potluri Prasanth P   Lvova Maria M   Davila Antonio A   Lin Chun Shi CS   Perin Juan Carlos JC   Rappaport Eric F EF   Hakonarson Hakon H   Trounce Ian A IA   Procaccio Vincent V   Wallace Douglas C DC  

Proceedings of the National Academy of Sciences of the United States of America 20140905 38


Variation in the intracellular percentage of normal and mutant mitochondrial DNAs (mtDNA) (heteroplasmy) can be associated with phenotypic heterogeneity in mtDNA diseases. Individuals that inherit the common disease-causing mtDNA tRNA(Leu(UUR)) 3243A>G mutation and harbor ∼10-30% 3243G mutant mtDNAs manifest diabetes and occasionally autism; individuals with ∼50-90% mutant mtDNAs manifest encephalomyopathies; and individuals with ∼90-100% mutant mtDNAs face perinatal lethality. To determine the  ...[more]

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