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1.
BMC Biol ; 20(1): 40, 2022 02 09.
Artículo en Inglés | MEDLINE | ID: mdl-35139855

RESUMEN

BACKGROUND: Mitochondrial DNA (mtDNA) is present at high copy numbers in animal cells, and though characterized by a single haplotype in each individual due to maternal germline inheritance, deleterious mutations and intact mtDNA molecules frequently co-exist (heteroplasmy). A number of factors, such as replicative segregation, mitochondrial bottlenecks, and selection, may modulate the exitance of heteroplasmic mutations. Since such mutations may have pathological consequences, they likely survive and are inherited due to functional complementation via the intracellular mitochondrial network. Here, we hypothesized that compromised mitochondrial fusion would hamper such complementation, thereby affecting heteroplasmy inheritance. RESULTS: We assessed heteroplasmy levels in three Caenorhabditis elegans strains carrying different heteroplasmic mtDNA deletions (ΔmtDNA) in the background of mutant mitofusin (fzo-1). Animals displayed severe embryonic lethality and developmental delay. Strikingly, observed phenotypes were relieved during subsequent generations in association with complete loss of ΔmtDNA molecules. Moreover, deletion loss rates were negatively correlated with the size of mtDNA deletions, suggesting that mitochondrial fusion is essential and sensitive to the nature of the heteroplasmic mtDNA mutations. Introducing the ΔmtDNA into a fzo-1;pdr-1;+/ΔmtDNA (PARKIN ortholog) double mutant resulted in a skewed Mendelian progeny distribution, in contrast to the normal distribution in the fzo-1;+/ΔmtDNA mutant, and severely reduced brood size. Notably, the ΔmtDNA was lost across generations in association with improved phenotypes. CONCLUSIONS: Taken together, our findings show that when mitochondrial fusion is compromised, deleterious heteroplasmic mutations cannot evade natural selection while inherited through generations. Moreover, our findings underline the importance of cross-talk between mitochondrial fusion and mitophagy in modulating the inheritance of mtDNA heteroplasmy.


Asunto(s)
Proteínas de Caenorhabditis elegans , Caenorhabditis elegans , Animales , Caenorhabditis elegans/genética , Proteínas de Caenorhabditis elegans/genética , ADN Mitocondrial/genética , GTP Fosfohidrolasas/genética , Patrón de Herencia , Mitocondrias/genética , Dinámicas Mitocondriales/genética
2.
Mitochondrion ; 20: 64-70, 2015 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-25462019

RESUMEN

Parkin, which is mutated in most recessive Parkinsonism, is a key player in the selective removal of damaged mitochondria via mitophagy. Damaged mitochondria may carry mitochondrial DNA (mtDNA) mutations, thus creating a mixed mtDNA population within cells (heteroplasmy). It was previously shown that Parkin over-expression reduced the level of heteroplasmic mutations that alter mitochondrial membrane potential in human cytoplasmic hybrids. However, it remained unclear whether Parkin serves a similar role at the entire living organism, and whether this role is evolutionarily conserved. Here, we show that mutation in the Caenorhabditis elegans orthologue of Parkin (pdr-1) modulates the level of a large heteroplasmic mtDNA truncation. Massive parallel sequencing revealed that the mtDNAs of C. elegans wild type and pdr-1(gk448) mutant strains were virtually deprived of heteroplasmy, thus reflecting strong negative selection against dysfunctional mitochondria. Therefore, our findings show that the role of Parkin in the modulation of heteroplasmy is conserved between human and worm and raise the interesting possibility that mitophagy modulates the striking lack of heteroplasmy in C. elegans.


Asunto(s)
Caenorhabditis elegans/genética , ADN Mitocondrial/genética , Polimorfismo Genético , Ubiquitina-Proteína Ligasas/genética , Animales , Mutación , Ubiquitina-Proteína Ligasas/metabolismo
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