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Gomez-Duran 2010 Hum Mol Genet

From Bioblast
Publications in the MiPMap
Gómez-Durán A, Pacheu-Grau D, López-Gallardo E, Díez-Sánchez C, Montoya J, López-Pérez MJ, Ruiz-Pesini E (2010) Unmasking the causes of multifactorial disorders: OXPHOS differences between mitochondrial haplogroups. Hum Mol Genet 19:3343-53.

» PMID: 20566709 Open Access

Gomez-Duran A, Pacheu-Grau D, Lopez-Gallardo E, Diez-Sanchez C, Montoya J, Lopez-Perez MJ, Ruiz-Pesini E (2010) Hum Mol Genet

Abstract: Many epidemiologic studies have associated human mitochondrial haplogroups to rare mitochondrial diseases like Leber's hereditary optic neuropathy or to more common age-linked disorders such as Parkinson's disease. However, cellular, biochemical and molecular-genetic evidence that is able to explain these associations is very scarce. The etiology of multifactorial diseases is very difficult to sort out because such diseases are due to a combination of genetic and environmental factors that individually only contribute in small part to the development of the illness. Thus, the haplogroup-defining mutations might behave as susceptibility factors, but they could have only a small effect on oxidative phosphorylation (OXPHOS) function. Moreover, these effects would be highly dependent on the 'context' in which the genetic variant is acting. To homogenize this 'context' for mitochondrial DNA (mtDNA) mutations, a cellular approach is available that involves the use of what is known as 'cybrids'. By using this model, we demonstrate that mtDNA and mtRNA levels, mitochondrial protein synthesis, cytochrome oxidase activity and amount, normalized oxygen consumption, mitochondrial inner membrane potential and growth capacity are different in cybrids from the haplogroup H when compared with those of the haplogroup Uk. Thus, these inherited basal differences in OXPHOS capacity can help to explain why some individuals more quickly reach the bioenergetic threshold below which tissue symptoms appear and progress toward multifactorial disorders. Hence, some population genetic variants in mtDNA contribute to the genetic component of complex disorders. The existence of mtDNA-based OXPHOS differences opens possibilities for the existence of a new field, mitochondrial pharmacogenomics. New sequence accession nos: HM103354-HM103363.


O2k-Network Lab: ES Zaragoza Ruiz-Pesini E


Labels: MiParea: Respiration, mtDNA;mt-genetics, mt-Medicine  Pathology: Inherited 

Organism: Human 

Preparation: Intact cells 


Coupling state: LEAK, ROUTINE, ET 

HRR: Oxygraph-2k