Mitochondrial dysfunction has been widely reported in psychiatric and neurodegenerative diseases. We aimed to investigate the association between matrilineal structures of Han Chinese populations and Alzheimer's disease (AD) by a 2-stage case-control study: A total of 341 AD patients and 435 normal individuals from Southwest China were analyzed for mitochondrial DNA sequence variations and were classified into respective haplogroups. A total of 371 AD patients and 470 normal individuals from East China, as validation samples, were genotyped for the variants defining the risk haplogroup. Haplogroup B5 had a significantly higher frequency in AD patients (7.33%) than in control subjects (3.68%) from Southwest China, and we found a similar pattern of higher frequency of B5 in patients in the case-control sample from East China. In the combined population, association of haplogroup B5 with AD risk was strengthened (p = 0.02; odds ratio = 1.74; 95% confidence interval = 1.10-2.76). In lymphoblastoid cell lines belonging to haplogroup B5a, we observed significantly increased reactive oxygen species and decreased mitochondrial mass. Hela cells with stable expression of the MT-ATP6 gene with B5-defining variant m.8584G>A also showed a significantly decreased mitochondrial function. Taken together, our results indicated that haplogroup B5 conferred genetic susceptibility to AD in Han Chinese, and this effect was most likely mediated by ancient variant m.8584G>A. The predisposing effect of B5 to AD is consistent with the ancestral-susceptibility model of complex diseases.
Keywords: Alzheimer's disease; Chinese; Genetic susceptibility; mtDNA haplogroup.
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