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Deregulation of mitochondrial F1FO-ATP synthase via OSCP in Alzheimer's disease.


ABSTRACT: F1FO-ATP synthase is critical for mitochondrial functions. The deregulation of this enzyme results in dampened mitochondrial oxidative phosphorylation (OXPHOS) and activated mitochondrial permeability transition (mPT), defects which accompany Alzheimer's disease (AD). However, the molecular mechanisms that connect F1FO-ATP synthase dysfunction and AD remain unclear. Here, we observe selective loss of the oligomycin sensitivity conferring protein (OSCP) subunit of the F1FO-ATP synthase and the physical interaction of OSCP with amyloid beta (A?) in the brains of AD individuals and in an AD mouse model. Changes in OSCP levels are more pronounced in neuronal mitochondria. OSCP loss and its interplay with A? disrupt F1FO-ATP synthase, leading to reduced ATP production, elevated oxidative stress and activated mPT. The restoration of OSCP ameliorates A?-mediated mouse and human neuronal mitochondrial impairments and the resultant synaptic injury. Therefore, mitochondrial F1FO-ATP synthase dysfunction associated with AD progression could potentially be prevented by OSCP stabilization.

SUBMITTER: Beck SJ 

PROVIDER: S-EPMC5494197 | biostudies-literature | 2016 May

REPOSITORIES: biostudies-literature

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Deregulation of mitochondrial F1FO-ATP synthase via OSCP in Alzheimer's disease.

Beck Simon J SJ   Guo Lan L   Phensy Aarron A   Tian Jing J   Wang Lu L   Tandon Neha N   Gauba Esha E   Lu Lin L   Pascual Juan M JM   Kroener Sven S   Du Heng H  

Nature communications 20160506


F1FO-ATP synthase is critical for mitochondrial functions. The deregulation of this enzyme results in dampened mitochondrial oxidative phosphorylation (OXPHOS) and activated mitochondrial permeability transition (mPT), defects which accompany Alzheimer's disease (AD). However, the molecular mechanisms that connect F1FO-ATP synthase dysfunction and AD remain unclear. Here, we observe selective loss of the oligomycin sensitivity conferring protein (OSCP) subunit of the F1FO-ATP synthase and the ph  ...[more]

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