Smith Peter J. S.

Smith

Peter J. S.

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Bcl-xL regulates metabolic efficiency of neurons through interaction with the mitochondrial F1FO ATP synthase

( 2011-06) Alavian, Kambiz N. ; Li, Hongmei ; Collis, Leon P. ; Bonanni, Laura ; Zeng, Lu ; Sacchetti, Silvio ; Lazrove, Emma ; Nabili, Panah ; Flaherty, Benjamin ; Graham, Morven ; Chen, Yingbei ; Messerli, Shanta M. ; Mariggio, Maria A. ; Rahner, Christoph ; McNay, Ewan ; Shore, Gordon ; Smith, Peter J. S. ; Hardwick, J. Marie ; Jonas, Elizabeth A.

Anti-apoptotic BCL-2 family proteins such as Bcl-xL protect cells from death by sequestering apoptotic molecules, but also contribute to normal neuronal function. We find in hippocampal neurons that Bcl-xL enhances the efficiency of energy metabolism. Our evidence suggests that Bcl-xL interacts directly with the beta subunit of the F1FO ATP synthase, decreasing an ion leak within the F1FO ATPase complex and thereby increasing net transport of H+ by F1FO during F1FO ATPase activity. By patch clamping submitochondrial vesicles enriched in F1FO ATP synthase complexes, we find that, in the presence of ATP, pharmacological or genetic inhibition of Bcl-xL increases the membrane leak conductance. In addition, recombinant Bcl-xL protein directly increases ATPase activity of purified synthase complexes, while inhibition of endogenous Bcl-xL decreases F1FO enzymatic activity. Our findings suggest that increased mitochondrial efficiency contributes to the enhanced synaptic efficacy found in Bcl-xL expressing neurons.