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ATP Synthase c-Subunit Leak Causes Aberrant Cellular Metabolism in Fragile X Syndrome.

Cell (2020-08-17)
Pawel Licznerski, Han-A Park, Harshvardhan Rolyan, Rongmin Chen, Nelli Mnatsakanyan, Paige Miranda, Morven Graham, Jing Wu, Nicole Cruz-Reyes, Nikita Mehta, Sana Sohail, Jorge Salcedo, Erin Song, Charles Effman, Samuel Effman, Lucas Brandao, Gulan N Xu, Amber Braker, Valentin K Gribkoff, Richard J Levy, Elizabeth A Jonas
RÉSUMÉ

Loss of the gene (Fmr1) encoding Fragile X mental retardation protein (FMRP) causes increased mRNA translation and aberrant synaptic development. We find neurons of the Fmr1-/y mouse have a mitochondrial inner membrane leak contributing to a "leak metabolism." In human Fragile X syndrome (FXS) fibroblasts and in Fmr1-/y mouse neurons, closure of the ATP synthase leak channel by mild depletion of its c-subunit or pharmacological inhibition normalizes stimulus-induced and constitutive mRNA translation rate, decreases lactate and key glycolytic and tricarboxylic acid (TCA) cycle enzyme levels, and triggers synapse maturation. FMRP regulates leak closure in wild-type (WT), but not FX synapses, by stimulus-dependent ATP synthase β subunit translation; this increases the ratio of ATP synthase enzyme to its c-subunit, enhancing ATP production efficiency and synaptic growth. In contrast, in FXS, inability to close developmental c-subunit leak prevents stimulus-dependent synaptic maturation. Therefore, ATP synthase c-subunit leak closure encourages development and attenuates autistic behaviors.

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