Slc20a1 and Slc20a2 regulate neuronal plasticity and cognition independently of their phosphate transport ability - Grenoble Institut Neurociences
Article Dans Une Revue Cell Death and Disease Année : 2024

Slc20a1 and Slc20a2 regulate neuronal plasticity and cognition independently of their phosphate transport ability

David Romeo-Guitart
Sarah Beck-Cormier
Patrice Codogno
Laurent Beck
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Gérard Friedlander
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Résumé

In recent years, primary familial brain calcification (PFBC), a rare neurological disease characterized by a wide spectrum of cognitive disorders, has been associated to mutations in the sodium (Na)-Phosphate (Pi) co-transporter SLC20A2 . However, the functional roles of the Na-Pi co-transporters in the brain remain still largely elusive. Here we show that Slc20a1 (PiT-1) and Slc20a2 (PiT-2) are the most abundant Na-Pi co-transporters expressed in the brain and are involved in the control of hippocampal-dependent learning and memory. We reveal that Slc20a1 and Slc20a2 are differentially distributed in the hippocampus and associated with independent gene clusters, suggesting that they influence cognition by different mechanisms. Accordingly, using a combination of molecular, electrophysiological and behavioral analyses, we show that while PiT-2 favors hippocampal neuronal branching and survival, PiT-1 promotes synaptic plasticity. The latter relies on a likely Otoferlin-dependent regulation of synaptic vesicle trafficking, which impacts the GABAergic system. These results provide the first demonstration that Na-Pi co-transporters play key albeit distinct roles in the hippocampus pertaining to the control of neuronal plasticity and cognition. These findings could provide the foundation for the development of novel effective therapies for PFBC and cognitive disorders.
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hal-04797767 , version 1 (22-11-2024)

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Mariana Ramos-Brossier, David Romeo-Guitart, Fabien Lanté, Valérie Boitez, François Mailliet, et al.. Slc20a1 and Slc20a2 regulate neuronal plasticity and cognition independently of their phosphate transport ability. Cell Death and Disease, 2024, 15 (1), pp.20. ⟨10.1038/s41419-023-06292-z⟩. ⟨hal-04797767⟩
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