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Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. This research was funded by Ministerio de Ciencia, Innovacion y Universidades, the Agencia Estatal de Investigacion (AEI) and the European Regional Development Fund (ERDF) PID2019-106332 GB-I00, the support of the Universitat Rovira i Virgili (URV) (2017PFR-URV-B2-85), and the Catalan Government (2017SGR704). LJ has been supported by the Universitat Rovira i Virgili (URV) under the framework of the "Programa Marti i Franques d'ajuts a la investigacio. Contractes de personal investigador predoctoral en formacio (PMF-PIPF)." AP has been supported by the Spanish Ministerio de Ciencia Innovacion y Universidades (Grant no. PRE2020-092084, project no. PID2019-106332 GB-I00). VC and MD were supported by a grant from MINECO under the framework of the Sistema Nacional de Garantia Juvenil, the European Social Fund (ESF) and the Iniciativa de Empleo Juvenil (IEJ) reference codes: LE1511314-2014PEJ-04 and LE1911587-2019PEJ-04. M.BS: Research Grant (FI, 2021-FI-B00755 Agencia de Gestio d'Ajuts Universitat i Recerca (AGAUR).

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Involvement of the Voltage-Gated Calcium Channels L- P/Q- and N-Types in Synapse Elimination During Neuromuscular Junction Development

Publicat a:Molecular Neurobiology. 59 (7): 4044-4064 - 2022-07-01 59(7), DOI: 10.1007/s12035-022-02818-2

Autors: Garcia, Neus; Hernandez, Pablo; Lanuza, Maria A; Tomas, Marta; Cilleros-Mane, Victor; Just-Borras, Laia; Duran-Vigara, Maria; Polishchuk, Aleksandra; Balanya-Segura, Marta; Tomas, Josep

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Resum

During the nervous system development, synapses are initially overproduced. In the neuromuscular junction (NMJ) however, competition between several motor nerve terminals and the synapses they made ends with the maturation of only one axon. The competitive signaling between axons is mediated by the differential activity-dependent release of the neurotransmitter ACh, co-transmitters, and neurotrophic factors. A multiple metabotropic receptor-driven downstream balance between PKA and PKC isoforms modulates the phosphorylation of targets involved in transmitter release and nerve terminal stability. Previously, we observed in the weakest endings on the polyinnervated NMJ that M1 mAChR receptors reduce ACh release through the PKC pathway coupled to an excess of Ca2+ inflow through P/Q- N- and L-type voltage-gated calcium channels (VGCC). This signaling would contribute to the elimination of this nerve terminal. Here, we investigate the involvement of the P/Q-, N-, and L-subtype channels in transgenic B6.Cg-Tg (Thy1-YFP)16-Jrs/J mice during synapse elimination. Then, the axon number and postsynaptic receptor cluster morphologic maturation were evaluated. The results show that both L- and P/Q-type VGCC (but not the N-type) are equally involved in synapse elimination. Their normal function favors supernumerary axonal loss by jointly enhancing intracellular calcium [Ca2+]i. The block of these VGCCs or [Ca2+]i  i sequestration results in the same delay of axonal loss as the cPKCβI and nPKCε isoform block or PKA activation. The specific block of the muscle cell's contraction with μ-conotoxin GIIIB also delays synapse maturation, and thus, a retrograde influence from the postsynaptic site regulating the presynaptic CaV1.3 may contribute to the synapse elimination.© 2022. The Author(s).

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