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- Alejandra Corzo-López, Margarita Leyva-Leyva, Valeria Castillo-Viveros, Miriam Fernández-Gallardo, David Muñoz-Herrera, Alejandro Sandoval, Ricardo González-Ramírez, and Ricardo Felix.
- Department of Cell Biology, Centre for Research and Advanced Studies (Cinvestav), Mexico City, Mexico.
- Neuroscience. 2023 Jul 1; 522: 150164150-164.
AbstractPrevious studies have shown that in addition to its role within the voltage-gated calcium channel complex in the plasma membrane, the neuronal CaVβ subunit can translocate to the cell nucleus. However, little is known regarding the role this protein could play in the nucleus, nor the molecular mechanism used by CaVβ to enter this cell compartment. This report shows evidence that CaVβ3 has nuclear localization signals (NLS) that are not functional, suggesting that the protein does not use a classical nuclear import pathway. Instead, its entry into the nucleus could be associated with another protein that would function as a carrier, using a mechanism known as a piggyback. Mass spectrometry assays and bioinformatic analysis allowed the identification of proteins that could be participating in the entry of CaVβ3 into the nucleus. Likewise, through proximity ligation assays (PLA), it was found that members of the heterogeneous nuclear ribonucleoproteins (hnRNPs) and B56δ, a regulatory subunit of the protein phosphatase 2A (PP2A), could function as proteins that regulate this piggyback mechanism. On the other hand, bioinformatics and site-directed mutagenesis assays allowed the identification of a functional nuclear export signal (NES) that controls the exit of CaVβ3 from the nucleus, which would allow the completion of the nuclear transport cycle of the protein. These results reveal a novel mechanism for the nuclear transport cycle of the neuronal CaVβ3 subunit.Copyright © 2023 IBRO. Published by Elsevier Ltd. All rights reserved.
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