| Literature DB >> 29660444 |
Tian Yang1, Jeremiah K Britt2, Coral J Cintrón-Pérez2, Edwin Vázquez-Rosa2, Kevin V Tobin1, Grant Stalker1, Jason Hardie1, Rebecca J Taugher2, John Wemmie2, Andrew A Pieper3, Amy Lee4.
Abstract
Ca2+-binding protein 1 (CaBP1) is a Ca2+-sensing protein similar to calmodulin that potently regulates voltage-gated Ca2+ channels. Unlike calmodulin, however, CaBP1 is mainly expressed in neuronal cell-types and enriched in the hippocampus, where its function is unknown. Here, we investigated the role of CaBP1 in hippocampal-dependent behaviors using mice lacking expression of CaBP1 (C-KO). By western blot, the largest CaBP1 splice variant, caldendrin, was detected in hippocampal lysates from wild-type (WT) but not C-KO mice. Compared to WT mice, C-KO mice exhibited mild deficits in spatial learning and memory in both the Barnes maze and in Morris water maze reversal learning. In contextual but not cued fear-conditioning assays, C-KO mice showed greater freezing responses than WT mice. In addition, the number of adult-born neurons in the hippocampus of C-KO mice was ∼40% of that in WT mice, as measured by bromodeoxyuridine labeling. Moreover, hippocampal long-term potentiation was significantly reduced in C-KO mice. We conclude that CaBP1 is required for cellular mechanisms underlying optimal encoding of hippocampal-dependent spatial and fear-related memories.Entities:
Keywords: Ca(2+); calmodulin; fear learning; hippocampus; memory; synaptic plasticity
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Year: 2018 PMID: 29660444 PMCID: PMC5991082 DOI: 10.1016/j.neuroscience.2018.04.004
Source DB: PubMed Journal: Neuroscience ISSN: 0306-4522 Impact factor: 3.590