AI Article Synopsis
- GPER1 is a membrane receptor that improves estrogen signaling and may influence neuron plasticity by affecting HCN1 channel distribution in specific brain regions.
- Treatment with GPER1 agonist G1 increased the density of certain types of dendritic spines in female mice but not in males, indicating a sex-specific effect.
- Although G1 treatment altered synaptic protein expression in females, spine density increases did not lead to a corresponding increase in synapse density, pointing to complex structural plasticity mechanisms in the hippocampus.
Article Abstract
G-protein-coupled-estrogen-receptor 1 (GPER1) is a membrane-bound receptor that mediates estrogen signaling via intracellular signaling cascades. We recently showed that GPER1 promotes the distal dendritic enrichment of hyperpolarization activated and cyclic nucleotide-gated (HCN)1 channels in CA1 stratum lacunosum-moleculare (SLM), suggesting a role of GPER1-mediated signaling in neuronal plasticity. Here we studied whether this role involves processes of structural plasticity, such as the regulation of spine and synapse density in SLM. In organotypic entorhino-hippocampal cultures from mice expressing eGFP, we analyzed spine densities in SLM after treatment with GPER1 agonist G1 (20 nM). G1 significantly increased the density of "non-stubby" spines (maturing spines with a spine head and a neck), but did so only in cultures from female mice. In support of this finding, the expression of synaptic proteins was sex-specifically altered in the cultures: G1 increased the protein (but not mRNA) expression of PSD95 and reduced the p-/n-cofilin ratio only in cultures from females. Application of E2 (2 nM) reproduced the sex-specific effect on spine density in SLM, but only partially on the expression of synaptic proteins. Spine synapse density was, however, not altered after G1-treatment, suggesting that the increased spine density did not translate into an increased spine synapse density in the culture model. Taken together, our results support a role of GPER1 in mediating structural plasticity in CA1 SLM, but suggest that in developing hippocampus, this role is sex-specific.
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| http://dx.doi.org/10.1016/j.neuroscience.2021.07.035 | DOI Listing |
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