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Article Abstract
The synaptic protein Rabphilin 3A (Rph3A), encoded by the RPH3A gene, is a known binding partner of the NMDA receptor (NMDAR) complex, which is essential for synaptic plasticity and cognitive functions. A recent report demonstrated a causal association between missense variants in the RPH3A gene and neurodevelopmental disorders, manifesting as either drug-resistant epilepsy with intellectual disability or as autism spectrum disorder with learning disability. In this study, we used primary hippocampal neurons to analyse synaptic effects induced by the p.(Arg209Lys) and p.(Gln508His) RPH3A variants, located in the N-terminal disordered region and the C-terminal C2A domain of Rph3A, respectively. We found that both the mutants exert effects on pre- and post-synaptic events mediated by Rph3A, despite their different positions within the Rph3A amino acid sequence. Notably, in both cases, RPH3A variants reduced presynaptic glutamate release and led to decreased synaptic retention of NMDARs containing the GluN2A subunit, a primary binding partner of Rph3A. These changes were associated with a reduced frequency of calcium events at dendritic spines, indicating an overall significant dysregulation of glutamatergic synaptic transmission.
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| http://dx.doi.org/10.1038/s41598-025-93403-9 | DOI Listing |
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Article Synopsis
- Neuropeptides and neurotrophins are released from dense core vesicles (DCVs), and recent research highlights the unique role of the RAB3-RIM1 pathway in DCV exocytosis, differentiating it from the synaptic vesicle (SV) exocytosis mechanism.
- The study identifies rabphilin-3A (RPH3A) as a negative regulator of DCV exocytosis, where its absence led to a threefold increase in DCV release in RPH3A deficient neurons.
- RPH3A's role in regulating DCV exocytosis is linked to its interaction with SNAP25; although it is not needed for DCV transport, its binding to SNAP25 is