Cortico-hippocampal Hyperexcitability in Synapsin I/II/III Knockout Mice: Age-dependency and Response to the Antiepileptic Drug Levetiracetam
Overview
Affiliations
Synapsins (SynI, SynII, SynIII) are a multigene family of synaptic vesicle (SV) phosphoproteins implicated in the regulation of synaptic transmission and plasticity. Synapsin I, II, I/II and I/II/III knockout mice are epileptic and SYN1/2 genes have been identified as major epilepsy susceptibility genes in humans. We analyzed cortico-hippocampal epileptiform activity induced by 4-aminopyridine (4AP) in acute slices from presymptomatic (3-weeks-old) and symptomatic (1-year-old) Syn I/II/III triple knockout (TKO) mice and aged-matched triple wild type (TWT) controls and assessed the effect of the SV-targeted antiepileptic drug (AED) levetiracetam (LEV) in reverting the epileptic phenotype. Both fast and slow interictal (I-IC) and ictal (IC) events were observed in both genotypes. The incidence of fast I-IC events was higher in presymptomatic TKO slices, while frequency and latency of I-IC events were similar in both genotypes. The major age and genotype effects were observed in IC activity, that was much more pronounced in 3-weeks-old TKO and persisted with age, while it disappeared from 1-year-old TWT slices. LEV virtually suppressed fast I-IC and IC discharges from 3-weeks-old TWT slices, while it only increased the latency of fast I-IC and IC activity in TKO slices. Analysis of I-IC events in patch-clamped CA1 pyramidal neurons revealed that LEV increased the inhibitory/excitatory ratio of I-IC activity in both genotypes. The lower LEV potency in TKO slices of both ages was associated with a decreased expression of SV2A, a SV protein acting as LEV receptor, in cortex and hippocampus. The results demonstrate that deletion of Syn genes is associated with a higher propensity to 4AP-induced epileptic paroxysms that precedes the onset of epilepsy and consolidates with age. LEV ameliorates such hyper excitability by enhancing the inhibition/excitation ratio, although the effect is hindered in TKO slices which exhibit a concomitant decrease in the levels of the LEV receptor SV2A.
Memory Decline and Aberration of Synaptic Proteins in X-Linked Moesin Knockout Male Mice.
Cai H, Lee S, Choi Y, Lee B, Im S, Kim D Psychiatry Investig. 2025; 22(1):10-25.
PMID: 39885788 PMC: 11788833. DOI: 10.30773/pi.2024.0186.
Cattaneo S, Bettegazzi B, Crippa L, Asth L, Regoni M, Soukupova M EMBO Rep. 2024; 25(10):4387-4409.
PMID: 39251828 PMC: 11467199. DOI: 10.1038/s44319-024-00244-0.
The Lack of Synapsin Alters Presynaptic Plasticity at Hippocampal Mossy Fibers in Male Mice.
Bruentgens F, Moreno Velasquez L, Stumpf A, Parthier D, Breustedt J, Benfenati F eNeuro. 2024; 11(7).
PMID: 38866497 PMC: 11223178. DOI: 10.1523/ENEURO.0330-23.2024.
Synapsin E-domain is essential for α-synuclein function.
Stavsky A, Parra-Rivas L, Tal S, Riba J, Madhivanan K, Roy S Elife. 2024; 12.
PMID: 38713200 PMC: 11076041. DOI: 10.7554/eLife.89687.
Ramezanidoraki N, Ouardi D, Le M, Moriceau S, Ahmadi M, Elena D Int J Mol Sci. 2023; 24(6).
PMID: 36982451 PMC: 10048971. DOI: 10.3390/ijms24065376.