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    ArcKR expression modifies synaptic plasticity following epileptic activity: differential effects with in vitro and in vivo seizure-induction protocols

    Bhandare, Amol, Haley, Maisy, Torrico Anderson, Vanessa, Domingos, Luana B ORCID logoORCID: https://orcid.org/0000-0002-7022-6502, Lopes, Marcia, Correa, Sonia A L ORCID logoORCID: https://orcid.org/0000-0002-7434-1073 and Wall, Mark J ORCID logoORCID: https://orcid.org/0000-0002-7014-1867 (2024) ArcKR expression modifies synaptic plasticity following epileptic activity: differential effects with in vitro and in vivo seizure-induction protocols. Epilepsia. ISSN 0013-9580

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    Abstract

    Objectives: Pathological forms of neural activity, such as epileptic seizures, modify the expression pattern of multiple proteins, leading to persistent changes in brain function. One such protein is activity-regulated cytoskeleton-associated protein (Arc), which is critically involved in protein-synthesis–dependent synaptic plasticity underlying learning and memory. In the present study, we have investigated how the expression of ArcKR, a form of Arc in which the ubiquitination sites have been mutated, resulting in slowed Arc degradation, modifies group I metabotropic glutamate receptor–mediated long-term depression (G1-mGluR-LTD) following seizures. Methods: We used a knock-in mice line that express ArcKR and two hyperexcitation models: an in vitro model, where hippocampal slices were exposed to zero Mg2+, 6 mM K+; and an in vivo model, where kainic acid was injected unilaterally into the hippocampus. In both models, field excitatory postsynaptic potentials (fEPSPs) were recorded from the CA1 region of hippocampal slices in response to Schaffer collateral stimulation and G1-mGluR-LTD was induced chemically with the group 1 mGluR agonist DHPG. Results: In the in vitro model, ArcKR expression enhanced the effects of seizure activity and increased the magnitude of G1-mGluR LTD, an effect that could be blocked with the mGluR5 antagonist MTEP. In the in vivo model, fEPSPs were significantly smaller in slices from ArcKR mice and were less contaminated by population spikes. In this model, the amount of G1-mGluR-LTD was significantly less in epileptic slices from ArcKR mice as compared to wildtype (WT) mice. Significance: We have shown that expression of ArcKR, a form of Arc in which degradation is reduced, significantly modulates the magnitude of G1-mGluR-LTD following epileptic seizures. However, the effect of ArcKR on LTD depends on the epileptic model used, with enhancement of LTD in an in vitro model and a reduction in the kainate mouse model.

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