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Metabotropic glutamate receptor subtype 7 (mGluR7) belongs to the family of G-protein coupled receptors. mGluR7 is widely distributed in the brain and primarily localized at presynaptic terminals, where it is thought to regulate neurotransmitter release and synaptic plasticity. Studies have shown that the intracellular C-terminal tail of mGluR7 binds a variety of proteins in addition to trimeric G-proteins. These newly identified protein interactions are believed to play a key role in the synaptic targeting and G-protein dependent signaling of mGluR7. Protein interacting with C kinase 1 (PICK1), a PDZ-domain protein, is a strong interaction partner of mGluR7a. In order to investigate the role of PICK1 in the synaptic trafficking and signaling of mGluR7a, a knock-in mouse line in which the interaction of mGluR7a and PICK1 is disrupted was generated. Analysis of the mutant mice by immunocytochemistry and immunoelectron microscopy showed that the synaptic targeting and clustering of mGluR7a was not altered, indicating that PICK1 is not required for mGluR7a receptor membrane trafficking and synaptic localization. However, when the spontaneous synaptic activity of cerebellar granule cell cultures prepared from both wild-type and knock-in mice was monitored, and L-AP4 (400μm) was found to decrease the frequency, but not the amplitude, of spontaneous excitatory currents in wild-type neurons, while no effect of L-AP4 on spontaneous synaptic activity was observed in knock-in neurons. This indicates that PICK1 binding to the C-terminal region of mGluR7a plays an essential role in mGluR7a mediated G-protein signaling. We examined the threshold sensitivity for the convulsant pentetrazole (PTZ) in knock-in mice. It was found that mGluR7a knock-in mice had a greater sensitivity to PTZ than wild-type mice. Moreover, the surface parietal cortex EEG recordings of the mutant mice revealed spontaneous synchronous oscillation, or "spike-and-wave discharges" (SWD), which displayed similar characteristics to absence-like seizures. It was also observed that the knock-in mice responded to pharmacology as human absence epilepsy. These data suggests that the knock-in mice displayed the phenotype of absencelike epilepsy. Furthermore, the behavioral analysis of the mGluR7a knock-in mice showed no deficits in motor coordination, pain sensation, anxiety as well as spatial learning and memory, thus the interaction of mGluR7a and PICK1 appears not to contribute to these physiological processes. Taken together, our data provides evidence for an important role of PICK1 in Gprotein dependent signaling of mGluR7a, whereas PICK1 is not required for synaptic targeting and clustering of mGluR7a. Our results also provide an animal model of absencelike epilepsy generated by disruption of a single mGluR7a-PDZ interaction, thus creating a novel therapeutic target against this neurological disease.