At 1 hr after BFA washout, GABAARγ2-GFP accumulated in the Golgi apparatus in neurons from mice of each genotype (Figures Epigenetics Compound Library high throughput 8A and 8C), suggesting that ER-to-Golgi transport of GABAARs was unaffected. Importantly, less GABAARγ2-GFP clusters tended to be distributed in the dendrites of neurons

from KIF5A-KO mice at 2, 2.5, and 3 hr after the washout, which was possibly because of the impairment of post-Golgi transport of GABAARγ2-GFP (Figures 8A and 8D). Next, we compared surface expression of GABAAR-GFP in dendrites after BFA treatment and washout between Kif5a-KO and WT mouse neurons. We visualized surface-expressed GABAAR-GFP by immunocytochemistry. After washout of BFA, cells were fixed and incubated with an anti-GFP antibody without permeabilization. Because the p53 inhibitor GFP tag of the GABAAR-GFP construct is located at the outer surface after membrane insertion ( Kittler et al., 2000), we could detect the surface receptor using this procedure. As a result, we observed a significant delay in surface expression of GABAAR-GFP in Kif5a-KO neurons ( Figures 8B and 8E). We

tried to further characterize the alteration of GABAAR transport in Kif5a-KO mouse neurons by comparing the glycosylation state of GABAARs between genotypes. GABAARs are known to be heavily glycosylated in neurons, and some mutations of GABAAR subunits have been reported to be involved in the receptor glycosylation state that can affect the intracellular fate of GABAARs ( Lo et al., 2010; Tanaka et al., 2008). We performed a glycosylation assay of conditional Kif5a-KO and control mouse brain lysates using two enzymes; endoglycosidase H (EndoH), which only digests immature high-mannose sugar, and peptide N-glycosidase F (PNGaseF), which removes all N-linked carbohydrates ( Tomita et al., 2003). As a result, digested band patterns of GABAARβ2/3 and GluR2/3 were similar between genotypes ( Figure 8F), indicating that the glycosylation state of these receptors was not significantly Montelukast Sodium different between

genotypes and that the GABAARs were fully glycosylated in conditional Kif5a-KO cells. Considering that de novo synthesized proteins are glycosylated in the ER and Golgi apparatus, this result suggests that KIF5A is involved in the post-Golgi trafficking of GABAARs, but not in pre-Golgi and intra-Golgi pathways of GABAAR transport. We found an abnormal EEG in the hippocampus of KIF5A-deficient mice. The waveforms represented paroxysms, and spikes and waves were considered to be a typical epileptic discharge (Figures 1F–1H). Such abnormal waveforms are caused by impairment of GABAAR-mediated neurotransmission (Jacob et al., 2008). Consistently, we found an impairment of mIPSCs and eIPSCs together with increased neuronal excitability (Figure 2) and reduced cell surface expression of GABAARs in KIF5A-deficient mice (Figure 3). These results emphasize the role of KIF5A protein in GABAAR trafficking.