Your search keyword '"Jinhu Kim"' showing total 4 results

1. Loss of IQSEC3 Disrupts GABAergic Synapse Maintenance and Decreases Somatostatin Expression in the Hippocampus

Author

Seungjoon Kim, Hyeonho Kim, Dongseok Park, Jinhu Kim, Joohyeon Hong, Jae Seong Kim, Hyeji Jung, Dongwook Kim, Eunji Cheong, Jaewon Ko, and Ji Won Um

Subjects

Biology (General), QH301-705.5

Published

2024

2. Loss of IQSEC3 Disrupts GABAergic Synapse Maintenance and Decreases Somatostatin Expression in the Hippocampus

Author

Seungjoon Kim, Hyeonho Kim, Dongseok Park, Jinhu Kim, Joohyeon Hong, Jae Seong Kim, Hyeji Jung, Dongwook Kim, Eunji Cheong, Jaewon Ko, and Ji Won Um

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Gephyrin interacts with various GABAergic synaptic proteins to organize GABAergic synapse development. Among the multitude of gephyrin-binding proteins is IQSEC3, a recently identified component at GABAergic synapses that acts through its ADP ribosylation factor-guanine nucleotide exchange factor (ARF-GEF) activity to orchestrate GABAergic synapse formation. Here, we show that IQSEC3 knockdown (KD) reduced GABAergic synaptic density in vivo, suggesting that IQSEC3 is required for GABAergic synapse maintenance in vivo. We further show that IQSEC3 KD in the dentate gyrus (DG) increases seizure susceptibility and triggers selective depletion of somatostatin (SST) peptides in the DG hilus in an ARF-GEP activity-dependent manner. Strikingly, selective introduction of SST into SST interneurons in DG-specific IQSEC3-KD mice reverses GABAergic synaptic deficits. Thus, our data suggest that IQSEC3 is required for linking gephyrin-GABAA receptor complexes with ARF-dependent pathways to prevent aberrant, runaway excitation and thereby contributes to the integrity of SST interneurons and proper GABAergic synapse maintenance. : In this study, Kim et al. investigate the effect of loss of function of IQSEC3, a gephyrin-binding GABAergic synapse-specific ARF-GEF, using hippocampal dentate gyrus (DG)-specific IQSEC3-knockdown (KD) mice. Strikingly, IQSEC3 KD causes a massive reduction of somatostatin (SST) expression. The restricted SST expression in SST+ interneurons reverses the pathological phenotypes. Keywords: epilepsy, GABA, inhibitory synapse, IQSEC3, somatostatin, gephyrin, ARF6, excitation-inhibition balance, dentate gyrus

Published

2020

3. Npas4 regulates IQSEC3 expression in hippocampal somatostatin interneurons to mediate anxiety-like behavior

Author

Dongsu Lee, Eunji Cheong, Katsuhiko Tabuchi, Sookyung Hong, Jae-Hoon Kim, Hyeonho Kim, Ji Won Um, Jaewon Ko, Seungjoon Kim, Hyeji Jung, Takuma Mori, Jinhu Kim, Dongseok Park, Dongwook Kim, and Jongcheol Jeon

Subjects

Hippocampus, Anxiety, Hippocampal formation, Neurotransmission, Inhibitory postsynaptic potential, Synaptic Transmission, General Biochemistry, Genetics and Molecular Biology, Synapse, Interneurons, Basic Helix-Loop-Helix Transcription Factors, Animals, Guanine Nucleotide Exchange Factors, Premovement neuronal activity, GABAergic Neurons, Promoter Regions, Genetic, Mice, Knockout, Behavior, Animal, Gephyrin, biology, Chemistry, fungi, Up-Regulation, Mice, Inbred C57BL, nervous system, Synapses, biology.protein, GABAergic, Somatostatin, Neuroscience, Protein Binding

Abstract

Activity-dependent GABAergic synapse plasticity is important for normal brain functions, but the underlying molecular mechanisms remain incompletely understood. Here, we show that Npas4 (neuronal PAS-domain protein 4) transcriptionally regulates the expression of IQSEC3, a GABAergic synapse-specific guanine nucleotide-exchange factor for ADP-ribosylation factor (ARF-GEF) that directly interacts with gephyrin. Neuronal activation by an enriched environment induces Npas4-mediated upregulation of IQSEC3 protein specifically in CA1 stratum oriens layer somatostatin (SST)-expressing GABAergic interneurons. SST+ interneuron-specific knockout (KO) of Npas4 compromises synaptic transmission in these GABAergic interneurons, increases neuronal activity in CA1 pyramidal neurons, and reduces anxiety behavior, all of which are normalized by the expression of wild-type IQSEC3, but not a dominant-negative ARF-GEF-inactive mutant, in SST+ interneurons of Npas4-KO mice. Our results suggest that IQSEC3 is a key GABAergic synapse component that is directed by Npas4 and ARF activity, specifically in SST+ interneurons, to orchestrate excitation-to-inhibition balance and control anxiety-like behavior.

Published

2021

4. Loss of IQSEC3 Disrupts GABAergic Synapse Maintenance and Decreases Somatostatin Expression in the Hippocampus

Author

Hyeji Jung, Ji Won Um, Jaewon Ko, Eunji Cheong, Seungjoon Kim, Hyeonho Kim, Jinhu Kim, Dongwook Kim, Dongseok Park, Jae Seong Kim, and Joohyeon Hong

Subjects

Male, 0301 basic medicine, endocrine system, Hippocampus, Inhibitory postsynaptic potential, General Biochemistry, Genetics and Molecular Biology, Synapse, Nucleotide exchange factor, Mice, 03 medical and health sciences, 0302 clinical medicine, Animals, Guanine Nucleotide Exchange Factors, Humans, lcsh:QH301-705.5, Gephyrin, biology, Chemistry, Dentate gyrus, fungi, Membrane Proteins, Mice, Inbred C57BL, HEK293 Cells, 030104 developmental biology, Somatostatin, lcsh:Biology (General), Synapses, biology.protein, GABAergic, Neuroscience, 030217 neurology & neurosurgery

Abstract

Summary: Gephyrin interacts with various GABAergic synaptic proteins to organize GABAergic synapse development. Among the multitude of gephyrin-binding proteins is IQSEC3, a recently identified component at GABAergic synapses that acts through its ADP ribosylation factor-guanine nucleotide exchange factor (ARF-GEF) activity to orchestrate GABAergic synapse formation. Here, we show that IQSEC3 knockdown (KD) reduced GABAergic synaptic density in vivo, suggesting that IQSEC3 is required for GABAergic synapse maintenance in vivo. We further show that IQSEC3 KD in the dentate gyrus (DG) increases seizure susceptibility and triggers selective depletion of somatostatin (SST) peptides in the DG hilus in an ARF-GEP activity-dependent manner. Strikingly, selective introduction of SST into SST interneurons in DG-specific IQSEC3-KD mice reverses GABAergic synaptic deficits. Thus, our data suggest that IQSEC3 is required for linking gephyrin-GABAA receptor complexes with ARF-dependent pathways to prevent aberrant, runaway excitation and thereby contributes to the integrity of SST interneurons and proper GABAergic synapse maintenance. : In this study, Kim et al. investigate the effect of loss of function of IQSEC3, a gephyrin-binding GABAergic synapse-specific ARF-GEF, using hippocampal dentate gyrus (DG)-specific IQSEC3-knockdown (KD) mice. Strikingly, IQSEC3 KD causes a massive reduction of somatostatin (SST) expression. The restricted SST expression in SST+ interneurons reverses the pathological phenotypes. Keywords: epilepsy, GABA, inhibitory synapse, IQSEC3, somatostatin, gephyrin, ARF6, excitation-inhibition balance, dentate gyrus

Published

2020