Junsung Woo scite author profile

TWIK-1 is a member of the two-pore domain K þ (K2P) channel family that plays an essential part in the regulation of resting membrane potential and cellular excitability. The physiological role of TWIK-1 has remained enigmatic because functional expression of TWIK-1 channels is elusive. Here we report that native TWIK-1 forms a functional channel at the plasma membrane of astrocytes. A search for TWIK-1-binding proteins led to the identification of TREK-1, another member of the K2P family. The TWIK-1/TREK-1 heterodimeric channel is formed via a disulphide bridge between residue C69 in TWIK-1 and C93 in TREK-1. Gene silencing demonstrates that surface expression of TWIK-1 and TREK-1 are interdependent. TWIK-1/TREK-1 heterodimers mediate astrocytic passive conductance and cannabinoidinduced glutamate release from astrocytes. Our study sheds new light on the diversity of K2P channels.

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Newly developed reversible MAO-B inhibitor circumvents the shortcomings of irreversible inhibitors in Alzheimer’s disease

Park

et al. 2019

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Monoamine oxidase–B (MAO-B) has recently emerged as a potential therapeutic target for Alzheimer’s disease (AD) because of its association with aberrant γ-aminobutyric acid (GABA) production in reactive astrocytes. Although short-term treatment with irreversible MAO-B inhibitors, such as selegiline, improves cognitive deficits in AD patients, long-term treatments have shown disappointing results. We show that prolonged treatment with selegiline fails to reduce aberrant astrocytic GABA levels and rescue memory impairment in APP/PS1 mice, an animal model of AD, because of increased activity in compensatory genes for a GABA-synthesizing enzyme, diamine oxidase (DAO). We have developed a potent, highly selective, and reversible MAO-B inhibitor, KDS2010 (IC50 = 7.6 nM; 12,500-fold selectivity over MAO-A), which overcomes the disadvantages of the irreversible MAO-B inhibitor. Long-term treatment with KDS2010 does not induce compensatory mechanisms, thereby significantly attenuating increased astrocytic GABA levels and astrogliosis, enhancing synaptic transmission, and rescuing learning and memory impairments in APP/PS1 mice.

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Severe reactive astrocytes precipitate pathological hallmarks of Alzheimer’s disease via H2O2− production

et al. 2020

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Glial GABA, synthesized by monoamine oxidase B, mediates tonic inhibition

Yoon

Woo

Chun

et al. 2014

The Journal of Physiology

134

142

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Key pointsr Here we show that glial gamma aminobutyric acid (GABA) is produced by monoamine oxidase B (MAOB), utilizing a polyamine, putrescine.r The concentration of GABA in Bergmann glial cells is estimated to be around 5-10 mM. r General gene silencing of MAOB resulted in elimination of tonic GABA currents recorded from granule cells in the cerebellum and medium spiny neurons (MSN) in the striatum.r Glial-specific rescue of MAOB resulted in complete restoration of tonic GABA currents. r Our results identify MAOB as a synthesizing enzyme of glial GABA, which is released to mediate tonic inhibition in the cerebellum and striatum.Abstract GABA is the major inhibitory transmitter in the brain and is released not only from a subset of neurons but also from glia. Although neuronal GABA is well known to be synthesized by glutamic acid decarboxylase (GAD), the source of glial GABA is unknown. After estimating the concentration of GABA in Bergmann glia to be around 5-10 mM by immunogold electron microscopy, we demonstrate that GABA production in glia requires MAOB, a key enzyme in the putrescine degradation pathway. In cultured cerebellar glia, both Ca 2+ -induced and tonic GABA release are significantly reduced by both gene silencing of MAOB and the MAOB inhibitor selegiline. In the cerebellum and striatum of adult mice, general gene silencing, knock out of MAOB or selegiline treatment resulted in elimination of tonic GABA currents recorded from granule neurons and medium spiny neurons. Glial-specific rescue of MAOB resulted in complete rescue of tonic GABA currents. Our results identify MAOB as a key synthesizing enzyme of glial GABA, which is released via bestrophin 1 (Best1) channel to mediate tonic inhibition in the brain.

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Region-Specific Transcriptional Control of Astrocyte Function Oversees Local Circuit Activities

Huang

Woo

Sardar

et al. 2020

Neuron

100

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Tweety-homolog (Ttyh) Family Encodes the Pore-forming Subunits of the Swelling-dependent Volume-regulated Anion Channel (VRAC_swell) in the Brain

et al. 2019

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In the brain, a reduction in extracellular osmolality causes water-influx and swelling, which subsequently triggers Cl − - and osmolytes-efflux via volume-regulated anion channel (VRAC). Although LRRC8 family has been recently proposed as the pore-forming VRAC which is activated by low cytoplasmic ionic strength but not by swelling, the molecular identity of the pore-forming swelling-dependent VRAC (VRAC swell ) remains unclear. Here we identify and characterize Tweety-homologs (TTYH1, TTYH2, TTYH3) as the major VRAC swell in astrocytes. Gene-silencing of all Ttyh1/2/3 eliminated hypo-osmotic-solution-induced Cl − conductance (I Cl,swell ) in cultured and hippocampal astrocytes. When heterologously expressed in HEK293T or CHO-K1 cells, each TTYH isoform showed a significant I Cl,swell with similar aquaporin-4 dependency, pharmacological properties and glutamate permeability as I Cl,swell observed in native astrocytes. Mutagenesis-based structure-activity analysis revealed that positively charged arginine residue at 165 in TTYH1 and 164 in TTYH2 is critical for the formation of the channel-pore. Our results demonstrate that TTYH family confers the bona fide VRAC swell in the brain.

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Astrocytes Control Sensory Acuity via Tonic Inhibition in the Thalamus

Kwak

Koh

Kim

et al. 2020

Neuron

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Control of motor coordination by astrocytic tonic GABA release through modulation of excitation/inhibition balance in cerebellum

Woo

Min

Kang

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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Tonic inhibition in the brain is mediated through an activation of extrasynaptic GABA receptors by the tonically released GABA, resulting in a persistent GABAergic inhibitory action. It is one of the key regulators for neuronal excitability, exerting a powerful action on excitation/inhibition balance. We have previously reported that astrocytic GABA, synthesized by monoamine oxidase B (MAOB), mediates tonic inhibition via GABA-permeable bestrophin 1 (Best1) channel in the cerebellum. However, the role of astrocytic GABA in regulating neuronal excitability, synaptic transmission, and cerebellar brain function has remained elusive. Here, we report that a reduction of tonic GABA release by genetic removal or pharmacological inhibition of Best1 or MAOB caused an enhanced neuronal excitability in cerebellar granule cells (GCs), synaptic transmission at the parallel fiber-Purkinje cell (PF-PC) synapses, and motor performance on the rotarod test, whereas an augmentation of tonic GABA release by astrocyte-specific overexpression of MAOB resulted in a reduced neuronal excitability, synaptic transmission, and motor performance. The bidirectional modulation of astrocytic GABA by genetic alteration of Best1 or MAOB was confirmed by immunostaining and in vivo microdialysis. These findings indicate that astrocytes are the key player in motor coordination through tonic GABA release by modulating neuronal excitability and could be a good therapeutic target for various movement and psychiatric disorders, which show a disturbed excitation/inhibition balance.

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Junsung Woo

A disulphide-linked heterodimer of TWIK-1 and TREK-1 mediates passive conductance in astrocytes

Newly developed reversible MAO-B inhibitor circumvents the shortcomings of irreversible inhibitors in Alzheimer’s disease

Severe reactive astrocytes precipitate pathological hallmarks of Alzheimer’s disease via H2O2− production

Glial GABA, synthesized by monoamine oxidase B, mediates tonic inhibition

Region-Specific Transcriptional Control of Astrocyte Function Oversees Local Circuit Activities

Tweety-homolog (Ttyh) Family Encodes the Pore-forming Subunits of the Swelling-dependent Volume-regulated Anion Channel (VRAC_swell) in the Brain

Astrocytes Control Sensory Acuity via Tonic Inhibition in the Thalamus

Control of motor coordination by astrocytic tonic GABA release through modulation of excitation/inhibition balance in cerebellum

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Junsung Woo

A disulphide-linked heterodimer of TWIK-1 and TREK-1 mediates passive conductance in astrocytes

Newly developed reversible MAO-B inhibitor circumvents the shortcomings of irreversible inhibitors in Alzheimer’s disease

Severe reactive astrocytes precipitate pathological hallmarks of Alzheimer’s disease via H2O2− production

Glial GABA, synthesized by monoamine oxidase B, mediates tonic inhibition

Region-Specific Transcriptional Control of Astrocyte Function Oversees Local Circuit Activities

Tweety-homolog (Ttyh) Family Encodes the Pore-forming Subunits of the Swelling-dependent Volume-regulated Anion Channel (VRACswell) in the Brain

Astrocytes Control Sensory Acuity via Tonic Inhibition in the Thalamus

Control of motor coordination by astrocytic tonic GABA release through modulation of excitation/inhibition balance in cerebellum

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Tweety-homolog (Ttyh) Family Encodes the Pore-forming Subunits of the Swelling-dependent Volume-regulated Anion Channel (VRAC_swell) in the Brain