Seung Kyu scite author profile

Seung Kyu

4Publications

81Citation Statements Received

111Citation Statements Given

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Yonsei University

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Identification of T-Type α1H Ca²⁺ Channels (Ca_v3.2) in Major Pelvic Ganglion Neurons

Lee

Kim

Park

et al. 2002

Journal of Neurophysiology

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Among autonomic neurons, sympathetic neurons of the major pelvic ganglia (MPG) are unique by expressing low-voltage-activated T-type Ca2+ channels. To date, the T-type Ca2+ channels have been poorly characterized, although they are believed to be potentially important for functions of the MPG neurons. In the present study, thus we investigated characteristics and molecular identity of the T-type Ca2+ channels using patch-clamp and RT-PCR techniques. When the external solution contained 10 mM Ca2+ as a charge carrier, T-type Ca2+ currents were first activated at -50 mV and peaked around -20 mV. Besides the low-voltage activation, T-type Ca2+ currents displayed typical characteristics including transient activation/inactivation and voltage-dependent slow deactivation. Overlap of the activation and inactivation curves generated a prominent window current around resting membrane potentials. Replacement of the external Ca2+ with 10 mM Ba2+ did not affect the amplitudes of T-type Ca2+ currents. Mibefradil, a known T-type Ca2+ channel antagonist, depressed T-type Ca2+ currents in a concentration-dependent manner (IC50 = 3 microM). Application of Ni2+ also produced a concentration-dependent blockade of T-type Ca2+ currents with an IC50 of 10 microM. The high sensitivity to Ni2+ implicates alpha1H in generating the T-type Ca2+ currents in MPG neurons. RT-PCR experiments showed that MPG neurons predominantly express mRNAs encoding splicing variants of alpha1H (called pelvic Ta and Tb, short and long forms of alpha1H, respectively). Finally, we tested whether the low-threshold spikes could be generated in sympathetic MPG neurons expressing T-type Ca2+ channels. When hyperpolarizing currents were injected under a current-clamp mode, sympathetic neurons produced postanodal rebound spikes, while parasympathetic neurons were silent. The number of the rebound spikes was reduced by 10 microM Ni2+ that blocked 50% of T-type Ca2+ currents and had a little effect on HVA Ca2+ currents in sympathetic MPG neurons. Furthermore, generation of the rebound spikes was completely prevented by 100 microM Ni2+ that blocked most of the T-type Ca2+ currents. In conclusions, T-type Ca2+ currents in MPG neurons mainly arise from alpha1H among the three isoforms (alpha1G, alpha1H, and alpha1I) and may contribute to generation of low-threshold spikes in sympathetic MPG neurons.

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An α3β4 subunit combination acts as a major functional nicotinic acetylcholine receptor in male rat pelvic ganglion neurons

Park

Kyu

Kim

et al. 2006

Pflugers Arch - Eur J Physiol

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We identified major subunits of the nicotinic acetylcholine receptor (nAChR) involved in excitatory postsynaptic potential and intracellular Ca(2+) ([Ca(2+)]i) increase in the major pelvic ganglion (MPG) neurons of the male rat. ACh elicited fast inward currents in both sympathetic and parasympathetic MPG neurons. Mecamylamine, a selective antagonist for alpha3beta4 nAChR, potently inhibited the ACh-induced currents in sympathetic and parasympathetic neurons (IC(50); 0.53 and 0.22 microM, respectively). Furthermore, alpha-conotoxin AuIB (10 microM), a new selective antagonist for alpha3beta4 nAChR, blocked more than 80% of the ACh-induced currents in MPG neurons. Conversely, alpha-bungarotoxin, alpha-methyllycaconitine, and dihydro-beta-erythroidine, known as blockers of the alpha7 or alpha4beta2, did not show selective blocking effects on MPG neurons. ACh transiently increased [Ca(2+)]i which was subsequently abolished in the extracellular Ca(2+)-free environment. Simultaneous recording of [Ca(2+)]i and ionic currents revealed that ACh increased [Ca(2+)]i under the conditions of the voltage-clamped (at -80 mV) state, and this resulted from the influx through nAChR itself. ACh-induced [Ca(2+)]i increase was blocked by mecamylamine (10 microM), but was not affected by atropine (1 microM). RT-PCR analysis showed that, among subunits of nAChR, alpha3 and beta4 were predominantly expressed in MPG. We suggest that activation of alpha3 and beta4 nAChR subunits in MPG neurons induce fast inward currents and [Ca(2+)]i increase, possibly mediating a major role in pelvic autonomic synaptic transmission.

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ATP‐induced [Ca²⁺]_i changes and depolarization in GH3 cells

Chung

Park

Kyu

et al. 2000

British J Pharmacology

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1 Extracellular ATP is a neurotransmitter and mediates a variety of responses. In the endocrine system, there are data suggesting a physiological role for ATP in Ca 2+ signalling and hormone secretion. However, the ATP receptor subtype involved has not been clearly elucidated in GH3 cells, a rat anterior pituitary cell line. ] i and depolarization responses was BzATP > > ATP 42-MeSATP and purine derivatives such as ADP, AMP, adenosine were ineective. Neither UTP nor a, b-methylene ATP showed any eect. 5 In low-divalent conditions BzATP evoked non-desensitizing inward currents, which were reversed at *0 mV. This nonselective cationic conductance was increased by repeated applications of BzATP and the cells became very permeable to NMDG. Longer applications (30 min) of BzATP stimulated ethidium bromide in¯ux in low divalent conditions, suggesting increased permeability to larger molecules. We also identi®ed the existence of P2X 7 mRNA on GH3 cells by using reverse transcriptase (RT)-polymerase chain reaction (PCR). 6 These results suggest that the GH3 cells have an endogenous P2X 7 receptor and purinergic stimulation may play a potential role in neuroendocrine modulation on these cells.

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Modulatory Role of Adenylyl Cyclase and Protein Kinase A (PKA) in 5-hydroxytriptamine₃Induced Intracellular Calcium Increase in Parasympathetic Neurons of Rat Major Pelvic Ganglia

et al. 2006

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Purpose: Serotonin has effects on the bladder contraction or urethral sphincter tone. Different subtypes of 5-hydroxytriptamine (5-HT) receptors appear to mediate the effects of serotonin on voiding. 5-HT1 and 5-HT2, metamorphic receptors, are examined well. However 5-HT3, ionotrophic receptors, are not examined well. Pelvic ganglia provide the majority of the innervation of the lower urinary tract. Major pelvic ganglia (MPG) in rats are autonomic ganglia, containing both sympathetic and parasympathetic neurons related with voiding. We examined the modulatory role of adenylyl cyclase (AC) and protein kinase A (PKA) in 5-HT3 induced intra cellular calcium increase in rat MPG. Materials and Methods:The regulatory effects by AC and PKA were investigated in a single neuron of male rat major pelvic ganglia using patch clamp and fluorescence Ca 2+ measurement techniques.

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Seung Kyu

Identification of T-Type α1H Ca²⁺ Channels (Ca_v3.2) in Major Pelvic Ganglion Neurons

An α3β4 subunit combination acts as a major functional nicotinic acetylcholine receptor in male rat pelvic ganglion neurons

ATP‐induced [Ca²⁺]_i changes and depolarization in GH3 cells

Modulatory Role of Adenylyl Cyclase and Protein Kinase A (PKA) in 5-hydroxytriptamine₃Induced Intracellular Calcium Increase in Parasympathetic Neurons of Rat Major Pelvic Ganglia

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Seung Kyu

Identification of T-Type α1H Ca2+ Channels (Cav3.2) in Major Pelvic Ganglion Neurons

An α3β4 subunit combination acts as a major functional nicotinic acetylcholine receptor in male rat pelvic ganglion neurons

ATP‐induced [Ca2+]i changes and depolarization in GH3 cells

Modulatory Role of Adenylyl Cyclase and Protein Kinase A (PKA) in 5-hydroxytriptamine3Induced Intracellular Calcium Increase in Parasympathetic Neurons of Rat Major Pelvic Ganglia

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Identification of T-Type α1H Ca²⁺ Channels (Ca_v3.2) in Major Pelvic Ganglion Neurons

ATP‐induced [Ca²⁺]_i changes and depolarization in GH3 cells

Modulatory Role of Adenylyl Cyclase and Protein Kinase A (PKA) in 5-hydroxytriptamine₃Induced Intracellular Calcium Increase in Parasympathetic Neurons of Rat Major Pelvic Ganglia