• Title/Summary/Keyword: Neurotransmitter system

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Expression of neurotransmitter receptors in oral keratinocytes and their response to agonists

  • Choi, Eun Ji;Chang, Sung-Ho;Choi, Se-Young;Choi, Youngnim
    • International Journal of Oral Biology
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    • v.46 no.1
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    • pp.39-44
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    • 2021
  • This study aimed to investigate whether neurotransmitter receptors in the nervous system were also expressed in oral keratinocytes. Expressions of various neurotransmitter receptor genes in immortalized mouse oral keratinocyte (IMOK) cells were examined by reverse transcriptase polymerase chain reaction. IMOK cells expressed calcitonin gene-related peptide (CGRP) receptor subunit genes Ramp1 and Ramp3 and glutamate receptor subunit genes Grina, Gria3, Grin1, Grin2a, and Grin2d. Moreover, IMOK cells expressed Adrb2 and Chrna5 that encode beta 2 adrenergic receptor and cholinergic receptor nicotinic alpha 5 for sympathetic and parasympathetic neurotransmitters, respectively. The expression of Bdkrb1 and Ptger4, which encode receptors for bradykinin and prostaglandin E2 involved in inflammatory responses, was also observed at low levels. Expressions of Ramp1 and Grina in the mouse gingival epithelium were also confirmed by immunohistochemistry. When the function of neurotransmitter receptors expressed on IMOK cells was tested by intracellular calcium response, CGRP, glutamate, and cholinergic receptors did not respond to their agonists, but the bradykinin receptor responded to bradykinin. Collectively, oral keratinocytes express several neurotransmitter receptors, suggesting the potential regulation of oral epithelial homeostasis by the nervous system.

Screeing of S9940 as an Inhibitor of Neurotransmitter Release from PC12 Cells (PC12 세포에서 신경전달물질 방출을 저해하는 물질 S9940 물질의 탐색)

  • Lee, Yun-Sik;Park, Kie-In
    • Toxicological Research
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    • v.14 no.3
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    • pp.341-348
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    • 1998
  • We established an in vitro experimental system using the following procedure. We first introduced tritium-labelled norepinephrine ([3H]-NE)into PC12 cells. The [3H]-NE incorporated into PC12 cells were then stimulated by a high concentration (60 mM) of $K^+$ during 12 minutes. Then, we counted the amount of [3H]-NE release from PC12 cells with the scintillation counter. After screening fungal, Streptomyces or bacterial product using this experimental system, we obtained S9940 from Streptomyces spp. which inhibited [3H]-NE release from PC12 cells. S9940 also inhibits the release of ATP as a neurotransmitter of PC12 cells and rat cortical neurons. The inhibitory effect was seen even when the PC12 cells were treated with low $K^+$ buffer containing ionomycin $(1\muM)$ as an ionopore. This result suggests that the inhibitory action of S9940 on neurotransmitter release appeared after the influx of $Ca^{2+}$.

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Screening of active substance FS11052 as an inhibitor of neurotransmitter release from PC12 cells (PC12 세포에서 신경전달물질 방출을 저해하는 생리활성물질 FS11052의 탐색)

  • Lee, Yun-Sik;Lee, John Hwa
    • Korean Journal of Veterinary Research
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    • v.46 no.2
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    • pp.87-96
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    • 2006
  • We established an in vitro experimental system using the following procedure. We first introduced tritium-labeled norepinephrine ([$^3$H]-NE) into PC12 cells, The [$^3$H]-NE incorporated into PC12 cells were then stimulated by a high concentration (60 mM) of $K^+$ buffer during 12 minutes. Then, we collected $100{\mu}l$ supernatant and counted the amount of [$^3$H]-NE release from PC12 cells with a scintillation counter. After screening fungal, Streptomyces spp. or bacterial product using this experimental sytem, we obtained FS11052 from Streptomyces spp. which inhibited [$^3$H]-NE release from PC12 cells. FS11052 also inhibits the release of ATP as a neurotransmitter of PC12 cells and rat cortical neurons, The inhibitory effect was seen even when the PC12 cells were treated with low $K^-$ buffer containing ionomycin ($1{\mu}M$) as an ionopore. This result suggests that the inhibitory action of FS11052 on neurotransmitter release appeared after the influx of $Ca^{2+}$.

Sodium/chloride-Dependent Transporters: Elucidation of Their Properties Using the Dopamine Transporter

  • Caron, Marc G.
    • Proceedings of the Korean Society of Applied Pharmacology
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    • 1994.04a
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    • pp.88-93
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    • 1994
  • The mechanisms controlling the intensity and duration of synaptic transmission are numerous. Once an action potential reaches a nerve terminal, the stored neurotransmitters are released in a quantum fashion into the synaptic cleft. At that point neurotransmitters can act on post-synaptic receptors to elicit an action on the post-synaptic cell or net at so-called auto-receptors that are located on the presynaptic side and which often regulate the further release of the neutotransmitter. Whereas the action of the neurotransmitter receptors is regulated by desensitization phenomenon, the major mechanism by which the intensity and duration of neurotransmitter action is presumably regulated by either its degradation or its removal from the synaptic cleft. In the central nervous system, specialized proteins located in fe plasma membrane of presynaptic terminals function to rapidly remove neurotransmitters from the synaptic cleft in a sodium chloride-dependent fashion. These proteins have been referred to as uptake sites or neurotransmitter transporters. Once taken up by the plasma membrane transporters, neurotransmitters are repackaged into secretory vesicles by distinct transporters which depend on a proton gradient.

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Radiotracers for Functional Neuroimaging (기능성 신경영상화를 위한 방사성추적자)

  • Lee, Byung-Chul;Chi, Dae-Yoon
    • The Korean Journal of Nuclear Medicine
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    • v.37 no.1
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    • pp.53-62
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    • 2003
  • After the development of two major techniques - SPECT (Single Photon Emission Computed Tomography) and PET (Positron Emission Tomography) to image the human subjects in a three-dimensional direction in the 1980s, many radiotracers have been used for functional neuroimaging. Still it would be very important study to develop selective radiotracers for functional neuroimaging. New radiotracers will help to expand the knowledge of neurotransmitter systems and of the genetic contribution to receptor or transporter availability. Neurotransmitter depletion-restoration studies, the distribution of brain functions and their modulation by neurotransmitter system aid in better understanding and limiting the side effects of drugs used as well as newly developed. In audition, these radiotracers will be thus very useful to gain a better understanding in biochemical and pharmacological interactions in living human. This review mentions the introduction of radioligands for the functional neuroimaging. Although significant progress has been achieved in the development of new PET and SPECT ligands for in vivo imaging of those receptors and transporters, there are continuous needs of new diagnostic radioligands.

NEUROCHEMICAL BASIS OF CEREBRAL DEVELOPMENT (뇌신경발달의 신경생화학적 기초)

  • Kim Boong-Nyun;Cho Soo-Churl
    • Journal of the Korean Academy of Child and Adolescent Psychiatry
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    • v.16 no.1
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    • pp.15-25
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    • 2005
  • During the recent decade, the new data about normal neurochemical system development have been accumulated very much. Based on these new data, the up-to-date theory and hypothesis have been developed. These development of this field results from the technological/methodological development which increase the sensitivity, specificity and validity of neurochemical research. Especially, molecular technological development support the recent neurochemical development. In this review article, the authors described the recent research findings in the field of normal neurochemical development of neurotransmitter system in animal and human. Most of child psychiatric disorder, especially neuropsychiatric developmental disorders (ADHD, Autism, Tourette's disorder, MR etc) seem to have underlying neurochemical developmental problems in the pathophysiological basis. So, the data on the normal ontogeny of neurotransmitter system can be the most valuable resources for the research on the etiology of the diverse child psychiatric disorders.

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Anxiety and GABA System (불안과 GABA 체계)

  • Yang, Jong-Chul
    • Anxiety and mood
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    • v.2 no.2
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    • pp.79-85
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    • 2006
  • Anxiety and anxiety disorders are related to many neurotransmitters, such as norepinephrine, serotonine, dopamine, glutamate, and Gamma-aminobutyric acid (GABA). GABA, the main inhibitory neurotransmitter of the CNS, is known to counterbalance the action of the excitatory neurotransmitters and control anxiety. GABA acts on 3 GABA receptor subtypes, $GABA_A$, $GABA_B$, and $GABA_C$. $GABA_A$ and $GABA_c$ receptors are oligomeric transmembrane glycoproteins composed of 5 subunits that are arranged around a central chloride channel. $GABA_B$ receptor comprises two 7-transmembraneis-spanning proteins that are coupled to either calcium or potassium channel via G proteins. This article highlights neurobiological interactions between anxiety and GABA system.

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Action of Dopamine as Inhibitory Neuromodulator in Jellyfish Synapse

  • Chung, Jun-mo;Spencert, Andrew N.
    • BMB Reports
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    • v.31 no.3
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    • pp.264-268
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    • 1998
  • Dopamine (DA) acts on swimming motor neurons (SMNs) of Polyorchis penicillatus as an inhibitory neurotransmitter by hyperpolarizing their membrane potentials, which results from the activation of voltagesensitive potassium channels mediated through a $D_2-type$ receptor. In addition, DA, and not the hyperpolarized membrane potential, directly decreased the input resistance of SMNs by ca. 50% from 1.42 to 0.68 $G{\Omega}$. It strongly indicates that DA can shunt other excitatory synaptic signals onto SMNs where DA usually elicited much greater responses in their neurites than soma. All these evidences suggest that DA may operate in this primitive nervous system in dual modes as an inhibitory neurotransmitter and neuromodulator as well.

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Molecular System Design for the Acetylcholine Fluorescent Chemosensor

  • Kah, Kwang-Nak
    • Journal of Sensor Science and Technology
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    • v.6 no.6
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    • pp.508-513
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    • 1997
  • We exploited a new molecular system - acetylcholine (neurotransmitter) detection system as a building block for the perfect molecular information system (sensing membrane of the chemical sensor) - using water soluble calix[n]arene-p-sulfonates which are useful even in aqueous (water/methanol) neutral solution. This achievement is due to several outstanding properties of these calix[n]arene derivatives such as low $pK_{a}$ values, cation-interactions, and high water-solubility, etc.

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