• Archives of Pharmacal Research
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• v.28 no.6
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• pp.691-698
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• 2005

Phlorotannins, the polyphonic compounds found in brown Eisenia and Ecklonia algae, have several pharmacologically beneficial effects such as anti-inflammation. In addition, our recent data show that these compounds may improve the cognitive functions of aged humans suggesting the potential ability to enhance memory in several neurodegenerative disorders. To examine the experimental hypothesis that two effective components of Ecklonia cava, dieckol and phlorofucofuroeckol (PFF), have memory-enhancing abilities, both were administered orally to mice before a passive avoidance test. The repeated administration of either dieckol or PFF dose-dependently reduced the inhibition of latency by the administration of ethanol. To investigate the mode of memory-enhancing actions, the levels of major central neurotransmitters in three different regions (striatum, hippocampus, and frontal cortex) of the mouse brain were measured. The levels of some of the neurotransmitters were significantly changed by ethanol. Both dieckol and PFF altered the levels of some neurotransmitters modified by the ethanol treatment. It is noteworthy that both dieckol and PFF increased the level of acetylcho-line, and they exerted anticholinesterase activities. Overall, the memory-enhancing abilities of dieckol and PFF may result from, at least in part, the increment of the brain level of acetylcho-line by inhibiting acetylcholinesterase.

• 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.

• Journal of the Korean Society of Tobacco Science
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• v.27 no.2
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• pp.212-218
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• 2005

Cigarette smoking has been known to have a few beneficial effects on some neuronal diseases such as Alzheimer's disease(AD), Parkinson's disease(PD) and prion disease by scrapie agent shows many similar properties with AD. In this respect, we investigated what biological effects are exerted by cigarette smoke exposure(CSE) in the brain of mouse infected by 87V scrapie. The scrapie agent was inoculated through stereotaxic microinjection of the homogenates of the scrapie agent infected brain into the intracerebral system in the 1M mice. The inoculation into mice typically exhibits neurochemical, physiological and histopathological characteristics of prion disease: loss of neurotransmitters and induction of astrocytosis and vacuolation in brain as well as reduction of spatial movement and loss of body weight. CSE led to alleviated the loss of body weight and also improved spatial movement of the infected mice. Most interestingly, CSE attenuated astrocytosis and vacuolation caused by scrapie infection in the brain. In addition, decreased levels of dopamine in striatal and hypothalamic regions as well as serotonin level in hippocampus caused by scrapie infection were also attenuated by exposure to cigarette smoke. These findings suggest that cigarette smoke, by its inhibition of astrocytosis and vacuolation followed by its restoration of levels of some neurotransmitters, may partly contribute to suppression in the progress of neurodegeneration caused by scrapie infection.

• 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.

• The Korean Journal of Pharmacology
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• v.24 no.1
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• pp.17-29
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• 1988

The author examined the effects of lidocaine on the veratrine-or potassium-induced release of neurotransmitters to determine the possible role of amino acid neurotransmitters in lidocaine-induced convulsion. The examined transmitters were gamma-aminobutyric acid (GABA), aspartic acid, glutamic acid and norepinephrine which are released from the synaptosomes. Furthermore, the effects of lidocaine on the binding to receptors and synaptosomal uptake of the two transmitters, GABA and glutamic acid, were determined in crude synaptic membranes and synaptosomes. In addition, the effects of propranolol, norepinephrine and serotonin on the release of amino acid neurotransmitters were also examined. The veratrine-induced release of GABA was most severely inhibited by lidocaine and propranolol, while norepinephrine and serotonin reduced the release of aspartic acid and glutamic acid more than the GABA release. Generally the potassium-induced release was much more resistant to the lidocaine action than the veratrine-induced release. Among the neurotransmitters examined, the aspartic acid release was most prone to the lidocaine action, while the GABA release was most resistant. Concentrations of lidocaine below 1 mM did not significantly change the GABA and glutamic acid receptor binding and uptake. These results indicate that the blocking of sodium channels by lidocaine can result in the selective depression of the GABA release. This may result in unlimited excitation of the central nervous system.

• Analytical Science and Technology
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• v.13 no.5
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• pp.630-635
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• 2000

The concentration of neurotransmitters in rat brain was determined by HPLC-ECD (electrochemical detection) method and the effects of methanol extracts of some crude drugs, such as Polygala Radix, Myristicae Semen, Zizyphi Semen, Acori graminei Rhizoma, Visci Herba, Liriopsis Tuber, Myrrha on the concentration of neurotransmitters in the ethanol-treated rat brain were investigated. By the administration of ethanol, dopamine (DA), 3, 4-dihydroxyphenyl acetic acid (DOPAC) and serotonin (5-HT) levels in frontal cortex and 5-HT level in hippocampus were significantly increased compared with the neurotransmitter levels in the brain of saline-treated rats. The ${\gamma}$-aminobutyric acid (GABA) level in frontal cortex was decreased by the same treatment. There was a tendency that the DA level in frontal cortex and striatum of ethanol-treated rats were increased by the administration of crude drug extracts. Especially, Myrrha and Visci Herba significantly increased the DA level of frontal cortex in ethanol-treated rats, while they significantly decreased the 5-HT level in the same region of the brain. GABA level in striatum of ethanol-treated rats was significantly decreased by Myristicae Semen, Visci Herba and Myrrha. These results suggest that the tested crude drug extracts have selective interaction with neurotransmitters in specified region of central nervous system.

• The Korean Journal of Physiology
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• v.27 no.2
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• pp.163-174
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• 1993

Vertebrate retinal neurons, like brain tracts farm complex synaptic relations in the enter and inner plexiform layers which ape equivalent to the central nervous system nuclei. The effects of $\gamma-aminobutyric$ acid(GABA) and glycine on retinal neurons were explored to discern the mechanisms of action of neurotransmitters. Experiments were performed in the superfused retina-eyecup preparation of the channel catfish, Ictalurus punctatus, using intracellular electrophysiological techniques. The roles of GABA and glycine as inhibitory neurotransmitters are well established in the vertebrate retina. But, we found that the depolarizing action of GABA and glycine on third-order neurons in the catfish retina. GABA and glycine appeared to act on retinal ueurons based on the observations that (1) effects on photoreceptors were not observed, (2) horizontal cells were either hyperpolarized $({\sim}33%)$ or depolarized $({\sim}67%)$, (3) bipolar cells were all hyperpolarized (4) amacrine and ganglion cells were either hyperpolarized $({\sim}37%)$ or depolarized $({\sim}63%)$, (5) GABA and glycine may be working to suppress presynaptic inhibition. The results suggest that depolarization of third-order neurons by GABA and glycine is due to at least two mechanisms; a direct postsynaptic effect and an indirect effect. Therefore, in the catfish retina, a mechanism of presynaptic inhibition or disinhibition including the direct postsynaptic effect may exist in the third-order neurons.

• Biomedical Science Letters
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• v.26 no.3
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• pp.217-225
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• 2020

Scuttle fly which moves abruptly after standing for a while and stop suddenly to rush off again, is a fly species in the Phoridae family. This species like rotten organic materials and it is known to proliferate even in the industrial materials including organic solvents. These characteristic behaviors of the scuttle fly seem to be related to muscular and nervous system or neurotransmitters. Thus, we focused at the neurotransmitter, corazonin (Crz) that is known to be related to resistance to stress and investigated the developmental process of the neurons in the scuttle fly. Corazonin is a neuropeptide being expressed in the central nervous system (CNS) and is known to control mainly physiological functions and behaviors. Its many functions that have been proposed are still in controversy. In this studies, we found that there are three groups of corazoninergic neurons in the larval CNS of the scuttle fly and these neurons undergo distinguishable changes through metamorphic process compared to different fly species. Larva has 3 pairs of Crz neurons at the dorsolateral area of the brain, 1 pair at the dorsomedial brain and 8 pairs at the ventral nerve cord.

• Advances in Traditional Medicine
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• v.6 no.1
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• pp.21-26
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• 2006

The ethanolic extract of Fleurya interrupta Gaud, (Urticaceae) was tested for its possible neuropharmacological effects on experimental animals, For the primary neuropharmacological screening of this plant, the ethanolic extract of its aerial parts was subjected to preliminary evaluation for acute toxicity, antinociceptive activity and central nervous system (CNS) activities. At the doses of 125 and 250 mg/kg, the extract significantly (P < 0.01 and P < 0. 001) and dose-dependently increased the frequency of acetic acid induced writhing in mice. In the pentobarbitone induced sleeping time test, the extract at the above dose levels, significantly and dose-dependently decreased the pentobarbitone induced sleeping time (P < 0.001) and increased the time for onset of sleep (P < 0.001) in mice. In the open field and hole cross tests, test animals showed an increase in their movement in the both tests from the 2nd observation period (30 min) and persisted throughout the entire experimental period (240 min). These results of the extract may attribute a stimulating action on the CNS. On the basis of these findings, it can be assumed that the extract exerts its stimulating effect on the CNS in mice by interfering with the cortical function or increasing the effect of some CNS stimulating neurotransmitters.

• Korean Journal of Psychosomatic Medicine
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• v.9 no.1
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• pp.81-92
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• 2001

Stress has been linked to the pathophysiology and pathogenesis of various psychiatric illnesses. Over the past few years, our understanding of the brain and neuroendocrine systems that are linked to stress responses has increased enormously. This article reviews a series of animal and human studies to understand what are the central pathways by which stress is perceived, processed, and transduced into a neuroendocrine response. We focus on the limbic-hypothalamic-pituitary-adrenal(LHPA) axis and several neurotransmitter systems such as norepinephrine, CRF, serotonin, acetylcholine, and dopamine. LHPA stress circuit is a complex system with multiple control mechanisms which are altered in pathological states. CRF and related peptides in the central nervous system appear to enhance behavioral responses to stressors. Norepinephrine systems are also activated by stressors and cause the release of catecholamines from the autonomic nervous system. CRF-norepinephrine interaction makes a feed-forward system which may be important for an organism to mobilize not only the pituitary system but also the central nervous system, in response to environmental challenges. The interactions among several neurotransmitters and endocrine systems appear to play key roles in mediating various behavioral and psychological stress responses involving abnormal responses to stressors such as anxiety and affective disorders.