• Korean Journal of Biological Psychiatry
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• v.8 no.1
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• pp.62-70
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• 2001

Alzheimer's disease(AD) is associated with a characteristic neuropathology. The major hallmarks of AD are senile plaques (SPs) and neurofibrillary tangles(NFTs). ${\beta}$-amyloid protein($A{\beta}$) is derived from the proteolysis of amyloid precursor protein(APP) and then converted to SPs. Mature SPs produce cytotoxicity through direct toxic effects and activation of microglia and complement. NFTs are composed of paired helical filaments(PHFs) including abnormally phosphorylated form of the microtubule-associated protein(MAP) tau and increased tau level in cerebrospinal fluid may be observed in most AD. The aggregation of $A{\beta}$ and tau formation are thought to be a final common pathway of AD. Acetylcholine, dopamine, serotonin, GABA and their receptors are associated with AD. Especially, decreased nicotinic acetylcholine receptors(nAChRs) in AD are reported. Genetic lesions associated with AD are mutations in the structural genes for the APP located on chromosome 21, presenilin(PSN)1 located on chromosome 14 and PSN2 located on chromosome 1. Also, trisomy 21, Apo-E gene located on chromosome 19, PMF locus, low density lipoprotein receptor-related protein and ${\alpha}$-macroglobulin increase risk of AD. In this article, we will review about the neurobiology of AD and some newly developed research areas.

• Korean Journal of Biological Psychiatry
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• v.23 no.3
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• pp.108-115
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• 2016

Aggression and aggressive behaviors, often explained as harmful social interaction with the intention of hurting or inflicting damage upon another, have been considered as an adaptive mechanism from the evolutionary psychological point of view. However, various studies on aggression and aggressive behaviors have been done with psychopathological approach as the extreme aggressive behaviors may harm themselves and others at the same time. Recently, researchers have attempted to explain aggression in terms of neurobiological substrates rather than based on traditional psychopathological and/or behavioral concept. In this regard, there have been findings of differences in neurotransmitters and their receptors, and genetic polymorphisms. In this review article, we provide a brief overview of the literature about seven most frequently reported neurotransmitters including neurohormones (serotonin, norepinephrine, dopamine, gamma-aminobutyric acid, nitric oxide, oxytocin and vasopressin) and an associated enzyme (monoamine oxidase A), which are known to be related with aggression and aggressive behaviors.

• Korean Journal of Biological Psychiatry
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• v.6 no.1
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• pp.74-80
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• 1999

This study was performed to investigate the mechanism of the clozapine-induced seizures in partially restrained rats by concomitant treatment with drugs affecting monoaminergic systems. Partially restrained rats treated with acute single doses of 10mg/kg clozapine exhibited myoclonic jerks (MJs). Drugs affecting the monoaminergic systems, including 2mg/kg haloperidol, 5mg/kg propranolol, 2mg/kg ritanserin, 20mg/kg fluoxetine, and 20mg/kg imipramine, were concomitantly treated with clozapine to observe the effects of these drugs on the MJs. The drugs were given intraperitoneally either as acute single doses(haloperidol, propranolol, ritanserin, and fluoxetine) or as chronic doses for 21days(haloperidol, imipramine, ritanserin, and fluoxetine). The effects of the concomitant treatment of other drugs on the clozapine-induced MJs were evaluated by comparison of the total numbers of the MJs between the clozapine-treated and concomitantly treated groups. The results were as follows. 1) Concomitant treatment with acute single doses of haloperidol, propranolol, and fluoxetine reduced the total numbers of the clozapine-induced MJs, while concomitant treatment with ritanserin did not. 2) Concomitant treatment with chronic doses of imipramine and ritanserin increased the total numbers of the MJs, while concomitant treatment with fluoxetine reduced them. Concomitant chronic treatment with haloperidol did not affect the numbers of the MJs. These results suggest that dopamine and serotonin, not noradrenalin may be involved in the clozapine-induced MJs in partially restrained rats. Future research needs to study the function of each subtype of monoaminergic receptors on the mechanism of the clozapine-induced seizure.