• Neonatal Medicine
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• 제17권2호
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• pp.181-192
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• 2010

목적: 비경쟁적 NMDA 길항제인 dizocilpine (MK-801)는 저산소성 허혈성 뇌병증, 외상성 뇌손상, 흥분독성과 같은 신경 질환의 동물 모델에서 보호 효과가 있다고 발표되고 있지만 주산기 가사로 인한 저산소성 허혈성 뇌병증의 치료제로서 그 기전이 명확하게 밝혀지지 않았다. 저자들은 dizocilpine을 이용하여 주산기 저산소성 허혈성 뇌병증의 치료제로서 항 세포사멸사을 통한 기전을 알아보고자 하였다. 방법: 생체외 실험으로 재태기간 19일된 태아 흰쥐의 대뇌피질 세포를 배양하여 3군(정상산소군, 저산소군, 뇌손상 전dizocilpine 투여군)으로 나누었다. 정상산소군은 5% $CO_2$ 배양기(95% air, 5% $CO_2$)에 두었고, 저산소군과 뇌손상 전 dizocilpine 투여군($10{\mu}g/mL$)은 1% $O_2$ 배양기(94% $N_2$, 5% CO2)에서 16시간 동안 뇌세포손상을 유도하였다. 생체내 실험으로 저산소성 허혈성 뇌병증의 동물 모델에서는 생후 7일된 신생백서의 좌측 총 경동맥을 결찰한 후 6개 군(정상산소군, 수술 없이 저산소군, sham 수술 후 저산소군, 수술 후 저산소군, vehicle 투여후 저산소군, dizocilpine 투여 후 저산소군)으로 나누었고, 저산소 손상은 특별히 제작한 통속에서 2시간 동안 8% $O_2$에 노출시켰다. Dizocilpine은 뇌손상 전후 30분에 체중 kg당 10 mg를 투여하였고, 저산소 손상 후 7일째 조직을 실험하였다. 생체외 내 실험 모두 세포사멸사와 관련된 Bcl-2, Bax, caspase-3항체와 primer를 이용하여 western blots과 실시간 중합효소연쇄반응을 실시하였다. 결과: 세포사멸사와 관련된 생체외 내 실험에서 Bcl-2의 발현은 저산소군에서 정상산소군보다 감소하였으나 dizocilpine 투여군에서 저산소군보다 증가하였다. 그러나 Bax와 caspase-3 발현 및 Bax/Bcl-2의 비는 반대로 표현되었다. 결론: 본 연구에서 dizocilpine은 항 세포사멸사를 통하여 주산기 저산소성 허혈성 뇌손상에서 신경보호 역할을 하는 것을 알 수 있었다.

• Biomolecules & Therapeutics
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• 제4권2호
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• pp.167-173
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• 1996

This study was undertaken to evaluate a behavior-electroencephalogram (EEG) pattern relationship in pilocarpine- and kainic acid-induced convulsions of rats. Also we intended to examine the effect of a noncompetitive N-methyl-D-aspartate (NMDA) receptor antagonist, MK-801, and diazepam on the pilocarpine-induced behavioral and electrical seizures in rats. The electrical activities at frontal and hippocampal areas and behavior activities were measured in freely moving rats. At the beginning of the experiments, the rats displayed an exploratory behavior. This awake and moving phase with a low amplitude, irregular, 4-10 Hz wave was followed by a still phase. Pilocarpine (400 mg/kg, i.p.) and kainic acid (0.5 mg/kg, i.c.v.) induced tonic and clonic seizures. The pilocarpine-induced change in electrical activities exhibited a weak correlation with behavioral convulsion at all stages. The amplitude and duration of the electrical response were not linear with the degree of behavioral score. An application of MK-801 (dizocilpine, 7.5 mg/kg) did not affect the amplitudes of the convulsant-induced electrical activities, though the same dose of this drug caused the deformation of the electrical pattern. There was no effect of MK-801 on the behavioral and electrical activities as expected. Diazepam (1 mg/kg) did not affect the amplitude of the electrical activities induced by pilocarpine but changed the pattern of these activities. Our study shows that there is no linear relationship between degree of behavior and amplitude of electrical activities of convulsants. This may indicate that the NMDA receptor stimulation can be processed by the neocortical or hippocampal network in a different way between behavioral and electrical activities.

• Biomolecules & Therapeutics
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• 제5권1호
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• pp.36-42
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• 1997

To investigate effects of ginseng total saponin (GTS) on the ethylcholine aziridnium ion (AF64A) -induced glutamatergic nervous system, rats were pretreated with the infusion of AF64A (3 nmole) into lateral ventricle and were posttreated with 50 mg/kg of GTS, i.p., for 1 week. Twenty four hours after the last administration, rats were sacrificed and the levels of glutamate and taurine, [$^3$H]dizocilpine ([$^3$H]MK801) binding sites and glutamine synthetase activity were assessed in striatum, hippocampus and frontal cortex. The levels of striatal glutamate after GTS treatment in rats were decreased. And the levels of glutamate were decreased in striatum and frontal cortex and increased in hippocampus by the infusion of AF64A. However, the AF64A-induced changes of glutamate were returned to the control level by the administration of GTS in striatum, frontal cortex and hippocampus. After the infusion of AF64A, the level of taurine was decreased in striatum and increased in hippocampus. GTS administrations in the AF64A-treated rats restored to the control level of taurine in the decreased striatal level of taurine, but not in the elevated level of hippocampal taurine. The specific [$^3$H]MK801 binding sites in hippocampus was significantly decreased but not in striatum and frontal cortex after the administration of AF64A. Although GTS itself did not affect the specific [$^3$H]MK801 binding sites, GTS administrations in the AF64A-treated rats did decrease the binding sites of (\`H)Mk801 in all examined regions. The activities of striatal glutamine synthetase were decreased after GTS treatment. The activities of striatal glutamine synthetase (GS) were decreased in AF64A-treated groups. However, the decreased striatal GS activities by AF64A were returned to the control level by GTS treatment. Furthermore, GTS administrations in the AF64A-treated rats increased the hippocampal GS activities. The results indicatethat GTS may adjust the levels of glutamate and taurine constantly and may induce increase in AF64A-induced decrease of GS activity. Thus, it suggests that GTS may antagonize changes in central glutamatergic nervous system induced by AF64A. Also it suggests that the actions of GTS may differently affect in the disease state.