선행연구에서 본 연구자는 IEX-1 단백질이 난소 암세포에서 세포사멸(apoptosis)을 유도하는 기능을 수행함을 확인하였으나, 세포사멸과 세포생존의 여러 단계에서 어떠한 신호전달 체계로 IEX-1이 작용하는지는 정확히 알지 못하고 있다. 따라서 IEX-1 단백질과 결합하는 새로운 단백질을 찾기 위해 yeast two-hybrid system을 이용하였다. 그 결과 IEX-1이 여러 다양한 인간 암 세포에서 세포사멸을 유도하는 CATHEPSIN B 단

Ethanol treatment during the brain growth spurt period has been known to induce the death of Purkinje cells. The underlying molecular mechanisms and the role of reactive oxygen species (ROS) in triggering ethanol-induced Purkinje cell death are, however, largely unresolved. We undertook TUNEL staining, western blotting assay and immunohistochemistry for the cleaved forms of caspase-3 and -9, with calbindin D28K double immunostaining to identify apoptotic Purkinje cells. The possibility of ROS-induced Purkinje cell death was immunohistochemically determined by using anti-8-hydroxy-2'deoxyguanosine (8-OHdG), a specific cellular marker for oxidative damage. The results show that Purkinje cell death of PD 5 rat cerebellum following ethanol administration is mediated by the activation of caspase-3 and -9. However, unexpectedly, TUNEL staining did not reveal any positive Purkinje cells while there were some TUNEL-positive cells in the internal and external granular layer. 8-OHdG was detected in the Purkinje cell layers at 8 h, peaked at 12-24 h, but not at 30 h post-ethanol treatment. No 8-0HdG immunoreactive cells were detected in the internal and external granular layer. The lobule specific 8-OHdG staining patterns following ethanol exposure are consistent with that of ethanol-induced Purkinje cell loss. Thus, we suggest that ethanol-induced Purkinje cell death may not occur by the classical apoptotic pathway and oxidative damage is involved in ethanol-induced Purkinje cell death in the developing cerebellum.

Cerebral ischemia results from a transient or permanent reduction in cerebral blood flow that decreases oxygen and glucose supply. When the cellular oxygen supply is reduced to critical level, damage to cells and induction of cell death are occurred by excitotoxicity, oxidative stress and inflammation. Ischemia remains one of the leading causes of death, but there is no effective treatment that might protect neurons gainst ischemia by interrupting the cascade of cell death. In this study, human neuroblastoma SH-SY5Y cells are exposed to oxygen and glucose deprivation (OGD) followed by reoxgenation. OGD can mimic the acute restriction of metabolite and oxygen supply caused by ischemia and is widely used as a model of ischemic conditions. SH-SY5Y cells are treated samples at the commencement of OGD to achieve different final concentrations, and cell viabilities were quantified using the measurement of flow cytometry analysis. Of those tested, the extracts of Polygala tenuifolia (roots), Dictamnus dasycarpus (barks), Polygala tenuifolia (roots), Eucommia ulmoides (branches), Eucommia ulmoides (barks), Poria cocos (whole), Sophora flavescens (roots) showed neuroprotective effects, with EC50 values of 4.5±0.6, 7.9±1.5, 10.5±0.7, 18.4±1.9, 19.6±0.3, 21.6±1.9, and 30.7±3.9μg/ml, respectively.

This study investigated the protective roles and mechanism of magnolol, from the stem bark of Magnolia officinalis against potential neurotoxin 3-hydroxykynurenine (3-HK)-induced neuronal cell death. For the evaluation of protective role of magnolol, we examined cell viability, apoptotic nuclei, change of mitochondrial membrane potential and caspase activity in human neuroblastoma SH-SY5Y cells. It was found that 3-HK induces neuronal cell death in the human neuroblastoma SH-SY5Y cell line. The reduced cell viability produced characteristic features such as cell shrinkages, plasma membrane blebbing, chromatin condensation, and nuclear fragmentation. The cells treated with 3-HK showed an increase in the concentration of reactive oxygen species (ROS) as well as in caspase activity. In addition, both are involved in the 3-HK-induced apoptosis. Magnolol attenuated the cell viability reduction by 3-HK in both a dose- and time-dependent manner. Optical microscopy showed that magnolol inhibited the cell morphological features in the 3-HK-treated cells. Furthermore, the increase in the ROS concentration and the caspase activities by 3-HK were also attenuated by magnolol. These results showed that magnolol has a protective effect on the 3-HK induced cell death by inhibiting ROS production and caspase activity.

Iris nertschinsk has been used generally as a decorative plant. However, it has been almost used as a medicine for therapy on various human diseases. In this study, we demonstrate the anti-tumor effect of Iris nertschinsk on human breast cancer cells. Firstly, we found that Iris nertschinsk dose-dependently induced cell death in human breast cancer cell lines, MCF7 and MDA-MB231. Moreover, phosphorylation of p53 was induced after Iris nertschinsk treatment in MCF7 cells, which has a functional p53, but not in MDA-MB231 cells, which has a dysfunctional p53. We next examined whether Iris nertschinsk induces caspase-dependent cell death. Caspase-7 was cleaved after Iris nertschinsk treatment in MCF7 cells. Interestingly, either caspase-3 or caspase-7 was cleaved in MDA-MB231 cells that p53 had been phosphorylated by Iris nertschinsk treatment, indicating that Iris nertschinsk induces apoptosis through the cleavage of caspase-3, -7 in human breast cancer cell lines, MCF7 and MDA-MB231, but related to the status of p53. Therefore, these results suggest that Iris nertschinsk could be used as a treatment for human breast cancer. This research is supported by National Institute of Agricultural Biotechnology research grant.

배아줄기세포는 다양한 분화 유도 방법을 통해 신경계세포로 분화시킬 수 있을 뿐만 아니라, 보다 더 엄격한 선발조건을 적용함으로써 특정 종류의 신경세포만을 확보할 수도 있게 되었다. 세포사멸연구를 포함한 신경생리학적 연구의 대상으로써 중요한 요건은 이렇게 확보한 배아줄기세포 유래의 신경계세포들이 정상적인 신경생리학적 특성을 갖고 있어야 하며, 동시에 그런 신경생리학적 특성이 체외에서 일정기간 동안 이상 자연적인 세포사멸없이 유지되어야 한다는 것이다. 생쥐

Amyloid 에 의해 유도되는 세포사멸을 보호하는 물질을 검색하기 위하여 250여 식물 재료 및 식품성분으로부터 스크리닝한 결과 가장 효과가 있는 시금치 추출물을 이용하여 뇌신경세포사멸(neuronal cell death)을 어느 정도 보호할 수 있는지를 알아보았다. 시금치 추출물이 항산화 활성과 acetylcholinesterase 활성에 대한 저해효과는 시금치 추출물 처리농도가 높을수록 유의적으로 높게 나타났다. 과산화수소와 amyloid

퇴행성 뇌질환의 하나인 알츠하이머는 가벼운 기억력의 장애에서부터 전반적인 인지기능의 장애를 나타내는 질환으로 해마 (hippocampus)를 포함한 신경세포에서 세포사와 관련이 있는 것으로 보고 되어왔다. AP의 자체 독성과 산화 스트레스, plaque에서 나오는 free radical은 세포내 를 높이고 이로 인해 calpain이 활성화되어 신경 세포사가 촉진되며 microtubule과 같은 cytoskeleton을 파괴시킨다. 이러한 ROS

본 연구에서는 자연세포사 (apoptosis)를 유발시키는 것으로 알려진 ceramide를 배양중인 생쥐 과립세포에 처리한 뒤 형광염색, in-situ 3'-end labeling(ISEL), 그리고 flow cytometry 기법을 이용하여, 자연세포사 및 세포주기에 미치는 ceramide의 영향을 조사하였다. Ceramide를 처리하지 않은 대조군에 비하여, ceramide를 처리한 실험군에서 세로의 생존율은 농도에 비레하여 유의하게 감소하였다. 또