| Home | E-Submission | Sitemap | Editorial Office |  
top_img
Journal of Korean Neurosurgical Society 1997;26(10): 1342-1350.
Effect of Trolox, Cycloheximide or MK-801 on the Neuronal Cell Death Induced by FeCl2, Buthionine Sulfoximine or KCN in Primary Murine Mixed Cortical Cell Culture.
In Hwan Kim, Jung Gil Lee, Tae Sun Kim, Shin Jung, Jae Hyoo Kim, Soo Han Kim, Sam Suk Kang, Je Hyuk Lee, Kuy Sook Lee, Jong Keun Kim
1Department of Neurosurgery, Chonnam University, Medical School, Kwangju, Korea.
2Department of Pharmacology, Chonnam University, Medical School, Kwangju, Korea.
3Department of Chonnam National University Research Institute of Medical Sciences, Chonnam University, Medical School, Kwangju, Korea.
ABSTRACT
Oxidative stress is known to be a major neuropathologic mechanism in chronic neurodegenerative disorders as well as in stroke, trauma and epilepsy, and many kinds of oxidative insults induce neuronal injury. The purpose of this study was to examine the temporal effects of trolox(TLX; water and lipid soluble vitamin E analog), cycloheximide(CHX; protein synthesis inhibitor) and MK-801(NMDA receptor antagonist) on neuronal death indu-ced by different kinds of oxidative insults in primary murine mixed cortical cell culture(14-16 days in vitro), and to gain information on the mechanisms underlying oxidative cell death. As oxidative insults, the authors used iron(FeCl2), buth-ionine sulfoximine(BSO; glutathione depletor) and potassium cyanide(KCN; ATP depletor). Cell death was assessed by measurement of LDH efflux to bathing media at the end of exposure. All three agents induced neuronal cell death associated with cell body swelling. FeCl2(30nM-1mM) induced conce-ntration- and exposure time-dependent neurotoxicity, while BSO(10nM-3mM) showed little neurotoxicity at the end of 24 hrs exposure, but marked neuronal cell death at the end of 48 hrs; at concentrations of over 100uM of BSO neurotoxicity reached a plateau. KCN(0.1mM-1mM) also showed dose-dependent neurotoxicity. TLX(100nM) did not affect the neurotoxicity induced by KCN(1mM) but almost completely block BSO(1mM)- or FeCl2(100, 300nM)- induced neuronal cell death. CHX(1ng/ml) significantly attenuated BSO-induced cell death but did not protect against KCN(1mM)-induced cell death. CHX treatment, on the other hand, significantly potentiated FeCl2(100 or 300nM)-induced death. MK-801(10nM) markedly inhibited KCN-induced cell death but had no effect on FeCl2-induced death. MK-801 also significantly attenuated BSO-induced neurotoxicty after exposure for 48hrs but this protective effect disappeared at the end of 72hr. These results suggest that protein synthesis as well as lipid peroxidation of cell membrane may involve oxidative neuronal injury and that one oxidative agent may induce various cell death processes.
Key Words: Oxidative stress; Murine cerebral cortical cell culture; Neuronal death
TOOLS
Full text via DOI  Full text via DOI
Download Citation  Download Citation
Share:      
METRICS
1,220
View
22
Download
Related article
Effect of Vasoactive Intestinal Peptide on the Necrotic or Apoptotic Neuronal Death in Murine Cortical Cell Cultures.  1999 October;28(10)
Editorial Office
1F, 18, Heolleung-ro 569-gil, Gangnam-gu, Seoul, Republic of Korea
TEL: +82-2-525-7552   FAX: +82-2-525-7554   E-mail: kns61@neurosurgery.or.kr
About |  Browse Articles |  Current Issue |  For Authors and Reviewers
Copyright © Korean Neurosurgical Society.                 Developed in M2PI
Close layer