Green Tea Polyphenol (–)-Epigallocatechin Gallate Reduces Neuronal Cell Damage and Up-Regulation of MMP-9 Activity in Hippocampal CA1 and CA2 Areas Following Transient Global Cerebral Ischemia
- Author(s)
- Jong-Wan Park; Young-Ho Jang; Jin-Mo Kim; Hyung Lee; Weon-Kyun Park; Man-Bin Lim; Yeun-Kyung Chu; Eng H. Lo; Seong-Ryong Lee
- Keimyung Author(s)
- Lee, Hyung; Park, Won Kyun; Yim, Man Bin; Lee, Seong Ryong; Jang, Young Ho; Kim, Jin Mo
- Department
- Dept. of Pharmacology (약리학)
Dept. of Anesthesiology & Pain Medicine (마취통증의학)
Dept. of Neurosurgery (신경외과학)
Dept. of Medical Education (의학교육학)
Dept. of Neurology (신경과학)
Brain Research Institute (뇌연구소)
- Journal Title
- Journal of Neuroscience Research
- Issued Date
- 2009
- Volume
- 87
- Issue
- 2
- Keyword
- global cerebral ischemia; hippocampus; matrix metalloproteinase; green tea
- Abstract
- Previous studies have demonstrated that (–)-epigallocatechin
gallate (EGCG), a green tea polyphenol, protects
against ischemia and reperfusion-induced injury in many
organ systems. Here, we test the hypothesis that part of
EGCG’s neuroprotective effects may involve a modulation
of matrix metalloproteinases (MMPs) after cerebral
ischemia. C57BL/6 mice were subjected to 20 min of
transient global cerebral ischemia. EGCG (50 mg/kg) or
vehicle (saline) was administered i.p. immediately after
ischemia. Brains were examined 3 days after ischemia.
The effects of EGCG on MMP (gelatinase) activity and
neuronal damage in the hippocampus were assessed.
Gelatin gel zymography showed induction of active
forms of MMP-9 protein after transient global cerebral ischemia.
In situ zymography showed that ischemic gelatinase
activity occurred primarily in pyramidal neuronal
areas after brain ischemia. Mice treated with EGCG
showed significantly reduced gelatinase levels. Neuronal
damage was evident in CA1 and CA2 pyramidal sectors,
corresponding to TUNEL-positive signals. In EGCGtreated
mice, delayed neuronal damage was significantly
reduced compared with vehicle-treated mice. These
results demonstrate that the green tea polyphenol EGCG
suppresses MMP-9 activation and reduces the development
of delayed neuronal death after transient global
cerebral ischemia in mouse brain.
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