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Distribution and Expression of Kainate(KA) Receptor Subunits in Moderate Hypoxic Newborn Piglet Brain
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Original Article
Journal of the Korean Pediatric Society 1999;42(12):1651-1660.
Published online December 15, 1999.
Distribution and Expression of Kainate(KA) Receptor Subunits in Moderate Hypoxic Newborn Piglet Brain
Chun Hyuk Chang, Woo Taek Kim
Department of Pediatrics, Dongguk University M edical College, Kyungju, Korea
신생 자돈 뇌에서 중등도 저산소증에 의한 Kainate(KA) 수용체 아단위의 분포와 발현
장준혁, 김우택
동국대학교 의과대학 소아과학교실
Correspondence: 
Chun Hyuk Chang, Email: 1
Abstract
Purpose
: The mechanism of hypoxic damage is mainly intracellular influx of calcium ions through the glutamate ionotropic receptor. This study was performed to determine alterations in distribution and expression of kainate receptor subunits after 1 hour of moderate hypoxia in the newborn piglet brain, as in a condition of mild to moderate perinatal hypoxic-ischemic encephalopathy.
Methods
: Ten newborn piglets were ventilated at PaO2 over 80mmHg for 30min. Thereafter, the control group(n=5) was ventilated with 21% oxygen, and hypoxic group(n=5) with 6% oxygen at PaO2 below 25mmHg for 1 hour. Concentrations of protein, ATP and phosphocreatine were determined. The proteins were immunostained with anti-rat GluR6/7 and anti-rat KA2 antibody.
Results
: Hypoxia(PaO2 20±1mmHg) and acidosis(pH 7.06±0.09) developed significantly in the hypoxic group compared to the control group(PaO2 104±4mmHg, pH 7.44±0.03, respectively, P < 0.01). The concentrations of ATP(2.84±1.28μmol/kg brain, P < 0.05) and phosphocreatine(0.78±1.07 μmol/kg brain, P <0.001) were reduced compared to the control group(5.04±0.25μmol/kg brain, 4.03±0.31μmol/kg brain, respectively). The protein contents of GluR6/7 subunits were ordered; cerebral cortex> hippocampus, thalamus, hypothalamus> basal ganglia, cerebellum> white matter, and KA2 subunits were ordered : hippocampus, basal ganglia> cerebral cortex> thalamus, cerebellum>hypothalamus, white matter. The distribution of the subunits between the hypoxic group and control group were similar.
Conclusion
: Cerebral cortex, hippocampus and basal ganglia may be the most vulnerable to excitotoxic injury. Kainate receptor subunits did not change after 1 hour of moderate hypoxia.
Key Words: Glutamate, Kainate receptor subunit, Moderate hypoxia, In vivo


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