Abstract:OBJECTIVE: To study the relationship between calmodulin (CaM) concentrations in brain tissues of newborn rats and the pathogenesis of hypoxicischemic encephalopathy (HIE) and the therapeutic effect of cerebrolysin on HIE. METHODS: Morphological and metabolic effects of cerebral ischemia were investigated in a newborn rat model of neonatal HIE. In addition, the effect of cerebrolysin (EBEWE, Austria) on acute brain hypoxicischemia was studied. Eighty eight HIE newborn rats (48 cerebrolysintreated and 40 controls) were subjected to left cerebral artery ligation and one hour later they were placed in a hypoxic environment (8% oxygen and 92% nitrogen mixed) for two hours. Immediately afterwards, cerebrolysin (2.5 ml/kg body mass) was administered daily, either by intracerebroventricular infusion (i.c.v) or by intramuscular injection. CaM concentrations were determined using cyclicnucleotide dependent phosphodiesterase methods, and 15 normal rats were used as the control group. RESULTS: CaM concentrations in brain tissues increased in HIE group at different duration after hypoxicischemia: 24 h=(521.27±46.04) μg/g brain tissue; 48 h=(509.52±35.98) μg/g brain tissue; 72 h=(421.05±31.81) μg/g brain tissue, compared to the control group [(187.63±54.22) μg/g brain tissue] (P<0.01). Cerebrolysin treatment groups facilitated recovery, as indicated by a decrease in CaM concentration (i.c.v group: 24 h=(435.21±56.17) μg/g brain tissue; 48 h=(260.38±32.43) μg/g brain tissue; 72 h=(197.64±19.21) μg/g brain tissue; i.m.group: 24 h=(441.04±30.66) μg/g brain tissue; 48 h=(305.39±32.99) μg/g brain tissue; 72 h=(217.71±52.89) μg/g brain tissue (P<0.01). Morphological examination showed that the volume of neuron degeneration, necrosis and intercellular edema was increased in HIE groups and significantly reduced in cerebrolysin treatment groups. CONCLUSIONS: CaM concentration in brain tissues is increased after hypoxicischemic injury and may be implicated in the pathogenesis of newborn rats with HIE. Cerebrolysin is effective in protecting brain cells from further damage through its influence on cerebral CaM concentration.
LIU Jian-Ping,ZHANG Guo-Cheng,XU Dong-Liang. Calmodulin in Brain Tissues of Newborn Rats with Hypoxic Ischemic Encephalopathy and the Therapeutic Effect of Cerebrolysin[J]. CJCP, 2001, 3(3): 243-245.
