Effects of discoidin domain receptor1 mediated phosphorylation of protein Tau on hypoxic-ischemic brain damage in neonatal rats / 中华围产医学杂志
Chinese Journal of Perinatal Medicine
; (12): 433-438, 2017.
Article
em Zh
| WPRIM
| ID: wpr-620696
Biblioteca responsável:
WPRO
ABSTRACT
Objective To study the effects of discoidin domain receptor 1 (DDR1) mediated phosphorylation of protein Tau on hypoxic-ischemic brain damage (HIBD) in neonatal rats and its possible mechanism.Methods Sixty-four seven-day-old male specific-pathogen-free Wistar rats were randomly divided into four groups with sixteen in each: Sham, HIBD, HIBD with normal saline (HIBD+NS) and HIBD with DDR1 inhibitor (HIBD+DI) groups. A rat model of HIBD was established by subjecting the rats to left common carotid artery ligation, followed by exposing them to hypoxia for two hours. In HIBD+DI group, the inhibitor of DDR1 was immediately injected into lateral cerebroventricles of the rats following modeling. Forty-eight hours after injection, tissues of left cerebral cortex were collected from each rat to evaluate histopathological changes with HE staining. Western-blotting was used to assess the phosphorylation levels of DDR1 and protein Tau. Enzyme-linked immunosorbent assay was performed to detect the concentrations of acetylcholine. Analysis of variance ort test were used for statistical analysis.Results (1) Damages in cerebral cortex: Percentages of abnormal neurons in the rats of HIBD group were higher than those in Sham group [(80.28±4.51)% vs (10.40±2.17)%,t=39.491,P<0.01]. Pyknotic or necrotic neurons in the rats of HIBD+DI group were less than those in HIBD+NS group [(31.91±3.05)% vs (82.01±7.20)%,t=18.123,P<0.01]. (2) Phosphorylation of DDR1 and protein Tau: Levels of phosphorylated DDR1 in the cerebral cortexes of rats in HIBD group were higher than those in Sham group (0.922±0.199 vs 0.095±0.023,t=10.379,P<0.01), and those levels in HIBD+NS group were higher than those in HIBD+DI group (1.200±0.171 vs 0.255±0.111,t=11.901, P<0.01). The phosphorylation of protein Tau was similar to that of DDR1 (0.919±0.228 vs 0.194±0.224 in HIBD and Sham groups,t=7.347; 1.100±0.167 vs 0.291±0.210 in HIBD+NS and HIBD+DI groups,t=9.447;bothP<0.01). (3) Levels of acetylcholine: Levels of acetylcholine in cerebral cortexes of rats in HIBD group were lower than those in Sham group [(3.685±0.472) vs (7.429±0.861) ng/g protein,t=10.781,P<0.01], and that levels in HIBD+DI group were higher than those in HIBD+NS group [(7.058±0.915) vs (2.521±0.723) ng/g protein,t=10.989,P<0.01].Conclusions Activation of DDR1 plays a key role in enhancing the phosphorylation of protein Tau and in reducing the secretion of acetylcholine in cerebral cortexes of rats with HIBD. Inhibitor of DDR1 could protect neonatal rats from HIBD through the decreasing of protein Tau phosphorylation and increasing of acetylcholine release by inhibiting the activation of DDR1.
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Base de dados:
WPRIM
Idioma:
Zh
Ano de publicação:
2017
Tipo de documento:
Article