Role of brain-derived neurotrophic factor in hypoxia-induced fetal cortical neurons

Sheng-fu Li
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Abstract

Objectives To observe the role of brain derived neurotrophic factor (BDNF) in hypoxia induced cortical neurons to provide new laboratory evidence for further application of BDNF in clinical practice. Methods The survival rates of cultural fetal cortical neurons were tested and the influence of adding BDNF to the culture medium on survival rates was observed though trypanblue dye; the activity of the cortical neurons was detected using MTT. Results We observed that BDNF could protect the cortical neurons from hypoxia induced neurotoxicity by preincubating the neurons before 24 hours with BDNF and adding BDNF to the cultured neurons just before exposing them to hypoxic cultural environment.The survival rate of the cortical neurons was significantly reduced after exposing to hypoxia environment, while pre incubation of the cortical neurons with BDNF before 24hr and just before exposing to hypoxia showed much higher survival rates than that of the control group in terms of preventing hypoxia neurotoxicity. So this protection was time dependent.Conclusions In vitro, BDNF plays an important role in preventing cortical neurons from hypoxia induced neurotoxicity.
脑源性神经营养因子在缺氧诱导的胎儿皮质神经元中的作用
目的观察脑源性神经营养因子(BDNF)在缺氧皮质神经元中的作用,为BDNF在临床中的进一步应用提供新的实验依据。方法检测培养胎皮质神经元的存活率,并通过锥虫蓝染色观察在培养液中添加BDNF对存活率的影响;MTT法检测皮质神经元的活动。结果BDNF对缺氧诱导的皮质神经元具有一定的保护作用,在缺氧培养前24小时用BDNF预孵育神经元,并在缺氧培养前加入BDNF。缺氧后皮质神经元的存活率明显降低,而在缺氧前和缺氧前用BDNF预孵育的皮质神经元在预防缺氧神经毒性方面的存活率明显高于对照组。所以这个保护是时间相关的。结论BDNF在体外抑制皮层神经元缺氧引起的神经毒性中起重要作用。
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