An easy and effective way to produce experimental oxygen-glucose deprivation in cultured neurons
- VernacularTitle:制备神经细胞实验性缺氧缺糖模型的简易方法
- Author:
Min DENG
;
Xiaodong JU
;
Nan ZHANG
;
Yun ZHANG
;
Lu TANG
;
Dongsheng FAN
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2009;13(7):1393-1396
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: Oxygen-glucose depdvation (OGD) in cultured neurons simulates stroke to a certain degree and plays an important role in studying processing and pathophysiological mechanism of ischemic neuronal injury.OBJECTIVE: To produce experimental OGD models in cultured neurons.DESIGN, TIME AND SETTING: A grouping controlled study was performed at the Center Laboratory of Third Hospital, Peking University from January 2007 to March 2008.MATERIALS: Fetal Wistar rats with gestational age of 17-19 days were collected in this study.METHODS: Primary cultures of cortical neurons that were derived from fetal Wistar rats with gestational age of 17-19 days were performed to remove pollutional non-neuronal cells. OGD was produced by incubation with non-glucose balanced salt solution and 2% Oxyrasa in 7-day cultured cortical neuron cultures. Cell cultures were kept in a humidified 37 ℃ incubator. In the control group, cell culture medium was replaced with balanced salt solution containing 20 mmol/L glucose. In the sham operation group,balanced salt solution containing 20 mmol/L glucose and Oxyrasawere used to replace the medium.MAIN OUTCOME MEASURES: Oxygen concentration in the culture medium was measured with blood gas analysis; neuronal death in the experimental group was observed under phase contrast microscope; lactate dehydrogenase activity was detected with lactate dehydrogenasa assay; effect of oxygen-glucose deprivation on neuronal viability was observed with trypan blue staining.RESULTS: Measurement of oxygen concentration showed that hypoxia could be quickly achieved shortly after the addition of Oxyrase; lactate dehydrogenase assay revealed that after treatments of neuron cultures with Oxyrase and non-glucose balanced salt solution, lactate dehydrogenase release increased significantly with the treatment time; trypan blue staining and phase contrast microscope showed that cell viability decreased after treatments of Oxyrase and non-glucose balanced salt solution, and most neurons died 6 hours after OGD.CONCLUSION: These results show that Oxyrase, together with non-glucose balanced salt solution, can be conveniently used to produce OGD condition in cultured neuronal cells which is greatly useful in the study of simulating cerebral ischemia in vitro.
