糖尿病期间视网膜神经胶质细胞对谷氨酸的摄取

Glutamate uptake in retinal glial cells during diabetes.

作者信息

Ward M M, Jobling A I, Kalloniatis M, Fletcher E L

机构信息

Department of Anatomy and Cell Biology, The University of Melbourne, Grattan St, Parkville, 3010 Victoria, Australia.

出版信息

Diabetologia. 2005 Feb;48(2):351-60. doi: 10.1007/s00125-004-1639-5. Epub 2005 Feb 2.

DOI:10.1007/s00125-004-1639-5

PMID:15688208

Abstract

AIMS

Glutamate recycling is a major function of retinal Muller cells. The aim of this study was to evaluate the expression and function of glutamate transporters during diabetes.

METHODS

Sprague-Dawley rats were rendered diabetic by a single dose of streptozotocin (50 mg/kg). Following 12 weeks of diabetes, immunolocalisation and mRNA expression of the two glial cell transporters, GLAST and EAAT4 were evaluated using indirect immunofluorescence and real-time PCR. The function of glutamate transport was investigated at 1, 4 and 12 weeks following induction of diabetes by measuring the level of uptake of the non-metabolisable glutamate analogue, D: -aspartate, into Muller cells.

RESULTS

There was no difference in the localisation of either GLAST or EAAT4 during diabetes. Although there was a small apparent increase in expression of both GLAST and EAAT4 in diabetic retinae compared with controls this was not statistically significant. At 1, 4 and 12 weeks following diabetes, D: -aspartate immunoreactivity was significantly increased in Muller cells of diabetic rats compared to controls (p<0.001). The EC(50) was found to increase by 0.304 log units in diabetic Muller cells compared with controls, suggesting that glutamate uptake is twice as efficient.

CONCLUSIONS

These data suggest that there are alterations in glutamate transport during diabetes. However, these changes are unlikely to play a significant role in glutamate-induced neuronal excitoxicity during diabetes. These results suggest that although Muller cells undergo gliosis at an early stage of diabetes, one of the most important functions for maintaining normal retinal function is preserved within the retina.

摘要

目的

谷氨酸再循环是视网膜Muller细胞的一项主要功能。本研究旨在评估糖尿病期间谷氨酸转运体的表达及功能。

方法

通过单剂量链脲佐菌素（50 mg/kg）使Sprague-Dawley大鼠患糖尿病。糖尿病12周后，采用间接免疫荧光和实时PCR评估两种神经胶质细胞转运体GLAST和EAAT4的免疫定位及mRNA表达。在糖尿病诱导后的1、4和12周，通过测量不可代谢的谷氨酸类似物D-天冬氨酸进入Muller细胞的摄取水平，研究谷氨酸转运功能。

结果

糖尿病期间GLAST或EAAT4的定位均无差异。虽然与对照组相比，糖尿病视网膜中GLAST和EAAT4的表达均有小幅明显增加，但无统计学意义。糖尿病后1、4和12周，与对照组相比，糖尿病大鼠Muller细胞中D-天冬氨酸免疫反应性显著增加（p<0.001）。与对照组相比，糖尿病Muller细胞的半数有效浓度（EC50）增加了0.304对数单位，表明谷氨酸摄取效率提高了两倍。

结论

这些数据表明糖尿病期间谷氨酸转运存在改变。然而，这些变化不太可能在糖尿病期间谷氨酸诱导的神经元兴奋毒性中起重要作用。这些结果表明，尽管Muller细胞在糖尿病早期会发生胶质增生，但维持正常视网膜功能的最重要功能之一在视网膜内得以保留。

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糖尿病期间视网膜神经胶质细胞对谷氨酸的摄取

Glutamate uptake in retinal glial cells during diabetes.

作者信息

机构信息

出版信息

AIMS

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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