视网膜神经节细胞中系统N谷氨酰胺转运体（SN1/SN2或SNAT3/SNAT5）的表达及功能

Expression and function of system N glutamine transporters (SN1/SN2 or SNAT3/SNAT5) in retinal ganglion cells.

作者信息

Umapathy Nagavedi S, Dun Ying, Martin Pamela M, Duplantier Jennifer N, Roon Penny, Prasad Puttur, Smith Sylvia B, Ganapathy Vadivel

机构信息

Department of Biochemistry and Molecular Biology, Medical College of Georgia, Augusta, Georgia 30912, USA.

出版信息

Invest Ophthalmol Vis Sci. 2008 Nov;49(11):5151-60. doi: 10.1167/iovs.08-2245. Epub 2008 Aug 8.

DOI:10.1167/iovs.08-2245

PMID:18689705

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2586300/

Abstract

PURPOSE

Glutamine transport is essential for the glutamate-glutamine cycle, which occurs between neurons and glia. System N, consisting of SN1 (SNAT3) and SN2 (SNAT5), is the principal mediator of glutamine transport in retinal Müller cells. Mediators of glutamine transport in retinal ganglion cells were investigated.

METHODS

The relative contributions of various transport systems for glutamine uptake (systems N, A, L, y+L, ASCT, and ATB(0,+)) were examined in RGC-5 cells based on differential features of the individual transport systems. mRNA for the genes encoding members of these transport systems were analyzed by RT-PCR. Based on these data, SN1 and SN2 were analyzed in mouse retina, RGC-5 cells, and primary mouse ganglion cells (GCs) by in situ hybridization (ISH), immunofluorescence (IF), and Western blotting.

RESULTS

Three transport systems--N, A, and L--participated in glutamine uptake in RGC-5 cells. System N was the principal contributor; systems A and L contributed considerably less. ISH and IF revealed SN1 and SN2 expression in the ganglion, inner nuclear, and photoreceptor cell layers. SN1 and SN2 colocalized with the ganglion cell marker Thy 1.2 and with the Müller cell marker vimentin, confirming their presence in both retinal cell types. SN1 and SN2 proteins were detected in primary mouse GCs.

CONCLUSIONS

These findings suggest that in addition to its role in glutamine uptake in retinal glial cells, system N contributes significantly to glutamine uptake in ganglion cells and, hence, contributes to the retinal glutamate-glutamine cycle.

摘要

目的

谷氨酰胺转运对于神经元和神经胶质细胞之间发生的谷氨酸-谷氨酰胺循环至关重要。由SN1（SNAT3）和SN2（SNAT5）组成的系统N是视网膜Müller细胞中谷氨酰胺转运的主要介质。本研究对视网膜神经节细胞中谷氨酰胺转运的介质进行了调查。

方法

基于各个转运系统的不同特征，在RGC-5细胞中检测了各种转运系统对谷氨酰胺摄取（系统N、A、L、y+L、ASCT和ATB(0,+)）的相对贡献。通过逆转录聚合酶链反应（RT-PCR）分析了编码这些转运系统成员的基因的信使核糖核酸（mRNA）。基于这些数据，通过原位杂交（ISH）、免疫荧光（IF）和蛋白质印迹法对小鼠视网膜、RGC-5细胞和原代小鼠神经节细胞（GCs）中的SN1和SN2进行了分析。

结果

三个转运系统——N、A和L——参与了RGC-5细胞中的谷氨酰胺摄取。系统N是主要贡献者；系统A和L的贡献要小得多。ISH和IF显示SN1和SN2在神经节、内核和光感受器细胞层中表达。SN1和SN2与神经节细胞标志物Thy 1.2以及Müller细胞标志物波形蛋白共定位，证实它们在两种视网膜细胞类型中均存在。在原代小鼠GCs中检测到了SN1和SN2蛋白。

结论

这些发现表明，系统N除了在视网膜神经胶质细胞的谷氨酰胺摄取中发挥作用外，还对神经节细胞中的谷氨酰胺摄取有显著贡献，因此有助于视网膜谷氨酸-谷氨酰胺循环。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/81e7/2586300/872ce1565177/nihms78875f1.jpg

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