Green Daniel G, Guo Hao, Pillers De-Ann M
Department of Ophthalmology and Visual Sciences, University of Michigan, Ann Arbor, Michigan 48109, USA.
Vis Neurosci. 2004 Sep-Oct;21(5):739-47. doi: 10.1017/S0952523804215085.
The mdx(Cv3) mouse is a model for Duchenne muscular dystrophy (DMD). DMD is an X-linked disorder with defective expression of the protein dystrophin, and which is associated with a reduced b-wave and has other electro- retinogram (ERG) abnormalities. To assess potential causes for the abnormalities, we recorded ERGs from pieces of isolated C57BL/6J and mdx(Cv3) mouse retinas, including measurements of transretinal and intraretinal potentials. The ERGs from the isolated mdx(Cv3) retina differ from those of control retinas in that they show reduced b-wave amplitudes and increased b-wave implicit times. Photovoltages obtained by recording across the photoreceptor outer segments of the retinas did not differ from normal, suggesting that the likely causes of the reduced b-wave are localized to the photoreceptor to ON-bipolar synapse. At a concentration of 50 microM, the glutamate analog dl-2-amino-4-phosphonobutyric acid (APB) blocks the b-wave component of the ERG, by binding to sites on the postsynaptic membrane. The On-bipolar cell contribution to the ERG was inferred by extracting the component that was blocked by APB. We found that this component was smaller in amplitude and had longer response latencies in the mdx(Cv3) mice, but was of similar overall time course. To assess the sensitivity of sites on the postsynaptic membrane to glutamate, the concentration of APB in the media was systematically varied, and the magnitude of blockage of the light response was quantified. We found that the mdx(Cv3) retina was 5-fold more sensitive to APB than control retinas. The ability of lower concentrations of APB to block the b-wave in mdx(Cv3) suggests that the ERG abnormalities may reflect alterations in either glutamate release, the glutamate postsynaptic binding sites, or in other proteins that modulate glutamate function in ON-bipolar cells.
mdx(Cv3)小鼠是杜兴氏肌营养不良症(DMD)的一种模型。DMD是一种X连锁疾病,其肌营养不良蛋白表达缺陷,与b波降低以及其他视网膜电图(ERG)异常相关。为了评估这些异常的潜在原因,我们记录了分离的C57BL/6J和mdx(Cv3)小鼠视网膜片的ERG,包括跨视网膜和视网膜内电位的测量。分离的mdx(Cv3)视网膜的ERG与对照视网膜的不同之处在于,它们显示出b波振幅降低和b波隐含时间增加。通过记录视网膜光感受器外段获得的光电压与正常情况无异,这表明b波降低的可能原因定位于光感受器到ON双极突触。在浓度为50 microM时,谷氨酸类似物dl-2-氨基-4-膦酰丁酸(APB)通过与突触后膜上的位点结合来阻断ERG的b波成分。通过提取被APB阻断的成分来推断ON双极细胞对ERG的贡献。我们发现,在mdx(Cv3)小鼠中,该成分的振幅较小且反应潜伏期较长,但总体时间进程相似。为了评估突触后膜上的位点对谷氨酸的敏感性,系统地改变培养基中APB的浓度,并对光反应的阻断程度进行量化。我们发现mdx(Cv3)视网膜对APB的敏感性是对照视网膜的5倍。较低浓度的APB能够阻断mdx(Cv3)中的b波,这表明ERG异常可能反映了谷氨酸释放、谷氨酸突触后结合位点或调节ON双极细胞中谷氨酸功能的其他蛋白质的改变。