Garlin A B, Sinor A D, Sinor J D, Jee S H, Grinspan J B, Robinson M B
Children's Seashore House, Philadelphia, Pennsylvania, USA.
J Neurochem. 1995 Jun;64(6):2572-80. doi: 10.1046/j.1471-4159.1995.64062572.x.
Pharmacological and molecular biological studies provide evidence for subtypes of sodium-dependent high-affinity glutamate (Glu) transport in the mammalian CNS. At least some of these transporters appear to be selectively expressed in different brain regions or by different cell types. In the present study, the properties of L-[3H]Glu transport were characterized using astrocyte-enriched cultures prepared from cerebellum and cortex. In both brain regions, the kinetic data for sodium-dependent transport were consistent with a single site with Km values of 91 +/- 17 microM in cortical glial cells and 66 +/- 23 microM in cerebellar glial cells. The capacities were 6.1 +/- 1.6 nmol/mg of protein/min in cortical glial cells and 8.4 +/- 0.9 nmol/mg of protein/min in cerebellar glial cells. The potencies of approximately 40 excitatory amino acid analogues for inhibition of sodium-dependent transport into glial cells prepared from cortex and cerebellum were examined, including compounds that are selective inhibitors of transport in synaptosomes prepared from either cerebellum or cortex. Of the analogues tested, 14 inhibited transport activity by > 50% at 1 mM concentrations. Unlike L-[3H]Glu transport in synaptosomes prepared from cerebellum or cortex, there were no large differences between the potencies of compounds for inhibition of transport measured in glial cells prepared from these two brain regions. With the exception of (2S,1'R,2'R)-2-(carboxycyclopropyl)glycine and L-alpha-aminoadipate, all of the compounds examined were approximately 10-200-fold less potent as inhibitors of L-[3H]Glu transport measured in glial cells than as inhibitors of transport measured in synaptosomes prepared from their respective brain regions.(ABSTRACT TRUNCATED AT 250 WORDS)
药理学和分子生物学研究为哺乳动物中枢神经系统中钠依赖性高亲和力谷氨酸(Glu)转运体的亚型提供了证据。这些转运体中至少有一些似乎在不同脑区或不同细胞类型中选择性表达。在本研究中,使用从小脑和皮质制备的富含星形胶质细胞的培养物来表征L-[3H]Glu转运的特性。在这两个脑区中,钠依赖性转运的动力学数据与一个单一的位点一致,在皮质神经胶质细胞中的Km值为91±17μM,在小脑神经胶质细胞中的Km值为66±23μM。容量在皮质神经胶质细胞中为6.1±1.6 nmol/mg蛋白质/分钟,在小脑神经胶质细胞中为8.4±0.9 nmol/mg蛋白质/分钟。研究了约40种兴奋性氨基酸类似物对从小脑和皮质制备的神经胶质细胞中钠依赖性转运的抑制作用,包括在从小脑或皮质制备的突触体中选择性转运抑制剂的化合物。在所测试的类似物中,14种在1 mM浓度下抑制转运活性>50%。与从小脑或皮质制备的突触体中的L-[3H]Glu转运不同,在这两个脑区制备的神经胶质细胞中测量的化合物对转运抑制的效力没有很大差异。除了(2S,1'R,2'R)-2-(羧基环丙基)甘氨酸和L-α-氨基己二酸外,所有检测的化合物作为L-[3H]Glu转运抑制剂在神经胶质细胞中的效力比在其各自脑区制备的突触体中测量的转运抑制剂低约10-200倍。(摘要截短于250字)
