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人类视网膜含有多胺敏感的[3H]-ifenprodil结合位点:对神经保护有何启示?

Human retina contains polyamine sensitive [3H]-ifenprodil binding sites: implications for neuroprotection?

作者信息

Sharif N A, Xu S X

机构信息

Molecular Pharmacology Unit, Alcon Laboratories, Inc., Fort Worth, Texas 76134, USA.

出版信息

Br J Ophthalmol. 1999 Feb;83(2):236-40. doi: 10.1136/bjo.83.2.236.

DOI:10.1136/bjo.83.2.236
PMID:10396205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1722924/
Abstract

AIMS

This study characterised the pharmacology of [3H]-ifenprodil binding to the polyamine binding sites (PBS) on the N-methyl-D-aspartate (NMDA) receptor channel complex on human retinas. These data were correlated with the known neuroprotective effects of ifenprodil and eliprodil.

METHODS

Specific binding of [3H]-ifenprodil (under sigma site blockade) was investigated using human retinal homogenates and radioligand binding techniques. Scatchard and competition analyses were utilised to define the pharmacology of the [3H]-ifenprodil binding sites.

RESULTS

Specific binding of [3H]-ifenprodil comprised 73% (SEM 3%) of total and reflected interaction with two affinity sites (Kds = 0.39 and 4.3 microM) of different densities (Bmax = 14.4 and 105 pmol/mg protein) (n = 5). The rank order of affinity of compounds competing for [3H]-ifenprodil binding to the high affinity PBS was: ifenprodil > eliprodil > arcaine > spermine > diaminodecane > spermidine > putrescine >> MK-801 (n = 3-7). However, [3H]-ifenprodil binding was minimally inhibited by glutamate, NMDA, and kainate.

CONCLUSION

These studies have shown, for the first time, the presence of specific [3H]-ifenprodil binding sites in the human retina with pharmacological characteristics of PBS associated with the NMDA receptor ionophore complex. The neuroprotective effects of eliprodil and ifenprodil may, in part, be mediated via these [3H]-ifenprodil labelled sites.

摘要

目的

本研究对[3H] - 艾芬地尔与人视网膜N - 甲基 - D - 天冬氨酸(NMDA)受体通道复合物上的多胺结合位点(PBS)的结合药理学特性进行了表征。这些数据与艾芬地尔和依立普地尔已知的神经保护作用相关。

方法

使用人视网膜匀浆和放射性配体结合技术研究了(在西格玛位点阻断下)[3H] - 艾芬地尔的特异性结合。利用Scatchard和竞争分析来确定[3H] - 艾芬地尔结合位点的药理学特性。

结果

[3H] - 艾芬地尔的特异性结合占总量的73%(标准误3%),反映了与不同密度(Bmax = 14.4和105 pmol/mg蛋白)的两个亲和位点(解离常数 = 0.39和4.3 microM)的相互作用(n = 5)。竞争[3H] - 艾芬地尔与高亲和力PBS结合的化合物的亲和力排序为:艾芬地尔>依立普地尔>阿卡因>精胺>二氨基癸烷>亚精胺>腐胺>> MK - 801(n = 3 - 7)。然而,谷氨酸、NMDA和海人藻酸对[3H] - 艾芬地尔结合的抑制作用极小。

结论

这些研究首次表明,人视网膜中存在具有与NMDA受体离子通道复合物相关的PBS药理学特性的特异性[3H] - 艾芬地尔结合位点。依立普地尔和艾芬地尔的神经保护作用可能部分通过这些[3H] - 艾芬地尔标记的位点介导。

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