Binding of [3H]batrachotoxinin A-20-α-benzoate and [3h]saxitoxin to receptor sites associated with sodium channels in trout brain synaptoneurosomes

Comparative biochemistry and physiology. C: Comparative pharmacology Pub Date : 1993-06-01 DOI:10.1016/0742-8413(93)90200-5

Jared G. Rubin, David M. Soderlund

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引用次数: 5

Abstract

1. [³H]Batrachotoxinin A-20-α-benzoate ([³H]BTX-b) and [³H]saxitoxin ([³H]STX), radioligands that bind to distinct sites on the voltage-sensitive sodium channel, were bound specifically to saturable sites in rainbow trout (Oncorhynchus mykiss) brain synaptoneurosomes.

2. Specific [³H]BTX-B binding was temperature dependent with highest levels of specific [³H]BTX-B binding observed at 7°C. Specific binding was inversely correlated with assay temperature at temperatures above 7°C.

3. Saturating concentrations of scorpion (Leiurus quinquestriatus) venom (ScV) stimulated specific [³H]BTX-B binding at 27°C, but not at 7°C. The dihydropyrazole insecticide RH 3421 inhibited specific [³H]BTX-B binding at 7°C but had no effect on specific binding at 27°C. The sodium channel activators veratridine and aconitine and the local anesthetic dibucaine inhibited specific [³H]BTX-B binding at both 7°C and 27°C.

4. Displacement experiments in the presence of ScV at 27°C gave an equilibrium dissociation constant (K_d) for [³H]BTX-B of 710 nM and a maximal binding capacity (B_max) of 11.3 pmol/mg protein. Kinetic experiments established the rates of association (1.17 × 10⁵min⁻¹ nM⁻¹) and dissociation (0.0514min⁻¹) of the ligand-receptor complex.

5. The binding of [³H]STX reached apparent saturation at 7.5 nM. Scatchard analysis of the saturation data indicated a K_d of 3.8nM and a B_max of 1.9 pmol/mg protein.

6. These studies provide evidence for high affinity, saturable binding sites for [³H]BTX-B and [³H]STX in trout brain preparations. Whereas certain neurotoxins modified the specific binding of [³H]BTX-B in trout brain synaptoneurosomes in a predictable fashion, other compounds known to affect specific [³H]BTX-B binding in mammalian brain preparations had no effect on specific [³H]BTX-B binding in the trout.

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[3H]鱼毒素A-20-α-苯甲酸酯和[3H]蛤毒素与鳟鱼脑突触体钠通道相关受体位点的结合

1. [3H]Batrachotoxinin A-20-α-benzoate ([3H]BTX-b)和[3H]saxitoxin ([3H]STX)是结合在电压敏感钠通道上不同位点的放射性配体，它们特异性地结合在虹鳟(Oncorhynchus mykiss)脑突触神经体的可饱和位点上。特异性[3H]BTX-B结合与温度有关，在7°C时观察到特异性[3H]BTX-B结合的最高水平。在高于7℃的温度下，特异性结合与实验温度呈负相关。饱和浓度的蝎(Leiurus quinquestriatus)毒液(ScV)在27°C时刺激特异性[3H]BTX-B结合，而在7°C时则没有。双氢吡唑类杀虫剂RH 3421对BTX-B在7℃时的特异性[3H]结合有抑制作用，对27℃时的特异性结合无影响。钠通道激活剂缬草碱和乌头碱以及局麻药二布卡因在7°C和27°C时均抑制特异性[3H]BTX-B结合。在27°C ScV存在下的位移实验中，[3H]BTX-B的平衡解离常数(Kd)为710 nM，最大结合容量(Bmax)为11.3 pmol/mg蛋白质。动力学实验确定了配体-受体复合物的缔合速率(1.17 × 105min−1 nM−1)和解离速率(0.0514min−1)。[3H]STX的结合在7.5 nM处达到表观饱和。饱和度数据的Scatchard分析显示Kd为3.8nM, Bmax为1.9 pmol/mg蛋白。这些研究为[3H]BTX-B和[3H]STX在鳟鱼脑制剂中存在高亲和力、可饱和的结合位点提供了证据。虽然某些神经毒素以可预测的方式改变了鳟鱼脑突触体中[3H]BTX-B的特异性结合，但已知影响哺乳动物脑制剂中特定[3H]BTX-B结合的其他化合物对鳟鱼的特异性[3H]BTX-B结合没有影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Comparative biochemistry and physiology. C: Comparative pharmacology

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