Butcher S P, Collins J F, Roberts P J
Br J Pharmacol. 1983 Oct;80(2):355-64. doi: 10.1111/j.1476-5381.1983.tb10041.x.
The binding of DL-[3,4-3H] 2-amino-4-phosphonobutyric acid DL[3H]-APB to rat whole brain synaptic membranes was investigated. Binding was linear with membrane protein concentration, and optimal at physiological pH and temperature. The association rate was rapid, achieving equilibrium within 10 min. Prolonged incubations (greater than 20 min) revealed additional sites, which apparently possessed identical binding characteristics to those detected with 10 min incubations. Binding of DL-[3H]-APB was enriched in synaptic membrane fractions, and assessment of the regional distribution, indicated greatest binding in those areas with a rich glutamatergic innervation. The binding of DL-[3H]-APB in HEPES-KOH buffer exhibited an absolute requirement for Cl-. The addition of Ca2+ resulted in a further enhancement of binding. Saturation analysis revealed the presence of specific glutamate-sensitive DL-[3H]-APB binding sites, with a KD = 1.26 microM and Bmax = 12.08 pmol mg-1 protein. A Hill plot revealed a slope slightly greater than unity, which could possibly be a reflection of a contribution to binding of a further site which is relatively insensitive to glutamate. Analysis of 60 min incubation data indicated an approximately 3 fold increase in the capacity of the system, but a relatively unchanged KD. Examination of the pharmacological specificity of binding, showed that for both agonist and antagonist molecules, the L-enantiomers were invariably more active than the D-forms. For example, the L-(+)-2-amino-4-phosphonobutyrate isomer was 15 times more active than the D-(-)-form in inhibiting the binding of DL-[3H]-APB. This is in close agreement with the ability of these compounds to produce depression of synaptic transmission. The most potent inhibitor of binding was quisqualate. It is suggested that APB may interact with a quisqualate-preferring class of excitatory amino acid receptors, possibly localised predominantly on presynaptic terminals.
研究了DL-[3,4-³H]2-氨基-4-膦酰丁酸(DL[³H]-APB)与大鼠全脑突触膜的结合情况。结合与膜蛋白浓度呈线性关系,在生理pH值和温度下达到最佳。结合速率很快,10分钟内达到平衡。长时间孵育(超过20分钟)显示出额外的位点,这些位点显然具有与10分钟孵育时检测到的位点相同的结合特性。DL-[³H]-APB的结合在突触膜组分中富集,对区域分布的评估表明,在谷氨酸能神经支配丰富的区域结合最强。在HEPES-KOH缓冲液中,DL-[³H]-APB的结合对Cl⁻有绝对需求。添加Ca²⁺导致结合进一步增强。饱和分析显示存在特异性的谷氨酸敏感的DL-[³H]-APB结合位点,KD = 1.26微摩尔,Bmax = 12.08皮摩尔/毫克蛋白。希尔图显示斜率略大于1,这可能反映了对谷氨酸相对不敏感的另一个位点对结合的贡献。对60分钟孵育数据的分析表明,系统容量增加了约3倍,但KD相对不变。对结合的药理学特异性的研究表明,对于激动剂和拮抗剂分子,L-对映体总是比D-形式更具活性。例如,L-(+)-2-氨基-4-膦酰丁酸异构体在抑制DL-[³H]-APB结合方面比D-(-)-形式活性高15倍。这与这些化合物产生突触传递抑制的能力密切一致。最有效的结合抑制剂是quisqualate。有人提出APB可能与一类优先结合quisqualate的兴奋性氨基酸受体相互作用,可能主要定位于突触前终末。