Li Y J, Ji Y H
Shanghai Institute of Physiology, Chinese Academy of Sciences.
J Pept Res. 2000 Oct;56(4):195-200. doi: 10.1034/j.1399-3011.2000.00750.x.
In this study, the binding characteristics of BmK I, an alpha-like neurotoxic polypeptide purified from the venom of the Chinese scorpion Buthus martensi Karsch, were investigated on rat brain and cockroach nerve cord synaptosomes. The results showed that BmK I can bind to a single class of noninteracting binding sites on cockroach nerve cord synaptosomes with medium affinity (Kd = 16.5 +/ - 4.4 nM) and low binding capacity (Bmax = 1.05 +/- 0.23 pmol/mg protein), but lacks specific binding on rat brain synaptosomes. BmK AS, BmK AS-1 (two novel sodium channel-blocking ligands), BmK IT (an excitatory insect-selective toxin) and BmK IT2 (a depressant insect-selective toxin) from the same venom were found to be capable of depressing BmK I binding in cockroach nerve cord synaptosomes, which might be attributed to either allosteric modulation of voltage-gated Na+ channels by these toxic polypeptides or partial overlapping between the receptor binding sites of BmK I and these toxins. This thus supported the notion that alpha-like scorpion neurotoxic polypeptides bind to a distinct receptor site on sodium channels, which might be similar to the binding receptor site of alpha-type insect toxins, and also related to those of BmK AS type and insect-selective scorpion toxins on insect sodium channels.
在本研究中,对从中国蝎子东亚钳蝎毒液中纯化得到的α-样神经毒性多肽BmK I在大鼠脑和蟑螂神经索突触体上的结合特性进行了研究。结果表明,BmK I能以中等亲和力(Kd = 16.5 ± 4.4 nM)和低结合容量(Bmax = 1.05 ± 0.23 pmol/mg蛋白)结合蟑螂神经索突触体上的单一类非相互作用结合位点,但在大鼠脑突触体上缺乏特异性结合。发现来自同一毒液的BmK AS、BmK AS-1(两种新型钠通道阻断配体)、BmK IT(一种兴奋性昆虫选择性毒素)和BmK IT2(一种抑制性昆虫选择性毒素)能够抑制BmK I在蟑螂神经索突触体上的结合,这可能归因于这些毒性多肽对电压门控Na+通道的变构调节,或者BmK I与这些毒素的受体结合位点部分重叠。因此,这支持了α-样蝎神经毒性多肽与钠通道上一个独特的受体位点结合的观点,该位点可能类似于α型昆虫毒素的结合受体位点,也与昆虫钠通道上BmK AS型和昆虫选择性蝎毒素的结合受体位点相关。
