对钾通道阻断树眼镜蛇毒素生物活性至关重要的结构特征。
Structural features important for the biological activity of the potassium channel blocking dendrotoxins.
作者信息
Hollecker M, Marshall D L, Harvey A L
机构信息
Centre de Biophysique Moléculaire, CNRS, Orleans, France.
出版信息
Br J Pharmacol. 1993 Oct;110(2):790-4. doi: 10.1111/j.1476-5381.1993.tb13881.x.
Abstract
- Dendrotoxins from mamba snake venoms are small proteins that block neuronal K+ channels. In order to investigate structural features associated with their biological activity, partially folded versions of dendrotoxins I and K from black mamba (Dendroaspis polylepis) were prepared by selectively reducing one or more of their three S-S bonds. 2. The modified toxins were tested for ability to compete with 125I-labelled native toxin I to high affinity binding sites on rat brain synaptosomal membranes and for the ability to increase acetylcholine release in a neuromuscular preparation. 3. Binding affinity increased progressively as the toxins folded to the native conformation and the most biologically active of the modified species were those in which only the disulphide bond between residues 14 and 38 was not formed. These intermediates had native-like conformations as determined by circular dichroism but still had about 5-10 times lower affinity than native toxins. 4. Addition of negatively charged groups to block the free sulthydryls at positions 14 and 38 caused a further, marked loss of activity. 5. The results are consistent with the existence of two important regions in the dendrotoxin molecules. The region containing two of the disulphide bonds (around Cys5-Cys55 and Cys30-Cys51) and much of the secondary structure is essential for the binding affinity of the toxins, while the region around Cys14 and Cys38, equivalent to part of the antiprotease site of the homologous protease inhibitor from bovine pancreas (BPTI), plays an important role in the potency of dendrotoxins.
摘要
- 曼巴蛇毒中的树突毒素是一种能阻断神经元钾离子通道的小蛋白质。为了研究与其生物活性相关的结构特征,通过选择性还原黑曼巴(Dendroaspis polylepis)的树突毒素I和K的三个二硫键中的一个或多个,制备了部分折叠形式的毒素。2. 对修饰后的毒素进行了测试,以检测它们与125I标记的天然毒素I竞争大鼠脑突触体膜上高亲和力结合位点的能力,以及在神经肌肉制剂中增加乙酰胆碱释放的能力。3. 随着毒素折叠成天然构象,结合亲和力逐渐增加,修饰物种中生物活性最高的是那些仅未形成残基14和38之间二硫键的毒素。通过圆二色性测定,这些中间体具有类似天然的构象,但亲和力仍比天然毒素低约5至10倍。4. 添加带负电荷的基团以阻断14和38位的游离巯基,导致活性进一步显著丧失。5. 结果与树突毒素分子中存在两个重要区域一致。包含两个二硫键(围绕Cys5-Cys55和Cys30-Cys51)以及大部分二级结构的区域对于毒素的结合亲和力至关重要,而Cys14和Cys38周围的区域,相当于牛胰腺同源蛋白酶抑制剂(BPTI)抗蛋白酶位点的一部分,在树突毒素的效力中起重要作用。
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