短肽蝎毒素的结构分类与功能特征

大量的资料已证实蝎毒中主要致死成分是一类由60～70个残基组成, 选择性地作用于电压门控Na⁺通道的长肽毒素.另一类由30～40个残基组成的短肽蝎毒素,由于其具有结构致密,易于合成改造的优点,特别是具有选择性地阻遏K⁺或Cl^－通道的特异药理功效,近年来倍受学术界的关注,并在结构与功能方面取得了很大的研究进展.     

蝎毒诱导红藻氨酸癫痫大鼠海马内胆囊收缩素原mRNA的表达

目的和方法：本工作用红藻氨酸（ＫＡ）癫痫模型,对用蝎毒处理住房第马内胆囊收缩素原ｍＲＮＡ（ＰＣＣＫ ｍＲＮＡ）表达进行原位杂交观察,并对国产东亚钳蝎粗毒抗癫痫反复发作的机制做了初步探讨。结果：原位杂交的实验显示,三周ＫＡ后,实验对照组与空白对照组相比,腹侧海马是海马门区ＰＣＣＫ ｍＲＮＡ阳性神经元数目明显减少（Ｐ〈０．０５）;实验给药组大鼠８例,其中有６例腹侧海马门区ＰＣＣＫ ｍＲＮＡ阳性神经元数     

蝎毒耐热蛋白对大鼠急性分离海马神经元兴奋性的影响

应用全细胞膜片钳记录技术在电流钳模式下观察经持续高温等特殊处理后分离纯化的30～50 kDa蝎毒耐热蛋白(scorpion venom heat resistant protein,SVHRP)(国家发明专利,专利号ZL01 106166.92)对急性分离大鼠海马神经元兴奋性的影响.结果发现SVHRP可致海马神经元兴奋性降低.神经元经1×10-2 μg/mL SVHRP处理后动作电位发放模式改变,发放频率减少.在52个受检细胞中,有45个细胞产生位相放电(占86.54%);7个细胞产生重复放电(占13.46%).在产生位相放电的45个细胞中,有8个细胞在SVHRP处理后仍可以诱发出位相放电(占17.78%);37个细胞在SVHRP处理后无法诱导出位相放电(占82.22%),SVHRP处理后动作电位的产生与处理前相比,有显著差异(P＜0.01,n=45);在产生重复放电的7个细胞中,在1×10-2μg/mL SVHRP作用后均不能再次诱发出重复放电,而是产生一个动作电位或不再产生动作电位,药物处理前产生的动作电位个数为14.57±1.00,SVHRP处理后产生动作电位的个数为0.57±0.20,二者之间有显著性差异(P＜0.01,n=7).1×10-4 μg/mLSVHRP处理后,诱发动作电位产生的基强度由(75.10±8.99)pA增加到(119.85±12.73)pA(P＜0.01,n=8);阈电位由(-41.17±2.15)mV升至(-32.40±1.48)mV(P＜0.01,n=8);动作电位峰值由(68.49±2.33)mV下降至(54.71±0.81)mV(P＜0.01,n=8).由于神经元超兴奋性被认为是癫痫发作的基本机制之一,因此上述结果表明SVHRP有可能通过降低海马神经元兴奋性发挥其抗癫痫作用,这为蝎毒药物的进一步开发提供理论依据.     

Solution structure of the potassium channel inhibitor agitoxin 2: caliper for probing channel geometry.

The structure of the potassium channel blocker agitoxin 2 was solved by solution NMR methods. The structure consists of a triple-stranded antiparallel beta-sheet and a single helix covering one face of the beta-sheet. The cysteine side chains connecting the beta-sheet and the helix form the core of the molecule. One edge of the beta-sheet and the adjacent face of the helix form the interface with the Shaker K+ channel. The fold of agitoxin is homologous to the previously determined folds of scorpion venom toxins. However, agitoxin 2 differs significantly from the other channel blockers in the specificity of its interactions. This study was thus focused on a precise characterization of the surface residues at the face of the protein interacting with the Shaker K+ channel. The rigid toxin molecule can be used to estimate dimensions of the potassium channel. Surface-exposed residues, Arg24, Lys27, and Arg31 of the beta-sheet, have been identified from mutagenesis studies as functionally important for blocking the Shaker K+ channel. The sequential and spatial locations of Arg24 and Arg31 are not conserved among the homologous toxins. Knowledge on the details of the channel-binding sites of agitoxin 2 formed a basis for site-directed mutagenesis studies of the toxin and the K+ channel sequences. Observed interactions between mutated toxin and channel are being used to elucidate the channel structure and mechanisms of channel-toxin interactions.     

Purification, synthesis and characterization of AaCtx, the first chlorotoxin-like peptide from Androctonus australis scorpion venom

AaCtx is the first chlorotoxin-like peptide isolated from Androctonus australis scorpion venom. Its amino acid sequence shares 70% similarity with chlorotoxin from Leiurus quinquestriatus scorpion venom, from which it differs by twelve amino acids. Due to its very low concentration in venom (0.05%), AaCtx was chemically synthesized. Both native and synthetic AaCtx were active on invasion and migration of human glioma cells. However, their activity was found to be lower than that of chlorotoxin. The molecular model of AaCtx shows that most of amino acids differing between AaCtx and chlorotoxin are localized on the N-terminal loop and the α-helix. Based on known compounds that block chloride channels, we suggest that the absence of negative charged amino acids on AaCtx structure may be responsible for its weak activity on glioma cells migration and invasion. This finding serves as a starting point for structure-function relationship studies leading to design high specific anti-glioma drugs.     

Reproductive biology of the viviparous scorpion,Liocheles australasiae (Fabricius) (Arachnida,Scorpiones, Ischnuridae) III. Structural types and functional phases of the adult ovary

Summary

Five structural types of the adult ovary were distinguished in a parthenogenetic viviparous scorpion Liocheles australasiae based on the presence or absence of swollen ovarian diverticula (SD) containing embryos and/or empty ones (ED) as remnants of past pregnancies. These structural types seem to correspond to the following ovarian functional phases: the ovary (1) with SD and without ED corresponds to the first pregnancy; (2) without SD and with ED to after the first parturition; (3) with SD and ED to the second pregnancy; (4) without SD and with old and new ED to after the second parturition; and (5) with SD and old and new ED to the third pregnancy. Such correspondence indicates that a female can repeat pregnancies at least three times. Some possible cases in which the present structural types correspond to other functional phases were also discussed.     

蝎毒抗癌组分SVⅡ分离法的优化研究

目的比较三种柱径的分子筛G-50凝胶层析柱分离东亚钳蝎蝎毒的柱效;并对分离所得组分作MTT（酶反应比色法）抗肿瘤活性作用研究,为从中研制和开发出高效、低毒的新型抗癌特效药筛选出目标组分。方法（1）采用三种规格的分子筛层析柱分离蝎毒;（2）HPLC色谱分析比较各组分的指纹图谱;（3）MTT法观察不同浓度（1、10、100mg／L）的蝎毒及其组分对四种肿瘤细胞（HL-60、A549、K562／ADR、K562／S等）的毒性作用。结果经过分子筛柱层析,可从蝎毒（Scorpion venom,SV）获取三个组分SVⅠ、SVⅡ、SVⅢ;经HPLC色谱分析,各组分明显含有四种以上单体成分;MTT法研究表明,SVⅡ对四种肿瘤细胞的细胞毒性较原毒强,剂量-效应关系较好,而SVⅠ、SVⅢ对四种肿瘤细胞抑制作用不明显。结论（1）利用大柱径的层析柱分离蝎毒的柱效较高;（2）组分SVⅡ是蝎毒抗癌的目标组分,且其对耐药细胞株（K562／ADR）的抑制作用比阳性对照组强,有待进一步的分离纯化,筛选出色谱纯的抗癌活性成分（多肽单体）。     

Troglobitic scorpions: a new genus and species from Brazil

A new genus and species of troglobitic buthid scorpion are described on the basis of a single specimen collected in Brazil. This is the first cavernicolous scorpion ever found in Brazil, and only the second to be found in South America. Some considerations on troglobitic scorpions are proposed.     

Effects of toxin II from the scorpion Androctonus australis Hector on sodium current in neuroblastoma cells and their modulation by oleic acid

The effects of toxin II (AaH II) isolated from the scorpion Androtonus australis Hector on sodium current in neuroblastoma X glioma NG 108-15 hybrid cells were analysed under patch clamp conditions in the whole cell configuration. AaH II (70 nM)_induced a maintained sodium current, as well as increasing both fast and slow inactivation time constants and the amplitude of the peak current. This latter effect occurred via a shift of the activation-voltage curve towards negative voltage values by about 9 mV. Oleic acid (5 M), which had no effect on I_Na under control conditions, decreased the AaH II-induced maintained current. It also reversed, or prevented the increase of the peak current induced by AaH II. However, it neither prevented nor modified the AaH II-induced increase in inactivation time constants. The binding of the toxin to its specific site and the number of binding sites for AaH II were not significantly modified by oleic acid. The oleic acid-induced effects could not be related to the activation of protein kinase C since PMA, a potent activator of this enzyme, did not produce oleic acid-like effects. From these results, it is concluded that AaH II has several independent effects on sodium channels, some of which could be modulated by the lipid environment of sodium channels in the membrane.