Hains P G, Broady K W
Toxin Research Group, Department of Cell and Molecular Biology, University of Technology, Sydney, Westbourne Street, Gore Hill, NSW 2065 Australia.
Biochem J. 2000 Feb 15;346 Pt 1(Pt 1):139-46.
Although the resistance of snakes to their own venom is well known, until now no investigators have examined the serum of Australian snakes. Here we describe the identification and purification of a range of phospholipase A(2) (PLA(2)) inhibitors from the serum of Australian elapids. All PLA(2) inhibitors were composed of two protein chains, an alpha-chain and a beta-chain. The alpha-chains were approx. 22.5 kDa in size and variably glycosylated, whereas the beta-chains were approx. 19.8 kDa in size and not glycosylated. Identification of isoforms of the two subunit chains was significant because three of the six sera examined were from single snake specimens. In addition, the glycosylation patterns of the alpha-chains were thoroughly investigated in these unpooled sera. The functional and structural properties of the purified inhibitors were studied. Uniquely, a snake PLA(2) inhibitor was found to inhibit human type II PLA(2) enzyme, which has implications for the treatment of the many diseases in which PLA(2) enzymes have been implicated. Further, we demonstrate that the inhibitor forms a non-covalent association with a purified PLA(2) enzyme. Finally, the purified PLA(2) inhibitor was shown to protect in vivo against the lethal affects of a homologous PLA(2) enzyme, suggesting a role for PLA(2) inhibitors in the treatment of snake bite victims.
尽管蛇对自身毒液具有抗性是广为人知的,但迄今为止,尚无研究人员对澳大利亚蛇的血清进行过检测。在此,我们描述了从澳大利亚眼镜蛇血清中鉴定和纯化一系列磷脂酶A₂(PLA₂)抑制剂的过程。所有PLA₂抑制剂均由两条蛋白质链组成,一条α链和一条β链。α链大小约为22.5 kDa,糖基化程度各异,而β链大小约为19.8 kDa,未进行糖基化。鉴定这两条亚基链的同工型具有重要意义,因为所检测的六份血清中有三份来自单条蛇的样本。此外,还对这些未混合血清中α链的糖基化模式进行了深入研究。对纯化后的抑制剂的功能和结构特性进行了研究。独特的是,发现一种蛇PLA₂抑制剂能够抑制人类II型PLA₂酶,这对治疗许多与PLA₂酶有关的疾病具有重要意义。此外,我们证明该抑制剂与纯化后的PLA₂酶形成非共价结合。最后,纯化后的PLA₂抑制剂在体内显示出对同源PLA₂酶致死效应的保护作用,这表明PLA₂抑制剂在治疗蛇咬伤患者中具有一定作用。