Polgár J, Magnenat E M, Peitsch M C, Wells T N, Clemetson K J
Theodor Kocher Institute, University of Beme, Switzerland.
Biochem J. 1996 Nov 1;319 ( Pt 3)(Pt 3):961-8. doi: 10.1042/bj3190961.
Several studies have shown that Asp-49 is the residue that controls calcium binding in, and so plays a critical role in the calcium-mediated activation of, low-M(r) group I-III phospholipases A2 (PLA2s). The present paper provides experimental evidence that Asp-49 is not an absolute prerequisite for the enzymic activity of PLA2s, and that proteins with amino acid(s) other than Asp at position 49 can exhibit significant phospholipase activity. The purification, complete amino acid sequence and characterization of ecarpholin S, a PLA2 from Echis carinatus sochureki (saw-scaled viper) venom, is described. This single-chain, 122-amino-acid, basic (pI 7.9) protein is a group II PLA2. Although Asp-49 is replaced by Ser and Tyr-28 by Phe (both of these positions being involved in the Ca(2+)-binding site of PLA2s), the lipolysis of soybean phosphatidylcholine and egg yolk in the presence of 10 mM CaCl2 was 1.5 times and 2.9 times greater respectively with ecarpholin S than with recombinant human group II PLA2. The Ca(2+)-dependencies of the enzymic activities of ecarpholin S and rPLA2 were found to be similar. Ecarpholin S added to washed platelets induced aggregation; the presence of Ca2+ was a prerequisite for this platelet-aggregating effect. Computer modelling of the Ca(2+)-binding site of Ser-49 PLA2 compared with the Asp-49 and Lys-49 forms, for which crystallographic data exist, shows that the Ca(2+)-binding site is sterically blocked by Lys-49 but not by Ser-49; in the latter, the Ser hydroxy group may replace the Asp carboxylate in stabilization of Ca2+ binding. Sequence comparisons of ecarpholin S and other low-M(r) PLA2s predicts the presence of a Ser-49 group in the protein family of low-M(r) PLA2s that is distinct from the Asp-49 and Lys-49 groups.
多项研究表明,天冬氨酸-49是控制低分子量I-III组磷脂酶A2(PLA2s)中钙结合的残基,因此在钙介导的PLA2s激活过程中起关键作用。本文提供了实验证据,表明天冬氨酸-49并非PLA2s酶活性的绝对先决条件,并且在49位具有除天冬氨酸以外氨基酸的蛋白质也可表现出显著的磷脂酶活性。本文描述了锯鳞蝰蛇毒中一种PLA2——锯鳞蝰磷脂酶S的纯化、完整氨基酸序列及特性。这种单链、含122个氨基酸、碱性(pI 7.9)的蛋白质是II组PLA2。尽管天冬氨酸-49被丝氨酸取代,酪氨酸-28被苯丙氨酸取代(这两个位置均参与PLA2s的钙结合位点),但在10 mM氯化钙存在的情况下,锯鳞蝰磷脂酶S对大豆卵磷脂和蛋黄的脂解作用分别比重组人II组PLA2高1.5倍和2.9倍。发现锯鳞蝰磷脂酶S和重组PLA2的酶活性对钙的依赖性相似。添加到洗涤过的血小板中的锯鳞蝰磷脂酶S可诱导聚集;钙离子的存在是这种血小板聚集效应的先决条件。与已存在晶体学数据的天冬氨酸-49和赖氨酸-49形式相比,对丝氨酸-49 PLA2的钙结合位点进行计算机建模显示,钙结合位点在空间上被赖氨酸-49阻断,但未被丝氨酸-49阻断;在后者中,丝氨酸羟基可能取代天冬氨酸羧基以稳定钙结合。锯鳞蝰磷脂酶S与其他低分子量PLA2s的序列比较预测,在低分子量PLA2s的蛋白质家族中存在一个与天冬氨酸-49和赖氨酸-49基团不同的丝氨酸-49基团。