Characterization and Evolution of a Gene Encoding a Trimeresums flavoviridis Serum Protein that Inhibits Basic Phospholipase A2 Isozymes in the Snake's Venom

Abstract

The proteins that bind phospholipase A₂ (PLA₂) isozymes of Trimeresurus flavoviridis (habu snake, crotalinae) venom were ractionated from sera on four columns, each conjugated with one of four PLA₂ isozymes. Five proteins, termed PLA₂ inhibitors (PLI) I–V, were obtained as the binding components. The combinations of the binding components differed depending on the PLA₂ isozymes. PLI‐IV and PLI‐V correspond to PLI‐A and PLI‐B, respectively, which were known to bind to a major [Asp49]PLA₂, PLA₂, and contained a segment similar to the carbohydrate‐recognition domain of C‐type lectins. PLI‐I, which is a major component of inhibitory proteins against three basic PLA₂ isozymes, PLA‐B (a basic [Asp49]PLA₂) and basic proteins I and II (both [Lys49]PLA,s), has been isolated, and its partial amino acid sequence has been determined. A cDNA encoding PLI‐I was isolated from a T. flavoviridis liver cDNA library and sequenced. PLI‐I cDNA encoded 200 amino acid residues, including a signal peptide of 19 amino acid residues. One sugar chain was predicted to occur at position 157. A gene coding for PLI‐I was isolated. It is 9.6‐kb long and consists of five exons and four introns. Comparison of the exonintron structure of the PLI‐I gene with those of genes encoding urokinaseype‐plasminogen‐activator receptor (uPAR), Ly‐6, CD59 and neurotoxins showed that they have characteristic unit encoding approximately 90 amino acid residues, which is divided over two exons. This strongly suggests that the PLI‐I gene belongs to the uPAR, Ly‐6, CD59 and neurotoxin gene family. There are two types of structurally different inhibitors against PLA₂ isozymes in T. flavoviridis serum with different evolutionary origins.