Escherichia coli heat-stable enterotoxin II (STII) is composed of 48 amino acid residues. Among these, one histidine, two arginine, and six lysine residues are basic. Isoelectric focusing showed that the isoelectric point of STII is 9.7, indicating that the side chains of some of these basic amino acid residues project outside the molecule. To understand the role that these basic amino acid residues play in toxicity, STII was chemically modified with ethoxyformic anhydride, maleic anhydride, and phenylglyoxal, which alter the side chains of basic amino acid residues in proteins. Maleic anhydride, which modifies the E amino group, caused a significant loss of enterotoxic activity, but the other two modifiers did not. This indicated that lysine residues play an important role in the expression of the enterotoxic activity of STII and that the contribution of the other basic amino acid residues to the toxicity is relatively low. To confirm this hypothesis, we substituted these nine basic amino acid residues by oligonucleotide-directed site-specific mutagenesis and examined the enterotoxicity of these purified mutant STIls. The enterotoxic activity was reduced when the lysine residues at positions 18, 22, 23, and 46 were substituted. In particular, the substitution at positions 22 and 23 induced a remarkable reduction. These results demonstrate that the lysine residues at positions 22 and 23 are very important in the expression of the enterotoxic activity of STII. Enterotoxigenic Escherichia coli strains produce two kinds of heat-stable enterotoxin (STs), which cause intestinal secretion and diarrhea (2, 10). One is termed STI (also referred to as STa), and the other is STII (also referred to as STb). STI is an 18or 19-amino-acid acidic peptide containing three disulfide
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