Inhibition of Mouse Blastocyst Hatching by Subsite-Specific Trypsin Inhibitors,Peptidyl Argininals1

To explore the substrate or subsite specificity of a mouse hatching enzyme, effects of leupeptin acetyl(P₄)-Leu(P₃)-Leu(P₂)-argininal(P₁)] and its analogs (peptidyl argininals) on mouse blastocyst hatching were investigated. The compounds containing benzyloxycarbonyl group (Z) in the P₄ position inhibited the hatching more strongly than those containing acetyl group or unprotected N-terminal amino acid. Among five Z-Leu-P₂-argininals, a derivative containing a P₂ Ser residue was the most potent inhibitor, and the derivatives containing Leu, Thr, Pro, and Gly in the P₂ position followed in this order. Then, we synthesized four Z-P₃-Ser-argininals and tested their effects on hatching. The result indicated that the compound with Phe residue in the P₃ position was the strongest inhibitor, and the Leu-, Pro-, and Ala-containing derivatives were ranked in this order. Thus, among Z-dipeptidyl-argininals tested, Z-Phe-Ser-argininal most potently inhibited the mouse embryonic hatching, suggesting the preference of the mouse hatching enzyme for Phe(P₃)-Ser(P₂)-Arg(P₁) sequence as a substrate.