After it has been shown that removal of residues B26-B30 leaves insulin with full biological activity, provided the new C-terminus is amidated (Fischer et al. (1985) Biol. Chem. Hoppe-Seyler 366, 521-525), it is demonstrated here that it does not even preclude enhancement of potency. 7 analogues of des-(B26-B30)-insulin-B25-amide were prepared by trypsin-mediated semisynthesis, the replacements being D-PheB24; HisB25, D-PheB25, TrpB25, TyrB25; D-PheB24,B25 and D-PheB24, TyrB25. Mere conversion of the configuration of B25-phenylalanine reduces in vitro potency to 0.5%. If B25-phenylalanine is, however, substituted by histidine or tyrosine activity is increased to 310 or 230, respectively. According to the features common to these two side chains, the favourable effect should be due to their ring structure with balanced aromatic and polar or H-bonding properties, respectively. The results indicate that in the complete insulin molecule the C-terminal pentapeptide modulates the subtle role that residues B24 and/or B25 play in receptor binding and activity; its presence may have a positive or negative effect. The drastic differences in activity between the shortened analogues are in no ways reflected in the CD spectra which are very similar, though clearly different from that of native insulin.
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