Study of a series of analogs of salmon calcitonin in which alanine replaces leucine

Abstract

Leucine residues at positions 12, 16 and 19 of salmon calcitonin were systematically replaced by alanine either one, two or three at a time. Substitution of Ala at position 12 or 16 had the greatest effect on the structure of the peptide and on the ability of the peptide to attain structures of higher helical content in the presence of lipid. Despite the similar effects on the conformational properties, the effects on activity are markedly different for analogs with Ala substitutions at positions 12 and 16. The Ala12 derivatives are much less active while the Ala16 derivatives are slightly more active than the parent hormone. In contrast to the effects of substitutions at these positions, substitution of Ala at position 19 has relatively little effect on activity or on conformation. These results demonstrate that different regions of the calcitonin molecule have different conformational requirements for maximal activity.