Synthesis of an insulin analogue embodying a strongly fluorescent moiety, [19-Tryptophan-A]insulin

Abstract

As part of our aim to study the conformation of insulin in solution by time-resolved fluorescence spectroscopy, we have synthesized the analogue [19-Tryptophan-A]insulin. In this compound, the tyrosine residue at position 19 of the A-chain of insulin, one of the most strongly conserved residues in insulins from various species, is substituted with the strongly fluorescent tryptophan residue. [19-Tryptophan-A]insulin displays 4.1±1.9% of the potency of natural insulin in binding to the insulin receptor from rat liver plasma membranes, 5.0±2.3% in stimulating lipogenesis in rat adipocytes, and 75.7±4% of the potency of insulin in radioimmunoassay. In connection with our previous work, these data indicate that an aromatic side chain at position A¹⁹ of insulin seems necessary but not sufficient for high biological activity. We further conclude that in regard to the immunogenic determinants of insulin, tryptophan in position A¹⁹ is an essentially neutral substitution for tyrosine in that position, in sharp contrast to the situation with regard to biological activity.