Recent studies on the chemistry of human, bovine and porcine parathyroid hormones

Abstract

The amino acid sequence of the NH 2-terminal 34 residues of human parathyroid hormone (PTH) has been determined and duplicated synthetically to produce a peptide that is biologically active. In the amino acid sequences of the bovine and porcine hormones, the glutamic acid function at position 22 has been revised to glutamine. Among these initial 34 residues, human PTH differs from bovine PTH by 5 residues and from porcine PTH by 4 residues. Native human PTH and the synthetic human PTH (1–34) peptide are not rigid structures, and significant changes in conformation were observed during pH titration. In addition, at physiologic pH, native human PTH appeared to differ in structure from human PTH (1–34) in the region of the tryptophan residue (residue 23). The fluorescence spectrum of human PTH revealed a maximum at 344 nm, but the spectrum of human PTH (1–34) had a peak at 343 nm; the spectrum of human PTH (1–34) was normalized to 346 nm in 6 M guanidine hydrochloride, but there was no shift with the intact hormone. Fluorescence titration of human PTH in the alkaline region revealed no loss of tryptophanyl fluorescence in aqueous solution or in 6 M guanidine hydrochloride. The synthetic human PTH (1–34) peptide, however, showed an approximately 25 per cent loss of indole fluorescence during alkaline titration which could be normalized with denaturing reagents. These studies suggest that synthetic fragments of the native hormone may not have the same tertiary conformation as the same sequence in the intact hormone. These findings may be of major significance with regard to the biologic activity and immunologic cross reactivity of synthetic fragments and the native hormone.