Isolation and characterization of two biologically active O-glycosylated forms of human parathyroid hormone produced in Saccharomyces cerevisiae. Identification of a new motif for O-glycosylation.

Expression and secretion of human parathyroid hormone in Saccharomyces cerevisiae were achieved by fusing a cDNA encoding the mature human parathyroid hormone (hPTH) to the preproregion of the yeast mating factor alpha. Purified hPTH from yeast-culture medium was found to contain, in addition to the native unglycosylated form, two mannosylated variants with different molecular masses. The three hPTH forms were processed identically, resulting in the same 84 amino acid polypeptides with amino acid sequences identical to the native hormone. In both the O-glycosylated forms that were separated by isocratic reverse-phase HPLC, two mannose-linked residues were localized to Thr79. In addition, the most glycosylated form showed a heterogeneous modification of three, four or five mannosyl residues linked at Ser66. Lysine is N-terminally located to Ser66 and probably stimulates this glycosylation, which introduces a possible new motif for O-glycosylation in yeast. The two glycosylated forms of hPTH had similar biological activity which was identical to the native form of hPTH in a hormone-sensitive adenylate cyclase assay in bone sarcoma cells. Thus, a C-terminal O-glycosylation of hPTH with up to seven mannosyl residues/molecule did not affect the biological activity of the hormone, making possible production of hPTH with potential different pharmacokinetic properties.

Characterization of a K26Q site-directed mutant of human parathyroid hormone expressed in yeast.

Human parathyroid hormone (hPTH) is susceptible to proteolytical cleavage both in humans and when expressed as a secretory product in Escherichia coli (Høgseth, A., Blingsmo, O. R., Saether, O., Gautvik, V. T., Holmgren, E., Hartmanis, M., Josephson, S., Gabrielsen, O. S., Gordeladze, J. O., Alestrøm, P., and Gautvik, K. M. (1990) J. Biol. Chem. 265, 7338-7344) and Saccharomyces cerevisiae (Gabrielsen, O. S., Reppe, S., Saether, O., Blingsmo, O. R., Sletten, K., Gordeladze, J. O., Høgset, A., Gautvik, V. T., Alestrøm, P., Oyen, T. B., and Gautvik, K. M. (1990) Gene (Amst.) 90, 255-262). In the latter system, one major site of cleavage was identified (Arg25-Lys26 decreased Lys27). To produce hPTH resistant to this proteolytic processing, a point mutation changing Lys26 to Gln was introduced, and the modified gene expressed in S. cerevisiae as a fusion protein with the alpha-factor leader sequence. The resulting major form of hPTH secreted to the growth medium was of full length showing that the mutation had eliminated internal processing. Consequently, the yield of the mutant hormone was significantly higher than obtained with the natural peptide. Using improved purification procedures, a significantly higher purity was also obtained. The secreted mutant hPTH-(1-84,Q26) had the correct size, full immunological reactivity with two different hPTH antisera, correct amino acid composition and N-terminal sequence, and correct mass as determined by mass spectrometry. Furthermore, the introduced mutation did not reduce the biological activity of the hormone as judged from its action in three biological assay systems: 1) a hormone-sensitive osteoblast adenylate cyclase assay; 2) an in vivo calcium mobilizing assay in rats; and 3) an in vitro bone resorption assay.