Human Dickkopf-1 (huDKK1) protein: Characterization of glycosylation and determination of disulfide linkages in the two cysteine-rich domains

Abstract

Human Dickkopf‐1 (huDKK1), an inhibitor of the canonical Wnt‐signaling pathway that has been implicated in bone metabolism and other diseases, was expressed in engineered Chinese hamster ovary cells and purified. HuDKK1 is biologically active in a TCF/lef‐luciferase reporter gene assay and is able to bind LRP6 coreceptor. In SDS‐PAGE, huDKK1 exhibits molecular weights of 27–28 K and 30 K at ∼ 1:9 ratio. By MALDI‐MS analysis, the observed molecular weights of 27.4K and 29.5K indicate that the low molecular weight form may contain O‐linked glycans while the high molecular weight form contains both N‐ and O‐linked glycans. LC‐MS/MS peptide mapping indicates that ∼ 92% of huDKK1 is glycosylated at Asn^225^ with three N‐linked glycans composed of two biantennary forms with 1 and 2 sialic acid (23% and 60%, respectively), and one triantennary structure with 2 sialic acids (9%). HuDKK1 contains two O‐linked glycans, GalNAc (sialic acid)‐Gal‐sialic acid (65%) and GalNAc‐Gal[sialic acid] (30%), attached at Ser30 as confirmed by β‐elimination and targeted LC‐MS/MS. The 10 intramolecular disulfide bonds at the N‐ and C‐terminal cysteine‐rich domains were elucidated by analyses including multiple proteolytic digestions, isolation and characterization of disulfide‐containing peptides, and secondary digestion and characterization of selected disulfide‐containing peptides. The five disulfide bonds within the huDKK1 N‐terminal domain are unique to the DKK family proteins; there are no exact matches in disulfide positioning when compared to other known disulfide clusters. The five disulfide bonds assigned in the C‐terminal domain show the expected homology with those found in colipase and other reported disulfide clusters.