Heterogeneity in utilization of N-glycosylation sites Asn624 and Asn138 in human lactoferrin: a study with glycosylation-site mutants

Abstract

Human lactoferrin (hLF) is a glycoprotein involved in the host defence against infection and excessive inflammation. Our objective was to determine to what extent each of the three sequons for N-linked glycosylation in hLF is actually used. Human kidney-derived 293(S) cell lines expressing recombinant hLF (rhLF) or glycosylation-site mutants were produced. The mutations involved replacement of asparagine residues with glutamine at one or more sequons for N-glycosylation (Asn¹³⁸, Asn⁴⁷⁹ and Asn⁶²⁴). Comparative SDS/PAGE analyses of rhLF, mutated rhLF and human-milk-derived (natural) hLF led us to propose that glycosylation of hLF occurs at two sites (at Asn¹³⁸ and Asn⁴⁷⁹) in approx. 85% of all hLF molecules. Glycosylation at a single site (Asn⁴⁷⁹) or at all three sites occurs in approx. 5% and 9% of hLF respectively. The extent of glycosylation at Asn⁶²⁴ was increased to approx. 29% and 40% of Asn⁴⁷⁹ and Asn^138/479 mutant molecules respectively, which indicates that glycosylation at Asn⁶²⁴ in natural hLF might be limited by glycosylation at Asn⁴⁷⁹. The presence in supernatant of unglycosylated hLF (approx. 60% of the total) after mutations of Asn¹³⁸ and Asn⁴⁷⁹ suggests that glycosylation of hLF is not an absolute requirement for its secretion. The pronounced degradation of unglycosylated hLF in supernatant after mutation at all three glycosylation sites (Asn^138/479/624 mutant) but not after mutation at both Asn¹³⁸ and Asn⁴⁷⁹ suggests that an altered conformation rather than the lack of glycosylation has rendered the Asn^138/479/624 mutant susceptible to intra- and/or extra-cellular degradation.