The large-scale production of recombinant biopharmaceutical glycoproteins in the milk of transgenic animals is becoming more widespread. However, in comparison with bacterial, plant cell, or cell culture production systems, little is known about the glycosylation machinery of the mammary gland, and hence on the glycosylation of recombinant glycoproteins produced in transgenic animals. Here the influence is presented of several lactation parameters on the N-glycosylation of recombinant C1 inhibitor (rhC1INH), a human serum glycoprotein, expressed in the milk of transgenic rabbits. Enzymatically released N-glycans of series of rhC1INH samples were fluorescently labeled and fractionated by HPLC. The major N-glycan structures on rhC1INH of pooled rabbit milk were similar to those on native human C1 inhibitor and recombinant human C1 inhibitor produced in transgenic mouse milk, with only the degree of sialylation and core fucosylation being lower. Analyses of individual animals furthermore showed slight interindividual differences; a decrease in the extent of sialylation, core fucosylation, and oligomannose-type glycosylation with the progress of lactation; and a positive correlation between expression level and oligomannose-type N-glycan content. However, when large quantities of rhC1INH were isolated for preclinical and clinical studies, highly consistent N-linked glycan profiles and monosaccharide compositions were found.
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