Secretion of Fc-amidated peptide fusion proteins by Chinese hamster ovary cells
نویسندگان
چکیده
BACKGROUND The therapeutic use of α-amidated peptides (e.g. calcitonin, glucagon-like peptide) has increased dramatically, but there are major impediments to wider use of such peptides. Larger peptides are expensive to synthesize, and short plasma half-lives frequently limit the clinical circumstances in which the peptides would be useful. Both problems are potentially solved by producing peptides as fusions with the Fc region of human immunoglobulin. METHODS Glucagon-like peptide 1 (GLP1), peptide YY (PYY) and neuromedin U (NMU) were expressed and purified from stable CHO lines; since the α-amide group is essential for full biological potency of many peptides, Fc-fusion peptides were expressed in CHO lines stably expressing the α-amidating enzyme, peptidylglycine α-amidating monooxygenase (PAM: EC 1.14.17.3). Purified fusion proteins were analyzed intact and after HRV3C rhinovirus protease cleavage, at a site in the linker separating the Fc region from the peptide, by mass spectrometry and amide-specific immunoassays. RESULTS The Fc fusions were expressed at 1-2.5 μg/mg cell protein and secreted at 5-20% of cell content per hour, in a peptide-specific manner. CHO cells express measurable endogenous PAM activity, amidating 25% of Fc-PYY and almost 90% of Fc-GLP1. Expression of exogenous PAM increased the level of peptide amidation to 50% of Fc-PYY and 95 % of Fc-NMU. The Fc-GLP1 fusions were 10,000-fold less active than synthetic GLP1 in a cell-receptor cyclic AMP-based assay, as expected since the amino terminal of GLP1 is essential for full biological activity. The Fc-PYY fusions were 100-fold less active than PYY-NH2 but 10-fold more active than non-amidated PYY-Gly. CONCLUSIONS This type of approach can be used for the production of stabilized α-amidated peptides aimed at clinical trials.
منابع مشابه
Optimizing production of Fc-amidated peptides by Chinese hamster ovary cells
BACKGROUND Amidation of the carboxyl terminal of many peptides is essential for full biological potency, often increasing receptor binding and stability. The single enzyme responsible for this reaction is peptidylglycine α-amidating monooxygenase (PAM: EC 1.14.17.3), a copper- and ascorbate-dependent Type I membrane protein. METHODS To make large amounts of high molecular weight amidated prod...
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