Journal article
Half-life– extended recombinant coagulation factor IX–albumin fusion protein is recycled via the FcRn-mediated pathway
J Chia, J Louber, I Glauser, S Taylor, GT Bass, SK Dower, PA Gleeson, AM Verhagen
Journal of Biological Chemistry | AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC | Published : 2018
Abstract
The neonatal Fc receptor (FcRn) has a pivotal role in albumin and IgG homeostasis. Internalized IgG captured by FcRn under acidic endosomal conditions is recycled to the cell surface where exocytosis and a shift to neutral pH promote extracellular IgG release. Although a similar mechanism is proposed for FcRn-mediated albumin intracellular trafficking and recycling, this pathway is less well defined but is relevant to the development of therapeutics exploiting FcRn to extend the half-life of short-lived plasma proteins. Recently, a long-acting recombinant coagulation factor IX–albumin fusion protein (rIX-FP) has been approved for the management of hemophilia B. Fusion to albumin potentially ..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
This work was supported in part by Linkage Grant LP130100531 from the Australian Research Council and by Internship Scholarship AMSIIntern INT-0265 (to G. T. B.). J. C., I. G., S. T., S. K. D., and A. M. V. are employees of CSL Limited and are able to partake in employee share option schemes. J. L. and P. A. G. are supported by research funding from CSL Limited through an Australian Research Council linkage grant collaboration.