부산대학교 도서관

Purpose IFN4N is a glycoengineered version of recombinant human interferon alpha 2 (rhIFN-[alpha]2) that was modified to exhibit four N-glycosylation sites. It shows reduced in vitro specific biological activity (SBA) mainly due to R23 mutation by N23. However, it has improved pharmacokinetics and led to a high in vivo antitumor activity in mice. In order to prepare a new IFN-based biobetter, this work compares the influence of glycosylation (affecting pharmacokinetics) with the in vitro antiproliferative SBA on the in vivo efficacy. Methods Based on IFN4N, three groups of muteins were designed, produced, and characterized. Group A: variants with the same glycosylation degree (4N) but higher in vitro antiproliferative SBA (R23 restored); group B: muteins with higher glycosylation degree (5N) but similar in vitro antiproliferative activity; and group C: variants with improved glycosylation (5N and 6N) and in vitro antiproliferative bioactivity. Results Glycoengineering was successful for improving pharmacokinetics, and R23 restoration considerably increased in vitro antiproliferative activity of new muteins compared to IFN4N. Hyperglycosylation was able to improve the in vivo efficacy similarly to or even better than R23 restoration. Additionally, the highest glycosylated mutein exhibited the lowest immunogenicity. Conclusions Hyperglycosylation constitutes a successful strategy to prepare a novel IFN biobetter.
Author(s): Agustina Gugliotta [sup.1], María Jesús Leopold [sup.1], Eduardo Mufarrege [sup.1], Marina Etcheverrigaray [sup.1], Ricardo Kratje [sup.1], Natalia Ceaglio [sup.1], Marcos Oggero [sup.1] Author Affiliations: (1) grid.10798.37, 0000 0001 2172 [...]