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Issue 7, 2018
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Synthetic glycopolymers as modulators of protein aggregation: influences of chemical composition, topology and concentration

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Abstract

Novel drug excipients are required to achieve stable formulations of protein drug candidates. Synthetic glycopolymers have been shown in some cases to improve protein formulation stability, although their structure–function relationship remains unknown. Here we report the synthesis of linear or 4-arm star glycopolymers with different molecular topology and chemical composition, with mannose, galactose, arabinose, N-acetyl glucosamine, lactose and trehalose pendant units – and investigate their modulation of conformational stability and aggregation propensity of a model monoclonal antibody (mAb1). Mono-and di-saccharides with free reducing ends are not frequently utilised as protein stabilisers, due to potential reactivity with protein's amine group. In this study, this was circumvented through the use of a stable acetal linker connecting the polymer backbone to the sugar pendant residues, which made the latter virtually non-reactive with amines. The general destabilisation of the antibody was determined as an unfolding transition temperature (Tm) of CH2 and Fab structural domains, and aggregation temperature (Tagg). The most prominent effect of the glycopolymers on a temperature induced stress in low concentration solutions was a decrease in Tm and Tagg, regardless of the sugar composition or glycopolymer topology – in contrast to the stabilising effect of the corresponding mono- and di-saccharide constituents. The exceptions of linear-lactose and star-trehalose glycopolymers, which increased Tm of the mAb Fab region and Tagg, however, highlight a more complex structure–function relationship. Accelerated stability studies of the highly concentrated mAb solutions (50 mg mL−1) revealed that the increased glycopolymer concentrations generally decreased the mAb stability, as judged by the amount of mAb1 ‘monomer’ molecules in solution, with star- and linear-trehalose glycopolymers further generating visible aggregates. Interestingly the latter effect could not have been predicted from the Tm or Tagg experiments conducted in a low concentration regime. Taken together, the data demonstrate the influence of a complex interplay of sugar chemistry and molecular topology of the synthetic glycopolymers on their modulation of protein conformational stability and aggregation propensity. The solution concentration was also an important parameter contributing to the stability modulation, and suggests that the stabilising properties of a sugar as a mono- or di-saccharide cannot be extrapolated to the corresponding glycopolymers.

Graphical abstract: Synthetic glycopolymers as modulators of protein aggregation: influences of chemical composition, topology and concentration

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Publication details

The article was received on 14 Oct 2017, accepted on 15 Jan 2018 and first published on 15 Jan 2018


Article type: Paper
DOI: 10.1039/C7TB02720F
Citation: J. Mater. Chem. B, 2018,6, 1044-1054
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    Synthetic glycopolymers as modulators of protein aggregation: influences of chemical composition, topology and concentration

    J. Madeira do O, F. Mastrotto, N. Francini, S. Allen, C. F. van der Walle, S. Stolnik and G. Mantovani, J. Mater. Chem. B, 2018, 6, 1044
    DOI: 10.1039/C7TB02720F

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