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Stereochemical Control Yields Mucin Mimetic Polymers

Austin G. Kruger, Spencer D. Brucks, Tao Yan, Gerardo Cárcamo‐Oyarce, Yuan Wei, Deborah H. Wen, Dayanne R. Carvalho, Michael J. A. Hore, Katharina Ribbeck, Richard R. Schrock, Laura L. Kiessling

2021ACS Central Science57 citationsDOIOpen Access PDF

Abstract

-glycoproteins that adopt extended linear structures. Glycosylation is integral to mucin function, but other characteristics that give rise to their advantageous biological activities are unknown. We postulated that the extended conformation of mucins is critical for their ability to block microbial virulence phenotypes. To test this hypothesis, we developed synthetic mucin mimics that recapitulate the dense display of glycans and morphology of mucin. We varied the catalyst in a ring-opening metathesis polymerization (ROMP) to generate substituted norbornene-derived glycopolymers containing either cis- or trans-alkenes. Conformational analysis of the polymers based on allylic strain suggested that cis- rather than trans-poly(norbornene) glycopolymers would adopt linear structures that mimic mucins. High-resolution atomic force micrographs of our polymers and natively purified Muc2, Muc5AC, and Muc5B mucins revealed that cis-polymers adopt extended, mucin-like structures. The cis-polymers retained this structure in solution and were more water-soluble than their trans-analogs. Consistent with mucin's linear morphology, cis-glycopolymers were more potent binders of a bacterial virulence factor, cholera toxin. Our findings highlight the importance of the polymer backbone in mucin surrogate design and underscore the significance of the extended mucin backbone for inhibiting virulence.

Topics & Concepts

MucinPolymerControl (management)ChemistryCombinatorial chemistryPolymer scienceComputer scienceNanotechnologyMaterials scienceArtificial intelligenceBiochemistryOrganic chemistryGlycosylation and Glycoproteins ResearchCarbohydrate Chemistry and SynthesisProteoglycans and glycosaminoglycans research