
Journal of Medicinal Chemistry p. 4179 - 4190 (1995)
Update date:2022-08-28
Topics:
Mammen
Dahmann
Whitesides
Highly effective sialic acid-containing inhibitors of influenza virus X- 31 were synthesized using poly[N-(acryoyloxy)succinimide] (pNAS), a polymer preactivated by incorporation of active ester groups. Polymers containing two and three different components were prepared by sequential reaction of pNAS with two and three amines, respectively. This preparation of co- and terpolymers was synthetically more efficient than methods involving copolymerization of different monomers and gave polymers that were more easily compared than those generated by copolymerization. Polymers in this study (prepared from a single batch of pNAS) had a constant degree of polymerization (DP ? 2000) and probably had a distribution of components that was more random than analogous polymers prepared by copolymerization. Use of C-glycosides of sialic acid made it possible to investigate inhibition by different polymers at temperatures ranging from 4 to 36°C without artifacts due to the hydrolytic action of neuraminidase. The inhibitors were, in general, more effective at 36 °C than at 4 °C. The hemagglutination (HAI) assay was used to measure the value of the inhibition constant K(i)/(HAI) each polymer. The value of K(i)/(HAI) for the two-component polymer containing 20% sialic acid on a polyacrylamide backbone at 4 °C was 4 nM (in terms of the sialic acid moieties present in solution) and was approximately 50-fold more effective than the best inhibitors previously described and 25-fold more effective than the best naturally occurring inhibitor. The most effective inhibitor synthesized in this work contained 10% benzyl amine and 20% sialic acid on a polyacrylamide backbone, and its value of K(i)/(HAI) was 600 pM at 36 °C. Approximately 100 polymers that differed in one or two components were assayed to distinguish between two limiting mechanisms for inhibition of the interaction between the surfaces of virus and erythrocytes: high-affinity binding through polyvalency, and steric stabilization. The results suggest that both mechanisms play an important role. The system comprising polyvalent inhibitors of agglutination of erythrocytes by influenza provides a system that may be useful as a model for inhibitors of other pathogen-host interactions, a large number of which are themselves polyvalent.
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