Amine functionalized polyethers as bile acid sequestrants: Synthesis and biological evaluation

A series of amine functionalized polymers based on polyether backbones was prepared by the chemical modification of poly(epichlorohydrin) and poly(2-chloroethylvinyl ether). Nucleophilic substitution of pendant chloroalkyl groups offers a versatile route to prepare hydrophilic, cationic polymers. Through the choice of appropriate experimental conditions, including solvent, temperature, and amine reagent, a high degree of substitution at the chloromethyl groups can be achieved. Depending on the nature of the amine used, both water-soluble and amphiphilic cationic polymers were obtained. Crosslinked hydrogels were prepared by either subsequent crosslinking of the amine functional polyethers or by reaction of chloroalkyl polyethers with multifunctional amines. These amine functional polyethers exhibited promising bile acid sequestration properties during in vivo experiments using hamsters as animal models, providing a novel approach for treating hypercholesterolemia. Some of these polymers show efficacy superior to commercially available bile acid sequestrants. The results suggest that these novel polyammonium. gels may be useful as cholesterol lowering agents.