Discrete polyethylene glycol derivatives as a potent impetus for next-generation biomedicines

Abstract

PEGylation, which covalently modifies small-molecule drugs, peptides and proteins with polyethylene glycol (PEG) to improve their pharmacokinetics and efficacy, has become one of the most widely used drug modification techniques. However, PEG and its derivatives have been verified to be immunogenic and antigenic, which directly lead to side effects such as accelerated blood clearance (ABC) phenomenon and allergic reactions to PEGylated drugs or PEG excipients. Recent development of single molecular weight discrete PEG synthesis methodology have led to continuous and extensive focus on the difference in biological activity between conventional polydisperse PEG and single molecular weight precise PEG. Discrete PEG has demonstrated obvious advantages in resisting protein adsorption, cell adhesion and enhancing drug efficacy. These preliminary results not only confirm the significant impact of PEG chain polydispersity on its biological effect, but also reveal the possibility and potential advantages of using discrete PEG to reduce the immunogenicity and antigenicity. Hopefully, single chemical structure and molecular weight ensure the batch repeatability of newly developed discrete PEG products, and facilitate the understanding of their physicochemical properties and biological effects that promoting the clinical conversion of precise PEG drugs.