The growing prevalence of hyperuricemia necessitates the urgent development of more potent treatments. This study aimed to develop, optimize, and evaluate the safety and efficacy of porcine-human recombinant uricase (PHRU) both in vitro and in vivo. The study employed gene editing of PHRU through site-directed mutagenesis, with recombinant proteins expressed in vitro utilizing Escherichia coli. The polyethylene glycol (PEG) approach was employed to augment uricase stability and diminish immunogenicity. The pharmacokinetics and pharmacodynamics of PHRU were tested in vitro and in Sprague Dawley rats. Successful expression of the fusion protein in E. coli and the development of the PEGylated drug were achieved. In vitro experiments confirmed the efficacy of PEG-PHRU in degrading uric acid, with PEGylation not markedly affecting the biological activity of PHRU. Animal studies revealed that PEG-PHRU significantly lowered plasma uric acid levels and mitigated hyperuricemia-induced renal damage in rats. Both drug metabolism and pharmacokinetics exhibited favorable characteristics without observable adverse effects in experimental animals. This novel fusion protein shows the potential for ameliorating hyperuricemia and related renal complications, highlighting it as a promising drug candidate with substantial market applications.
Keywords: PEGylation; preclinical test; protein expression and purification; urate oxidase.
© 2024 the author(s), published by De Gruyter.