Polyaminoglycoside-mediated cell reprogramming system for the treatment of diabetes mellitus

Diabetes mellitus is a disease of metabolism, featuring persistent hyperglycaemia due to insufficient insulin secretion or insulin resistance. At present, the generation of new beta cells from autologous cells by ectopic expression of specific transcription factors is a promising treatment for diabetes. The application of this strategy urgently needs safe and effective gene delivery vectors. In this work, a therapeutic plasmid (pNPMN-PBase), combined multiple specific transcription factors Ngn3, Pdx1, Mafa and Neruod1 (NPMN), was firstly constructed. Then, phenylboronic acid (PBA)-functionalized branched polymers (SS-HPT-P) have been proposed to deliver pNPMN-PBasefor the promising treatment of diabetes. SS-HPT-P had good biocompatibility and low cytotoxicity, and could achieve liver-targeted delivery. SS-HPT-P/pNPMN-PBase system can effectively realize the liver delivery of exogenous therapeutic genes, induce the reprogramming of hepatocytes into beta-like cells, reestablish the endogenous insulin-expression system, and alleviate diabetes and its complications. The present study thus provides an effective strategy for the cell replacement therapy of diabetes. SS-HPT-P/pNPMN-PBase system can effectively realize the liver delivery of exogenous therapeutic genes, induce the reprogramming of hepatocytes into beta-like cells, reestablish the endogenous insulin-expression system. [Display omitted]