posted on 2023-06-09, 18:04authored byLiefeng Hu, Shuting Li, Yonggang Lv
Transfection
of functional genetic molecules into neuroma cells
to efficiently manipulate gene expression is of great significance
in neuro-associated gene therapy. However, most of the current neuroma
cell gene carriers are based on viruses, which often suffer from inherent
immunogenicity, carcinogenicity, and insertional mutagenesis. Here,
a pH-sensitive linear poly(ortho ester) polycation (POP) with a uniform
distribution of tertiary amine and hydroxyl groups is prepared by
ring-opening polymerization between 4,4′-(oxybis(methylene))bis(2-methoxy-1,3-dioxolane)
(OEDe) and piperazine. The prepared POP/DNA nano-assemblies show good
stability and ultrasensitively controlled DNA release. Significantly,
this linear polymer exhibits good biocompatibility and highly specified
transfection efficiency (∼80%) on human neuroblastoma cells
(SH-SY5Y), which is also serum-tolerant and exhibits deeper transfection
depth. Besides, the non-responsive poly(ethylene glycol) diglycidyl
ether (EGDE) polycation (PEP) is set as a control, fully demonstrating
that the gene carrier POP has great potential in neuroma therapy.