Background: In vitro transcribed (IVT) mRNA has been applied as an alternative therapeutic molecule to plasmid DNA in the field of cancer therapy and biomedical research studies. mRNA-based therapy has demonstrated several advantages over its DNA counterparts. However, its further therapeutic application is largely restricted by delivery method.
Methods: In this work, a liposome-protamine lipoplex (CLPP) was prepared to deliver IVT mRNA encoding survivin-T34A gene, forming a novel core-shell structured nanoparticle formulation (CLPP/mSur-T34A).
Results: The prepared CLPP/mSur-T34A particle had an average size of 186.1±3.1 nm, displaying high mRNA transfecting and expression efficiency on C26 tumor cells through lipid rafts-mediated endocytosis. CLPP/mSur-T34A mRNA formulation demonstrated obvious therapeutic effects on various models of C26 colon cancer both in vitro and in vivo. Particularly, local and systemic administration of CLPP/mSur-T34A particle exhibited superior antitumor effect regarding its DNA plasmid counterpart with high safety.
Conclusion: Our results indicated the high delivery capacity of liposome-protamine lipoplex and further suggested CLPP/mSur-T34A mRNA formulation to be a potential candidate for colon cancer therapy.
Keywords: mRNA gene therapy, colon cancer, nonviral vector, systemic delivery