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.
Small interfering RNA (siRNA)-based gene therapy has provided an alternative strategy for cancer therapy. One of the key components within gene therapy process is the delivery system. As a novel non-viral gene vector, DMP, prepared by modifying mPEG-PCL micelle with cationic DOTAP lipid, has been prepared and successfully applied in plasmid DNA-based colon cancer gene therapy study. However, its potential in siRNA delivery is unknown. In this study, the preparation process of DMP was optimized and the anti-cancer efficacies of the DMP/siMcl1 and DMP/siBcl-xl complexes were studied on a mouse colon cancer model. Our results demonstrated that DMP cationic micelle-delivered siRNAs could effectively inhibit the growth of C26 colon cancer cells in vitro
.
Meanwhile, intratumoral administration of DMP/siMcl1 and DMP/siBcl-xl complexes obviously suppressed subcutaneous tumor model in vivo. These results suggest the DMP/siRNA complex to be a potential candidate for cancer gene therapy.
Immunogene therapy is an alternative strategy for cancer gene therapy. By stimulating the activities of immune cells in the tumor microenvironment, the genetic materials boost the immune response to attack cancer cells resulting in therapeutic effects. Interleukin-12 is an important regulator with great potential in modulating both innate and adaptive immunities. Here, a cancer immunogene therapy strategy was established and evaluated by delivering the IL-12 gene with a novel non-viral gene vector DMP. The DMP cationic micelles were prepared by modifying monomethoxy poly(ethylene glycol)-poly(ε-caprolactone) with the DOTAP lipid via self-assembly. The anti-cancer efficacy of the DMP/IL-12 complex was studied on multiple murine cancer models via both local and systemic administration. Our results demonstrated that the secretory expressed IL-12 cytokine effectively enhanced lymphocytes activities resulting in strong inhibition of cancer cell growth in vitro. Meanwhile, there were obvious tumor regressions achieved in tumor models of C26 colon carcinoma and LL/2 lung cancer in vivo. Multiple anti-cancer mechanisms including T cell infiltration, TNF-α secretion, apoptosis induction and angiogenesis inhibition are involved; no pathology changes were observed in healthy tissues. These results suggest that the DMP/IL-12 complex is a potential candidate for cancer immunogene therapy.
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