Journal
MOLECULAR THERAPY-NUCLEIC ACIDS
Volume 29, Issue -, Pages 387-399Publisher
CELL PRESS
DOI: 10.1016/j.omtn.2022.07.020
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Funding
- Fundacion Bancaria La Caixa
- Ministerio de Ciencia e Innovacion [PID2019-108989RB-I00]
- Instituto Salud Carlos III
- Feder Funds [PI17/01859, PI20/00415]
- CARPanTu [PLEC2021-008094, MCIN/AEI/10.13039/501100011033/European Union NextGenerationEU/PRTR]
- Gobierno de Navarra Industria [0011-1411-2019-000079, 0011-1411-2022-000088]
- Gobierno de Navarra Departamento de Salud [64/2019]
- European Regional Development Fund
- Ayudas predoctorales de investigacion biomedica AC
- Gobierno de Navarra
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Local delivery of alphavirus vectors based on self-amplifying RNA through in vivo electroporation shows promising results in antitumor therapy, especially when combined with PD-1 blockade, suggesting it as an attractive strategy for cancer immunotherapy.
Alphavirus vectors based on self-amplifying RNA (saRNA) generate high and transient levels of transgene expression and induce innate immune responses, making them an inter-esting tool for antitumor therapy. These vectors are usually delivered as viral particles, but it is also possible to administer them as RNA. We evaluated this possibility by in vivo electro-poration of Semliki Forest virus (SFV) saRNA for local treat-ment of murine colorectal MC38 subcutaneous tumors. Opti-mization of saRNA electroporation conditions in tumors was performed using an SFV vector coding for luciferase. Then we evaluated the therapeutic potential of this approach using an SFV saRNA coding for interleukin-12 (SFV-IL-12), a proin-flammatory cytokine with potent antitumor effects. Delivery of SFV-IL-12 saRNA by electroporation led to improvement in tumor control and higher survival compared with mice treated with electroporation or with SFV-IL-12 saRNA alone. The anti-tumor efficacy of SFV-IL-12 saRNA electroporation increased by combination with systemic PD-1 blockade. This therapy, which was also validated in a hepatocellular carcinoma tumor model, suggests that local delivery of saRNA by electroporation could be an attractive strategy for cancer immunotherapy. This approach could have easy translation to the clinical practice, especially for percutaneously accessible tumors.
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