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<i>In vivo</i> Targeting of DNA Vaccines to Dendritic Cells via the Mannose Receptor Induces Long‐Lasting Immunity against Melanoma

Gopikrishna Moku, Swathi Vangala, Suresh Kumar Gulla, Venu Yakati

2020ChemBioChem34 citationsDOI

Abstract

Abstract Herein, we report effective, C‐type lectin mannose receptor (MR)‐selective, in vivo dendritic cell (DC)‐targeting lipid nanoparticles (LNPs) of a novel lipid‐containing mannose‐mimicking di‐shikimoyl‐ and guanidine head group and two n ‐hexadecyl hydrophobic tails (DSG). Subcutaneous administration of LNPs of the DSG/p‐CMV‐GFP complex showed a significant expression of green fluorescence protein in the CD11c + DCs of the neighboring lymph nodes compared to the control LNPs of the BBG/p‐CMV‐GFP complex. Mannose receptor‐facilitated in vivo DC‐targeted vaccination (s.c.) with the electrostatic complex of LNPs of DSG/pCMV‐MART1 stimulated long‐lasting (270 days post B16F10 tumor challenge) antimelanoma immunity under prophylactic conditions. Remarkably, under therapeutic settings, vaccination (s.c.) with LNPs of the DSG/pCMV‐MART1 complex significantly delayed melanoma growth and improved the survival of mice with melanoma. These findings demonstrate that this nonviral delivery system offers a resilient and potential approach to deliver DNA vaccines encoding tumor antigens to DCs in vivo with high efficacy.

Topics & Concepts

Mannose receptorIn vivoMannoseCD11cDendritic cellImmunologyImmune systemCancer researchCell biologyChemistryBiologyIn vitroBiochemistryMacrophageGeneBiotechnologyPhenotypeImmunotherapy and Immune ResponsesRNA Interference and Gene Deliveryvaccines and immunoinformatics approaches
<i>In vivo</i> Targeting of DNA Vaccines to Dendritic Cells via the Mannose Receptor Induces Long‐Lasting Immunity against Melanoma | Litcius