A composite MyD88/CD40 switch synergistically activates mouse and human dendritic cells for enhanced antitumor efficacy
Priyadharshini Narayanan, Natalia Lapteva, Mamatha Seethammagari, Jonathan M. Levitt, Kevin M. Slawin, David M. Spencer
Priyadharshini Narayanan, Natalia Lapteva, Mamatha Seethammagari, Jonathan M. Levitt, Kevin M. Slawin, David M. Spencer
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Research Article

A composite MyD88/CD40 switch synergistically activates mouse and human dendritic cells for enhanced antitumor efficacy

Abstract

The in vivo therapeutic efficacy of DC-based cancer vaccines is limited by suboptimal DC maturation protocols. Although delivery of TLR adjuvants systemically boosts DC-based cancer vaccine efficacy, it could also increase toxicity. Here, we have engineered a drug-inducible, composite activation receptor for DCs (referred to herein as DC-CAR) comprising the TLR adaptor MyD88, the CD40 cytoplasmic region, and 2 ligand-binding FKBP12 domains. Administration of a lipid-permeant dimerizing ligand (AP1903) induced oligomerization and activation of this fusion protein, which we termed iMyD88/CD40. AP1903 administration to vaccinated mice enabled prolonged and targeted activation of iMyD88/CD40-modified DCs. Compared with conventionally matured DCs, AP1903-activated iMyD88/CD40-DCs had increased activation of proinflammatory MAPKs. AP1903-activated iMyD88/CD40-transduced human or mouse DCs also produced higher levels of Th1 cytokines, showed improved migration in vivo, and enhanced both antigen-specific CD8+ T cell responses and innate NK cell responses. Furthermore, treatment with AP1903 in vaccinated mice led to robust antitumor immunity against preestablished E.G7-OVA lymphomas and aggressive B16.F10 tumors. Thus, the iMyD88/CD40 unified “switch” effectively and safely replaced exogenous adjuvant cocktails, allowing remote and sustained DC activation in vivo. DC “licensing” through iMyD88/CD40 may represent a mechanism by which to exploit the natural synergy between the TLR and CD40 signaling pathways in DCs using a single small molecule drug and could augment the efficacy of antitumor DC-based vaccines.

Authors

Priyadharshini Narayanan, Natalia Lapteva, Mamatha Seethammagari, Jonathan M. Levitt, Kevin M. Slawin, David M. Spencer

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Figure 5

iMyD88/CD40 enhances the therapeutic efficacy of DC-based vaccines against ectopic tumors.

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iMyD88/CD40 enhances the therapeutic efficacy of DC-based vaccines again...
(A) iMyD88/CD40-DC vaccine effectively controls preestablished aggressive B16 tumors. C57BL/6 mice (n = 10) bearing approximately 5-mm B16.F10 tumors were vaccinated s.c. 3 times, 7 days apart, with TRP2180–188–pulsed BMDCs transduced with Ad (20,000 vp/cell) followed by in vivo CID administration. Tumor growth was monitored biweekly. #P < 0.001, iMyD88/CD40+CID-treated DCs versus CD40L+LPS-DCs (at indicated time points) or LUC+CID-DCs (from day 28, using 2-way ANOVA). (B) Enhanced survival of B16.F10-bearing mice treated with iMyD88/CD40-DCs (n = 10). P = 0.0005, iMyD88/CD40+CID-treated DCs compared with control groups, based on log-rank test. (C) Vaccination with 1 dose of iMyD88/CD40-DCs plus in vivo CID eradicates preestablished E.G7-OVA tumors. On day 8 after inoculation of EG.7-OVA tumors, mice (n = 6) were vaccinated with OVA-pulsed, Ad-transduced (20,000 vp/cell) BMDCs, activated with 50 nM CID and/or LPS (250 ng/ml) and CD40L (2 μg/ml). *P < 0.05, iMyD88/CD40+CID DCs versus LUC+LPS+CID DCs; #P < 0.001, iMyD88/CD40+CID DCs versus LUC+LPS+CID DCs or iMyD88/CD40 DCs (no in vivo CID); from 2-way ANOVA. (D) Elevated iMyD88/CD40 transgene expression correlates with improved DC vaccine efficacy. E.G7-OVA tumor-bearing mice (n = 6) were vaccinated with BMDCs transduced with either 20,000 vp or 1,250 vp/cell of Ad-iMyD88/CD40 and activated in vitro with 50 nM CID, with or without in vivo CID, *P < 0.05 (2-tailed), 20,000 vp iMC+CID DCs versus 20,000 vp iMC DCs (no in vivo CID); **P < 0.01 (2-tailed), 1,250 vp iMC+CID DCs versus 1,250 vp iMC DCs (no in vivo CID). Data representative of 2 independent experiments. Data are represented as mean ± SEM.