Tumor therapy in mice via antigen targeting to a novel, DC-restricted C-type lectin
David Sancho, … , James R. Carlyle, Caetano Reis e Sousa
David Sancho, … , James R. Carlyle, Caetano Reis e Sousa
Published May 22, 2008
Citation Information: J Clin Invest. 2008;118(6):2098-2110. https://doi.org/10.1172/JCI34584.
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Tumor therapy in mice via antigen targeting to a novel, DC-restricted C-type lectin

Abstract

The mouse CD8α+ DC subset excels at cross-presentation of antigen, which can elicit robust CTL responses. A receptor allowing specific antigen targeting to this subset and its equivalent in humans would therefore be useful for the induction of antitumor CTLs. Here, we have characterized a C-type lectin of the NK cell receptor group that we named DC, NK lectin group receptor-1 (DNGR-1). DNGR-1 was found to be expressed in mice at high levels by CD8+ DCs and at low levels by plasmacytoid DCs but not by other hematopoietic cells. Human DNGR-1 was also restricted in expression to a small subset of blood DCs that bear similarities to mouse CD8α+ DCs. The selective expression pattern and observed endocytic activity of DNGR-1 suggested that it could be used for antigen targeting to DCs. Consistent with this notion, antigen epitopes covalently coupled to an antibody specific for mouse DNGR-1 were selectively cross-presented by CD8α+ DCs in vivo and, when given with adjuvants, induced potent CTL responses. When the antigens corresponded to tumor-expressed peptides, treatment with the antibody conjugate and adjuvant could prevent development or mediate eradication of B16 melanoma lung pseudometastases. We conclude that DNGR-1 is a novel, highly specific marker of mouse and human DC subsets that can be exploited for CTL cross-priming and tumor therapy.

Authors

David Sancho, Diego Mourão-Sá, Olivier P. Joffre, Oliver Schulz, Neil C. Rogers, Daniel J. Pennington, James R. Carlyle, Caetano Reis e Sousa

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Figure 3

Specific labeling of CD8α+ DCs and pDCs in vivo with anti–DNGR-1 mAbs.

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Specific labeling of CD8α+ DCs and pDCs in vivo with anti–DNGR-1 mAbs. ...
(A) Mice were injected i.v. with 100 μg of Alexa Fluor 488–conjugated anti–DNGR-1 (7H11) or isotype-matched control (rat IgG1), and splenocytes were analyzed 1 day later. Dot plots show CD11c versus Alexa Fluor 488 in anti–DNGR-1–injected (right panel) or rat IgG1–injected (left panel) mice. Contour plots show CD4 versus CD8α and Ly6C versus B220 profiles of the CD11chi and CD11cint DNGR-1+ populations circled in the dot plot. Numbers represent percentage of events in the indicated gate. (B) Mice were injected s.c. with the indicated doses of Alexa Fluor 488–conjugated anti–DNGR-1 (7H11) or a single dose of isotype-matched control (rat IgG1, 20 μg/mouse), and splenocytes were analyzed 1 day later. Histograms show staining of CD8α+ DCs or pDCs obtained with different doses of anti–DNGR-1 (green line, 0.5 μg; blue line, 2 μg; red line, 5 μg; thick black line, 20 μg) or isotype-matched control (thin black line). Lower panel shows MFI with anti–DNGR-1 divided by that obtained with 20 μg of isotype-matched control for each DC subset or for non-DC spleen cells.