LAG-3 regulates CD8+ T cell accumulation and effector function in murine self- and tumor-tolerance systems
Joseph F. Grosso, … , Drew M. Pardoll, Charles G. Drake
Joseph F. Grosso, … , Drew M. Pardoll, Charles G. Drake
Published October 11, 2007
Citation Information: J Clin Invest. 2007;117(11):3383-3392. https://doi.org/10.1172/JCI31184.
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Research Article Oncology

LAG-3 regulates CD8+ T cell accumulation and effector function in murine self- and tumor-tolerance systems

Abstract

Lymphocyte activation gene-3 (LAG-3) is a cell-surface molecule with diverse biologic effects on T cell function. We recently showed that LAG-3 signaling is important in CD4+ regulatory T cell suppression of autoimmune responses. Here, we demonstrate that LAG-3 maintains tolerance to self and tumor antigens via direct effects on CD8+ T cells using 2 murine systems. Naive CD8+ T cells express low levels of LAG-3, and expression increases upon antigen stimulation. Our data show increased levels of LAG-3 protein on antigen-specific CD8+ T cells within antigen-expressing organs or tumors. In vivo antibody blockade of LAG-3 or genetic ablation of the Lag-3 gene resulted in increased accumulation and effector function of antigen-specific CD8+ T cells within organs and tumors that express their cognate antigen. Most notably, combining LAG-3 blockade with specific antitumor vaccination resulted in a significant increase in activated CD8+ T cells in the tumor and disruption of the tumor parenchyma. A major component of this effect was CD4 independent and required LAG-3 expression by CD8+ T cells. Taken together, these data demonstrate a direct role for LAG-3 on CD8+ T cells and suggest that LAG-3 blockade may be a potential cancer treatment.

Authors

Joseph F. Grosso, Cristin C. Kelleher, Timothy J. Harris, Charles H. Maris, Edward L. Hipkiss, Angelo De Marzo, Robert Anders, George Netto, Derese Getnet, Tullia C. Bruno, Monica V. Goldberg, Drew M. Pardoll, Charles G. Drake

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Figure 3

Visualization of clone 4 cells within prostates and tumor growth inhibition after αLAG-3 treatment.

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Visualization of clone 4 cells within prostates and tumor growth inhibit...
We transferred 106 Thy1.1+ clone 4 CD8+ cells into 12- to 15-week-old Thy1.2+ ProHA × TRAMP mice. Mice received VV-HA with or without αLAG-3 on the same day as the cell transfers. Mice receiving αLAG-3 were reinjected with αLAG-3 3 days after transfer. Seven days after cell transfers, mice were sacrificed. Prostates from each group (control, αLAG-3, VV-HA, and VV-HA/αLAG-3) were pooled and subsequently split into 2 groups: one for frozen sections (A and B) and the other for flow cytometry analysis (C). Few prostate-infiltrating lymphocytes were seen in nontreated or αLAG-3–treated mice. H&E and Thy1.1 immunofluorescence revealed lymphocytic infiltration after VV-HA and VV-HA/αLAG-3 treatment with disrupted architecture and Thy1.1 cells invading the prostatic lumen only after VV-HA/αLAG-3 treatment. For Thy1.1 staining, no visible cells were present in control or αLAG-3 samples (data not shown). Original magnification, ×200.