Proximity ligation assay evaluates IDH1R132H presentation in gliomas
Lukas Bunse, … , Wolfgang Wick, Michael Platten
Lukas Bunse, … , Wolfgang Wick, Michael Platten
Published January 2, 2015
Citation Information: J Clin Invest. 2015;125(2):593-606. https://doi.org/10.1172/JCI77780.
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Proximity ligation assay evaluates IDH1R132H presentation in gliomas

Abstract

For a targeted cancer vaccine to be effective, the antigen of interest needs to be naturally processed and presented on MHC by the target cell or an antigen-presenting cell (APC) in the tumor stroma. The presence of these characteristics is often assumed based on animal models, evaluation of antigen-overexpressing APCs in vitro, or assays of material-consuming immune precipitation from fresh solid tissue. Here, we evaluated the use of an alternative approach that uses the proximity ligation assay (PLA) to identify the presentation of an MHC class II–restricted antigen in paraffin-embedded tissue sections from patients with brain tumors. This approach required a specific antibody directed against the epitope that was presented. We used an antibody that specifically binds an epitope of mutated isocitrate dehydrogenase type 1 (IDH1R132H), which is frequently expressed in gliomas and other types of tumors. In situ PLA showed that the IDH1R132H epitope colocalizes with MHC class II in IDH1R132H-mutated glioma tissue. Moreover, PLA demonstrated colocalization between the class II epitope-containing melanoma antigen New York esophageal 1 and MHC class II. Collectively, our data suggest that PLA may be a useful tool to acquire information on whether an antigen is presented in situ, and this technique has potential to guide clinical studies that use antigen-specific cancer immunotherapy.

Authors

Lukas Bunse, Theresa Schumacher, Felix Sahm, Stefan Pusch, Iris Oezen, Katharina Rauschenbach, Marina Gonzalez, Gergely Solecki, Matthias Osswald, David Capper, Benedikt Wiestler, Frank Winkler, Christel Herold-Mende, Andreas von Deimling, Wolfgang Wick, Michael Platten

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Figure 7

Specific colocalization of IDH1R132H and MHC class II in glioma tissue.

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Specific colocalization of IDH1R132H and MHC class II in glioma tissue. ...
(A) IDH1R132H–HLA-DR PLA on HLA-DR+ glioma tissues p001 (IDH1R132H), p002 (IDH1R132H), and p003 (IDH1WT). Red, PLA signal; blue, DAPI. Scale bar: 20 μm. (B) Quantification of PLA signal in IDH1R132H+ (n = 20) and IDH1WT (n = 19) glioma tissues in situ. The red dashed line indicates the threshold level for PLA positivity, which was set to 1 PLA signal per nuclei (DAPI signal). ***P = 0.0004, Fisher’s exact test. (C) Quantification algorithm of exemplary glioma tissue (p041). IDH1R132H–HLA-DR PLA on exemplary glioma tissue, with stroma and tumor bulk shown as indicated. Red, PLA signal; blue, DAPI. Scale bar: 20 μm. Analysis and quantification of DAPI signals (red numbers) in stroma and tumor bulk is shown at center. Analysis and quantification of PLA signals (red numbers) in stroma and tumor bulk is shown at right. (D) Quantification of PLA signal per nuclei (DAPI signal) in exemplary glioma tissue. (E) Representative HLA-DR IHC of glioma tissues p006, p007, p011, and p012. Scale bar: 40 μm. (F) IDH1R132H–HLA-DR PLA on HLA-DR+IDH1R132H+ glioma tissues p039 and p031 costained with IDH1R132H (H09). Green, IDH1R132H; red, PLA signal, blue, DAPI. Scale bar: 15 μm. (G) PLA on HLA-DR+ glioma tissues p006 (IDH1R132H) and p012 (IDH1WT) costained with IBA-1. Green, IBA-1; red, PLA signal. Scale bar: 20 μm. Each patient was analyzed once. Insets show high-magnification images of the boxed areas.