Prevalent expression of the immunostimulatory MHC class I chain–related molecule is counteracted by shedding in prostate cancer
Jennifer D. Wu, Lily M. Higgins, Alexander Steinle, David Cosman, Kathy Haugk, Stephen R. Plymate
Jennifer D. Wu, Lily M. Higgins, Alexander Steinle, David Cosman, Kathy Haugk, Stephen R. Plymate
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Article Oncology

Prevalent expression of the immunostimulatory MHC class I chain–related molecule is counteracted by shedding in prostate cancer

Abstract

The MHC class I chain–related molecules (MICs) have previously been shown to be induced on most epithelial tumor cells. Engagement of MIC by the activating immune receptor NKG2D triggers NK cells and augments antigen-specific CTL anti-tumor immunity. The MIC-NKG2D system was proposed to participate in epithelial tumor immune surveillance. Paradoxically, studies suggest that tumors may evade MIC-NKG2D–mediated immunity by MIC shedding–induced impairment of effector cell function. Here we demonstrate the first evidence to our knowledge of a significant correlation of MIC shedding and deficiency in NK cell function with the grade of disease in prostate cancer. MIC is widely expressed in prostate carcinoma. The presence of surface target MIC, however, is counteracted by shedding. A significant increase in serum levels of soluble MIC (sMIC) and deficiency in NK cell function was shown in patients with advanced cancer. Finally, the deficiency in NK cell function can be overcome by treatment with IL-2 or IL-15 in vitro. Our results suggest that (a) deficiency in MIC-NKG2D immune surveillance may contribute to prostate cancer progression, (b) sMIC may be a novel biomarker for prostate cancer, and (c) using cytokines to restore MIC-NKG2D–mediated immunity may have clinical significance for prostate cancer in cell-based adaptive immunotherapy.

Authors

Jennifer D. Wu, Lily M. Higgins, Alexander Steinle, David Cosman, Kathy Haugk, Stephen R. Plymate

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MIC expression in prostate cancer cell lines and susceptibility of prost...
MIC expression in prostate cancer cell lines and susceptibility of prostate cancer cells to NK cell activation in an NKG2D-dependent fashion. (A) Flow cytometry analysis of MIC expression in PrECs and the prostate cancer cell lines M12, PC-3, and LnCaP. White profiles represent staining with control mouse IgG (mIgG); black profiles represent staining with the BAMO1 mAb against MIC (MIC); and gray profiles represent staining with the W6/32 mAb against MHC I (MHC I). (B) Cytotoxicity of NK cells isolated from a healthy individual against M12 target cells at the indicated effector/target (E/T) ratios. NK cell cytotoxicity was inhibited by masking of NKG2D on NK cells or of MIC on M12 cells with 10 μg/ml of antibody M585 (+ anti-NKG2D) (31) or BAMO1 (+ anti-MIC) (30), respectively, but was not affected by control mouse IgG (+ IgG). Data shown are mean ± SD of triplicates. Results shown are representative of three independent experiments.