Blockade of the immunosuppressive KIR2DL5/PVR pathway elicits potent human NK cell–mediated antitumor immunity
Xiaoxin Ren, … , Deyou Zheng, Xingxing Zang
Xiaoxin Ren, … , Deyou Zheng, Xingxing Zang
Published November 15, 2022
Citation Information: J Clin Invest. 2022;132(22):e163620. https://doi.org/10.1172/JCI163620.
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Research Article Immunology Oncology

Blockade of the immunosuppressive KIR2DL5/PVR pathway elicits potent human NK cell–mediated antitumor immunity

Abstract

Cancer immunotherapy targeting the TIGIT/PVR pathway is currently facing challenges. KIR2DL5, a member of the human killer cell, immunoglobulin-like receptor (KIR) family, has recently been identified as another binding partner for PVR. The biology and therapeutic potential of the KIR2DL5/PVR pathway are largely unknown. Here we report that KIR2DL5 was predominantly expressed on human NK cells with mature phenotype and cytolytic function and that it bound to PVR without competition with the other 3 known PVR receptors. The interaction between KIR2DL5 on NK cells and PVR on target cells induced inhibitory synapse formation, whereas new monoclonal antibodies blocking the KIR2DL5-PVR interaction robustly augmented the NK cytotoxicity against PVR+ human tumors. Mechanistically, both intracellular ITIM and ITSM of KIR2DL5 underwent tyrosine phosphorylation after engagement, which was essential for KIR2DL5-mediated NK suppression by recruiting SHP-1 and/or SHP-2. Subsequently, ITIM/SHP-1/SHP-2 and ITSM/SHP-1 downregulated the downstream Vav1/ERK1/2/p90RSK/NF-κB signaling. KIR2DL5+ immune cells infiltrated in various types of PVR+ human cancers. Markedly, the KIR2DL5 blockade reduced tumor growth and improved overall survival across multiple NK cell–based humanized tumor models. Thus, our results revealed functional mechanisms of KIR2DL5-mediated NK cell immune evasion, demonstrated blockade of the KIR2DL5/PVR axis as a therapy for human cancers, and provided an underlying mechanism for the clinical failure of anti-TIGIT therapies.

Authors

Xiaoxin Ren, Mou Peng, Peng Xing, Yao Wei, Phillip M. Galbo Jr., Devin Corrigan, Hao Wang, Yingzhen Su, Xiaoshen Dong, Qizhe Sun, Yixian Li, Xiaoyu Zhang, Winfried Edelmann, Deyou Zheng, Xingxing Zang

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Figure 1

Generation and characterization of anti-KIR2DL5–specific mAbs.

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Generation and characterization of anti-KIR2DL5–specific mAbs. (A) The s...
(A) The specificity of anti-KIR2DL5 mAb clone F8B30. 3T3 cells transduced with indicated KIR family members were stained with 5 μg/mL of F8B30 (open) or mIgG1 (shaded). (B) 3T3 cells transduced with D0-deleted (KIR2DL5 dD0) or D2-deleted KIR2DL5 (KIR2DL5 dD2) were stained with 5 μg/mL of clone F8B30 or commercial clone UP-R1. (C) Anti-KIR2DL5 mAb clone F8B30 recognized different KIR2DL5A and 5B alleles. 3T3 cells transduced with indicated alleles were stained with 5 μg/mL of F8B30 or UP-R1 (open) or mIgG1 (shaded). (D) Anti-KIR2DL5 mAb clone F8B30 recognized different KIR2DL5 D0 domain variants. 3T3 cells transduced with indicated D0 variants were stained with 0.025 μg/mL of F8B30 or UP-R1 (open) or mIgG1 (shaded). In AD, data are representative of 2 independent experiments.