Soluble PD-L1 works as a decoy in lung cancer immunotherapy via alternative polyadenylation
Ray Sagawa, … , Kengo Takeuchi, Ryohei Katayama
Ray Sagawa, … , Kengo Takeuchi, Ryohei Katayama
Published December 7, 2021
Citation Information: JCI Insight. 2022;7(1):e153323. https://doi.org/10.1172/jci.insight.153323.
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Research Article Immunology Oncology

Soluble PD-L1 works as a decoy in lung cancer immunotherapy via alternative polyadenylation

Abstract

Immune checkpoint therapy targeting the PD-1/PD-L1 axis is a potentially novel development in anticancer therapy and has been applied to clinical medicine. However, there are still some problems, including a relatively low response rate, innate mechanisms of resistance against immune checkpoint blockades, and the absence of reliable biomarkers to predict responsiveness. In this study of in vitro and in vivo models, we demonstrate that PD-L1–vInt4, a splicing variant of PD-L1, plays a role as a decoy in anti–PD-L1 antibody treatment. First, we showed that PD-L1–vInt4 was detectable in clinical samples and that it was possible to visualize the secreting variants with IHC. By overexpressing the PD-L1–secreted splicing variant on MC38 cells, we observed that an immune-suppressing effect was not induced by their secretion alone. We then demonstrated that PD-L1–vInt4 secretion resisted anti–PD-L1 antibody treatment, compared with WT PD-L1, which was explicable by the PD-L1–vInt4’s decoying of the anti–PD-L1 antibody. The decoying function of PD-L1 splicing variants may be one of the reasons for cancers being resistant to anti–PD-L1 therapy. Measuring serum PD-L1 levels might be helpful in deciding the therapeutic strategy.

Authors

Ray Sagawa, Seiji Sakata, Bo Gong, Yosuke Seto, Ai Takemoto, Satoshi Takagi, Hironori Ninomiya, Noriko Yanagitani, Masayuki Nakao, Mingyon Mun, Ken Uchibori, Makoto Nishio, Yasunari Miyazaki, Yuichi Shiraishi, Seishi Ogawa, Keisuke Kataoka, Naoya Fujita, Kengo Takeuchi, Ryohei Katayama

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Figure 5

PD-L1–vInt4 demonstrated its function as a decoy in vitro.

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PD-L1–vInt4 demonstrated its function as a decoy in vitro. (A) Evaluatio...
(A) Evaluation of NFAT activity by measuring luminescence when PD-1 effector cells preincubated with αPD-L1 and secreting PD-L1 variants were cocultured with K1_PD-L1 WT cells. PD-L1–v242 and αPD-L1 were added in 3:1 molar ratio, whereas the ratio was 6:1 with PD-L1–vInt4 and αPD-L1. n = 3. **P < 0.01 by paired 2-tail Student’s t test. (B) Comparison of NFAT activity by measuring luminescence — this time using PD-1 effector cells preincubated with nivolumab and secreting PD-L1 variants. Secreted variants do not significantly suppress the signaling; paired 2-tail Student’s t test. Each condition was compared with the third bar counted from the left end in A and B. (C) Evaluation of NFAT activity by measuring luminescence. PD-1 effector cells were cocultured with K1 or K1_PD-L1 WT cells. PD-L1–vInt4 was added at a physiologically plausible concentration and at a 10-fold concentration. Secreted variants do not significantly suppress the signaling; paired 2-tail Student’s t test. Each condition was compared with the bar in the left end in C. Data represent mean ± SEM in AC. (D) Jurkat–PD-1 cells incubated with or without Fc-tagged PD-L1–vInt4 were evaluated with FACS. As for nivolumab, it was added 30 minutes before PD-L1–vInt4.