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      Tumor‐derived exosomal PD-L1: a new perspective in PD-1/PD-L1 therapy for lung cancer

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          Abstract

          Exosomes play a crucial role in facilitating intercellular communication within organisms. Emerging evidence indicates that a distinct variant of programmed cell death ligand-1 (PD-L1), found on the surface of exosomes, may be responsible for orchestrating systemic immunosuppression that counteracts the efficacy of anti-programmed death-1 (PD-1) checkpoint therapy. Specifically, the presence of PD-L1 on exosomes enables them to selectively target PD-1 on the surface of CD8+ T cells, leading to T cell apoptosis and impeding T cell activation or proliferation. This mechanism allows tumor cells to evade immune pressure during the effector stage. Furthermore, the quantification of exosomal PD-L1 has the potential to serve as an indicator of the dynamic interplay between tumors and immune cells, thereby suggesting the promising utility of exosomes as biomarkers for both cancer diagnosis and PD-1/PD-L1 inhibitor therapy. The emergence of exosomal PD-L1 inhibitors as a viable approach for anti-tumor treatment has garnered significant attention. Depleting exosomal PD-L1 may serve as an effective adjunct therapy to mitigate systemic immunosuppression. This review aims to elucidate recent insights into the role of exosomal PD-L1 in the field of immune oncology, emphasizing its potential as a diagnostic, prognostic, and therapeutic tool in lung cancer.

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          Most cited references96

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          Proteomic comparison defines novel markers to characterize heterogeneous populations of extracellular vesicle subtypes.

          Joanna Kowal, Guillaume Arras, Marina Colombo (2016)
          Extracellular vesicles (EVs) have become the focus of rising interest because of their numerous functions in physiology and pathology. Cells release heterogeneous vesicles of different sizes and intracellular origins, including small EVs formed inside endosomal compartments (i.e., exosomes) and EVs of various sizes budding from the plasma membrane. Specific markers for the analysis and isolation of different EV populations are missing, imposing important limitations to understanding EV functions. Here, EVs from human dendritic cells were first separated by their sedimentation speed, and then either by their behavior upon upward floatation into iodixanol gradients or by immuno-isolation. Extensive quantitative proteomic analysis allowing comparison of the isolated populations showed that several classically used exosome markers, like major histocompatibility complex, flotillin, and heat-shock 70-kDa proteins, are similarly present in all EVs. We identified proteins specifically enriched in small EVs, and define a set of five protein categories displaying different relative abundance in distinct EV populations. We demonstrate the presence of exosomal and nonexosomal subpopulations within small EVs, and propose their differential separation by immuno-isolation using either CD63, CD81, or CD9. Our work thus provides guidelines to define subtypes of EVs for future functional studies.
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            Exosomal PD-L1 Contributes to Immunosuppression and is Associated with anti-PD-1 Response

            Gang Chen, Alexander Huang, Wei Zhang (2018)
            Tumor cells evade the immune surveillance by up-regulating surface expression of PD-L1, which interacts with PD-1 on T cells to elicit the immune checkpoint response 1,2 . Anti-PD-1 antibodies have shown remarkable promise in treating tumors, including metastatic melanoma 2–4 . However, patient response rate is low 4,5 . A better understanding of PD-L1-mediated immune evasion is needed to predict patient response and improve treatment efficacy. Here we report that metastatic melanoma releases a high level of extracellular vesicles (EVs), mostly in the form of exosomes, that carry PD-L1 on their surface. Interferon-γ (IFN-γ) up-regulates PD-L1 on these vesicles, which suppresses the function of CD8 T cells and facilitates tumor growth. In patients with metastatic melanoma, the level of circulating exosomal PD-L1 positively correlates with that of IFN-γ, and changes during the course of anti-PD-1 therapy. The magnitudes of the early on-treatment increase in circulating exosomal PD-L1, as an indicator of the adaptive response of the tumor cells to T cell re-invigoration, stratifies clinical responders from non-responders. Our study unveils a mechanism by which tumor cells systemically suppress the immune system, and provides a rationale for the application of exosomal PD-L1 as a predictor for anti-PD-1 therapy.
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              PD-L1 (B7-H1) and PD-1 pathway blockade for cancer therapy: Mechanisms, response biomarkers, and combinations.

              Weiping Zou, Jedd Wolchok, Lieping Chen (2016)
              PD-L1 and PD-1 (PD) pathway blockade is a highly promising therapy and has elicited durable antitumor responses and long-term remissions in a subset of patients with a broad spectrum of cancers. How to improve, widen, and predict the clinical response to anti-PD therapy is a central theme in the field of cancer immunology and immunotherapy. Oncologic, immunologic, genetic, and biological studies focused on the human cancer microenvironment have yielded substantial insight into this issue. Here, we focus on tumor microenvironment and evaluate several potential therapeutic response markers including the PD-L1 and PD-1 expression pattern, genetic mutations within cancer cells and neoantigens, cancer epigenetics and effector T cell landscape, and microbiota. We further clarify the mechanisms of action of these markers and their roles in shaping, being shaped, and/or predicting therapeutic responses. We also discuss a variety of combinations with PD pathway blockade and their scientific rationales for cancer treatment.
              Article 0 comments Cited 668 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Yunjiao Wu: Role: Role:
                Huichao Fu: Role: Role:
                Jingwei Hao: Role: Role: Role: Role: Role: Role: Role:
                Zhaoyang Yang: Role: Role: Role: Role: Role: Role: Role:
                Xinyi Qiao: Role: Role: Role: Role: Role: Role: Role:
                Yingjie Li: Role: Role: Role: Role: Role: Role: Role:
                Rui Zhao: Role: Role: Role: Role: Role: Role: Role:
                Tie Lin: Role:
                Yicun Wang: URI : https://loop.frontiersin.org/people/1237698Role:
                Meng Wang: URI : https://loop.frontiersin.org/people/714144Role:
                Journal
                Journal ID (nlm-ta): Front Immunol
                Journal ID (iso-abbrev): Front Immunol
                Journal ID (publisher-id): Front. Immunol.
                Title: Frontiers in Immunology
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-3224
                Publication date (Electronic): 18 March 2024
                Publication date Collection: 2024
                Volume: 15
                Electronic Location Identifier: 1342728
                Affiliations
                [1] 1 Department of Respiratory Medical Oncology, Harbin Medical University Cancer Hospital , Heilongjiang, Harbin, China
                [2] 2 Department of Orthopedic Surgery, The Second Affiliated Hospital of Harbin Medical University , Heilongjiang, Harbin, China
                [3] 3 Department of Surgery, The First Affiliated Hospital of Harbin Medical University , Heilongjiang, Harbin, China
                [4] 4 Department of Medical Research Center, Second Hospital of Jilin University , Jilin, Changchun, China
                Author notes

                Edited by: Olivier Morales, CNRS, France

                Reviewed by: Marcia Antoniazi Michelin, Universidade Federal do Triângulo Mineiro, Brazil

                Anthony Lefebvre, INSERM U1189 Thérapies Laser Assistées par l’Image pour l’Oncologie (ONCO-THAI), France

                †These authors have contributed equally to this work and share first authorship

                ‡These authors have contributed equally to this work

                Article
                DOI: 10.3389/fimmu.2024.1342728
                PMC ID: 10982384
                PubMed ID: 38562933
                SO-VID: 3f3267ae-7653-42ec-bb6d-12e9b226d93e
                Copyright © Copyright © 2024 Wu, Fu, Hao, Yang, Qiao, Li, Zhao, Lin, Wang and Wang
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 01 December 2023
                Date accepted : 29 February 2024
                Page count
                Figures: 2, Tables: 2, Equations: 0, References: 96, Pages: 11, Words: 5585
                Funding
                The author(s) declare financial support was received for the research, authorship, and/or publication of this article. This work was funded by the National Natural Science Foundation of China(82272146), the Natural Science Foundation of Jilin Province (20230204048YY), the Norman Bethune Program of Jilin University (2022B35), and the Haiyan Foundation of Harbin Medical University Cancer Hospital (YXJL-2022-0460-0169).
                Categories
                Subject: Immunology
                Subject: Mini Review
                Custom metadata
                section-in-acceptance Cancer Immunity and Immunotherapy

                ScienceOpen disciplines: Immunology
                Keywords: lung cancer,exosomes,pd-l1,immune escape,immunotherapy
                Data availability:
                ScienceOpen disciplines: Immunology
                Keywords: lung cancer, exosomes, pd-l1, immune escape, immunotherapy

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