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      PD-L1 diagnostic tests: a systematic literature review of scoring algorithms and test-validation metrics

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          Abstract

          Background

          The programmed death receptor 1 (PD-1) protein is a cell-surface receptor on certain lymphocytes that, with its ligand programmed death ligand 1 (PD-L1), helps to down-regulate immune responses. Many cancer types express PD-L1 and evade immune recognition via the PD-1/PD-L1 interaction. Precision therapies targeting the PD-1/PD-L1 pathway have the potential to improve response and thereby offer a novel treatment avenue to some patients with cancer. However, this new therapeutic approach requires reliable methods for identifying patients whose cancers are particularly likely to respond. Therefore, we conducted a systematic literature review assessing evidence on test validation and scoring algorithms for PD-L1 immunohistochemistry (IHC) tests that might be used to select potentially responsive patients with bladder/urothelial cell, lung, gastric, or ovarian cancers for immunotherapy treatment.

          Methods and results

          To identify evidence on commercially available PD-L1 IHC assays, we systematically searched MEDLINE and Embase for relevant studies published between January 2010 and September 2016 and appraised abstracts from recent oncology conferences (January 2013 to November 2016). Publications that met the predefined inclusion criteria were extracted and key trends summarized.

          In total, 26 eligible primary studies were identified, all of which reported on the test validation metrics associated with PD-L1 IHC tests in lung cancer, most using immunohistochemistry testing. There was significant heterogeneity among the available tests for PD-L1. Specifically, no definitive cutoff for PD-L1 positivity was identifiable, with more than one threshold being reported for most antibodies. Studies also differed as to whether they evaluated tumor cells only or tumor cells and tumor-infiltrating immune cells. However, all of the tests developed and validated to support a therapeutic drug in the context of phase 2–3 clinical trials reported more than 90% inter-reader concordance. In contrast, other PD-L1 antibodies identified in the literature reported poorer concordance.

          Conclusions

          Published validation metric data for PD-L1 tests are mainly focused on immunohistochemistry tests from studies in lung cancer. The variability in test cutoffs and standards for PD-L1 testing suggests that there is presently no standardized approach. This current variability may have implications for the uptake of precision treatments.

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          Current status and perspectives in translational biomarker research for PD-1/PD-L1 immune checkpoint blockade therapy

          Weijie Ma, Barbara Gilligan, Jianda Yuan (2016)
          Modulating immune inhibitory pathways has been a major recent breakthrough in cancer treatment. Checkpoint blockade antibodies targeting cytotoxic T-lymphocyte antigen 4 (CTLA-4) and programed cell-death protein 1 (PD-1) have demonstrated acceptable toxicity, promising clinical responses, durable disease control, and improved survival in some patients with advanced melanoma, non-small cell lung cancer (NSCLC), and other tumor types. About 20 % of advanced NSCLC patients and 30 % of advanced melanoma patients experience tumor responses from checkpoint blockade monotherapy, with better clinical responses seen with the combination of anti-PD-1 and anti-CTLA-4 antibodies. Given the power of these new therapies, it is important to understand the complex and dynamic nature of host immune responses and the regulation of additional molecules in the tumor microenvironment and normal organs in response to the checkpoint blockade therapies. In this era of precision oncology, there remains a largely unmet need to identify the patients who are most likely to benefit from immunotherapy, to optimize the monitoring assays for tumor-specific immune responses, to develop strategies to improve clinical efficacy, and to identify biomarkers so that immune-related adverse events can be avoided. At this time, PD-L1 immunohistochemistry (IHC) staining using 22C3 antibody is the only FDA-approved companion diagnostic for patients with NSCLC-treated pembrolizumab, but more are expected to come to market. We here summarize the current knowledge, clinical efficacy, potential immune biomarkers, and associated assays for immune checkpoint blockade therapies in advanced solid tumors.
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            Harmonized PD-L1 immunohistochemistry for pulmonary squamous-cell and adenocarcinomas.

            Andreas Scheel, Manfred Dietel, Lukas Heukamp (2016)
            Immunohistochemistry of the PD-L1 protein may be predictive for anti-PD-1 and anti-PD-L1 immunotherapy in pulmonary adenocarcinoma and in clinically unselected cohorts of so-called non-small-cell lung cancer. Several PD-L1 immunohistochemistry assays with custom reagents and scoring-criteria are developed in parallel. Biomarker testing and clinical decision making would profit from harmonized PD-L1 diagnostics. To assess interobserver concordance and PD-L1 immunohistochemistry staining patterns, 15 pulmonary carcinoma resection specimens (adenocarcinoma: n=11, squamous-cell carcinoma: n=4) were centrally stained with the assays 28-8, 22C3, SP142, and SP263 according to clinical trial protocols. The slides were evaluated independently by nine pathologists. Proportions of PD-L1-positive carcinoma cells and immune cells were scored according to a 6-step system that integrates the criteria employed by the four PD-L1 immunohistochemistry assays. Proportion scoring of PD-L1-positive carcinoma cells showed moderate interobserver concordance coefficients for the 6-step scoring system (Light's kappa=0.47-0.50). The integrated dichotomous proportion cut-offs (≥1, ≥5, ≥10, ≥50%) showed good concordance coefficients (κ=0.6-0.8). Proportion scoring of PD-L1-positive immune cells yielded low interobserver concordance coefficients both for the 6-step-score (κ<0.2) and the dichotomous cut-offs (κ=0.12-0.25). The assays 28-8 and 22C3 stained similar proportions of carcinoma cells in 12 of 15 cases. SP142 stained fewer carcinoma cells compared to 28-8, 22C3, and SP263 in four cases, whereas SP263 stained more carcinoma cells in nine cases. SP142 and SP263 stained immune cells more intensely. The data indicate that carcinoma cells can be reproducibly scored in PD-L1 immunohistochemistry for pulmonary adenocarcinoma and squamous-cell carcinoma. No differences in interobserver concordance were noticed among the tested assays. The scoring of immune cells yielded low concordance rates and might require specific standardization. The four tested PD-L1 assays did not show comparable staining patterns in all cases. Thus, studies that correlate staining patterns and response to immunotherapy are required to test the significance of the observed differences.
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              Assessment of the PD-L1 status by immunohistochemistry: challenges and perspectives for therapeutic strategies in lung cancer patients.

              Marius Ilie, Véronique Hofman, Manfred Dietel (2016)
              Immunotherapy targeting the PD-L1/PD-1 axis has recently shown spectacular efficacy and promise for the future of patients with metastatic lung cancer. In the setting of second-line treatment of metastatic disease, this therapy has increased overall survival of patients by several months when compared to chemotherapy, both for squamous cell carcinoma (SCC) and adenocarcinoma (ADC) of the lung. Clinical trials targeting the PD-1/PD-L1 axis have shown a tendency towards higher efficacy if expression of PD-L1 is relatively high, as evaluated by immunohistochemistry (IHC) of tumour samples. Targeting the PD-1/PD-L1 axis is of crucial importance not only for metastatic non-small cell lung cancer (NSCLC) but probably also for patients with small cell lung cancer. Nivolumab, an antibody targeting PD-1, has recently received FDA and EMA approval for NSCLC, regardless of the PDL1 expression status (for both tumour types in the USA and for only SCC in EU). However, the need for a biomarker that allows better selection of patients is essential, to improve treatment efficacy and to manage cost of these therapies. Assessment of PD-L1 expression through immunohistochemical staining is advocated by many as one such potential biomarker. This prospect raises several questions, in particular how to define a threshold for positive PD-L1 labelling on biopsy tissue samples, taking into account that certain patients respond to treatment targeting PD-L1/PD-1, despite low or absent immunoreactivity of this biomarker. This review discusses major challenges related to detection of PD-L1 by immunohistochemistry as a companion diagnostic test, along with immune checkpoint blockade treatment of lung cancer.
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                Author and article information

                Contributors
                Margarita Udall: Margarita.Udall@pfizer.com
                Maria Rizzo: Maria.Rizzo@evidera.com
                Juliet Kenny: Juliet.Kenny@evidera.com
                Jim Doherty: Jim.Doherty@pfizer.com
                SueAnn Dahm: SueAnn.C.Dahm@pfizer.com
                Paul Robbins: Paul.B.Robbins@pfizer.com
                Eric Faulkner: Eric.Faulkner@Evidera.com
                Journal
                Journal ID (nlm-ta): Diagn Pathol
                Journal ID (iso-abbrev): Diagn Pathol
                Title: Diagnostic Pathology
                Publisher: BioMed Central (London )
                ISSN (Electronic): 1746-1596
                Publication date (Electronic): 9 February 2018
                Publication date PMC-release: 9 February 2018
                Publication date Collection: 2018
                Volume: 13
                Electronic Location Identifier: 12
                Affiliations
                [1 ]ISNI 0000 0000 8800 7493, GRID grid.410513.2, Pfizer Inc, ; New York, NY USA
                [2 ]Evidera, Metro Building, 6th Floor, 1 Butterwick, London, W6 8DL UK
                Article
                Publisher ID: 689
                DOI: 10.1186/s13000-018-0689-9
                PMC ID: 5807740
                PubMed ID: 29426340
                SO-VID: 1c95e97b-717d-4ed6-96fa-d7692e2fc603
                Copyright © © The Author(s). 2018
                License:

                Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License ( http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver ( http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.

                History
                Date received : 26 October 2017
                Date accepted : 26 January 2018
                Funding
                Funded by: Pfizer Inc.
                Categories
                Subject: Review
                Custom metadata
                issue-copyright-statement © The Author(s) 2018

                ScienceOpen disciplines: Pathology
                Keywords: cancer,immunotherapy,programmed death ligand 1,programmed cell death protein 1,pd-1,pd-l1,test,antibody,diagnostic,tests
                Data availability:
                ScienceOpen disciplines: Pathology
                Keywords: cancer, immunotherapy, programmed death ligand 1, programmed cell death protein 1, pd-1, pd-l1, test, antibody, diagnostic, tests

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