Digital spatial profiling of melanoma shows CD95 expression in immune cells is associated with resistance to immunotherapy.

IF 7.2 2区 医学 Oncoimmunology Pub Date : 2023-09-27 eCollection Date: 2023-01-01 DOI:10.1080/2162402X.2023.2260618
Sandra Martinez-Morilla, Myrto Moutafi, Aileen I Fernandez, Shlomit Jessel, Prajan Divakar, Pok Fai Wong, Rolando Garcia-Milian, Kurt A Schalper, Harriet M Kluger, David L Rimm
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Abstract

Although immune checkpoint inhibitor (ICI) therapy has dramatically improved outcome for metastatic melanoma patients, many patients do not benefit. Since adverse events may be severe, biomarkers for resistance would be valuable, especially in the adjuvant setting. We performed high-plex digital spatial profiling (DSP) using the NanoString GeoMx® on 53 pre-treatment specimens from ICI-treated metastatic melanoma cases. We interrogated 77 targets simultaneously in four molecular compartments defined by S100B for tumor, CD68 for macrophages, CD45 for leukocytes, and nonimmune stromal cells defined as regions negative for all three compartment markers but positive for SYTO 13. For DSP validation, we confirmed the results obtained for some immune markers, such as CD8, CD4, CD20, CD68, CD45, and PD-L1, by quantitative immunofluorescence (QIF). In the univariable analysis, 38 variables were associated with outcome, 14 of which remained significant after multivariable adjustment. Among them, CD95 was further validated using multiplex immunofluorescence in the Discovery immunotherapy (ITX) Cohort and an independent validation cohort with similar characteristics, showing an association between high levels of CD95 and shorter progression-free survival. We found that CD95 in stroma was associated with resistance to ICI. With further validation, this biomarker could have value to select patients that will not benefit from immunotherapy.

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黑色素瘤的数字空间图谱显示免疫细胞中CD95的表达与免疫疗法的耐药性有关。
尽管免疫检查点抑制剂(ICI)治疗显著改善了转移性黑色素瘤患者的预后,但许多患者并没有受益。由于不良事件可能是严重的,耐药性的生物标志物将是有价值的,特别是在佐剂环境中。我们使用NanoString GeoMx®对来自ICI治疗的转移性黑色素瘤病例的53个预处理标本进行了高复杂度数字空间分析(DSP)。我们同时询问了四个分子区室中的77个靶点,这些分子区室由S100B定义为肿瘤,CD68定义为巨噬细胞,CD45定义为白细胞,非免疫基质细胞定义为所有三个区室标记物阴性但SYTO 13阳性的区域。对于DSP验证,我们通过定量免疫荧光(QIF)证实了一些免疫标记物的结果,如CD8、CD4、CD20、CD68、CD45和PD-L1。在单变量分析中,38个变量与结果相关,其中14个变量在多变量调整后仍然显著。其中,在Discovery免疫疗法(ITX)队列和一个具有类似特征的独立验证队列中,使用多重免疫荧光进一步验证了CD95,表明高水平的CD95与较短的无进展生存期之间存在关联。我们发现间质中的CD95与ICI的耐药性有关。随着进一步的验证,这种生物标志物可能有价值选择不会从免疫疗法中受益的患者。
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来源期刊
Oncoimmunology
Oncoimmunology ONCOLOGY-IMMUNOLOGY
CiteScore
12.80
自引率
2.80%
发文量
276
期刊介绍: Tumor immunology explores the natural and therapy-induced recognition of cancers, along with the complex interplay between oncogenesis, inflammation, and immunosurveillance. In response to recent advancements, a new journal, OncoImmunology, is being launched to specifically address tumor immunology. The field has seen significant progress with the clinical demonstration and FDA approval of anticancer immunotherapies. There's also growing evidence suggesting that many current chemotherapeutic agents rely on immune effectors for their efficacy. While oncologists have historically utilized chemotherapeutic and radiotherapeutic regimens successfully, they may have unwittingly leveraged the immune system's ability to recognize tumor-specific antigens and control cancer growth. Consequently, immunological biomarkers are increasingly crucial for cancer prognosis and predicting chemotherapy efficacy. There's strong support for combining conventional anticancer therapies with immunotherapies. OncoImmunology will welcome high-profile submissions spanning fundamental, translational, and clinical aspects of tumor immunology, including solid and hematological cancers, inflammation, and both innate and acquired immune responses.
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