Early Biomarker Development Oncology, pharma Research and Early Development (pRED), Roche Innovation Center Munich, Penzberg, Germany.
pharma Research and Early Development Informatics (pREDi), Roche Innovation Center Munich, Penzberg, Germany.
Front Immunol. 2020 Oct 29;11:550250. doi: 10.3389/fimmu.2020.550250. eCollection 2020.
The development and progression of solid tumors such as colorectal cancer (CRC) are known to be affected by the immune system and cell types such as T cells, natural killer (NK) cells, and natural killer T (NKT) cells are emerging as interesting targets for immunotherapy and clinical biomarker research. In addition, CD3 and CD8 T cell distribution in tumors has shown positive prognostic value in stage I-III CRC. Recent developments in digital computational pathology support not only classical cell density based tumor characterization, but also a more comprehensive analysis of the spatial cell organization in the tumor immune microenvironment (TiME). Leveraging that methodology in the current study, we tried to address the question of how the distribution of myeloid derived suppressor cells in TiME of primary CRC affects the function and location of cytotoxic T cells. We applied multicolored immunohistochemistry to identify monocytic (CD11bCD14) and granulocytic (CD11bCD15) myeloid cell populations together with proliferating and non-proliferating cytotoxic T cells (CD8Ki67). Through automated object detection and image registration using HALO software (IndicaLabs), we applied dedicated spatial statistics to measure the extent of overlap between the areas occupied by myeloid and T cells. With this approach, we observed distinct spatial organizational patterns of immune cells in tumors obtained from 74 treatment-naive CRC patients. Detailed analysis of inter-cell distances and myeloid-T cell spatial overlap combined with integrated gene expression data allowed to stratify patients irrespective of their mismatch repair (MMR) status or consensus molecular subgroups (CMS) classification. In addition, generation of cell distance-derived gene signatures and their mapping to the TCGA data set revealed associations between spatial immune cell distribution in TiME and certain subsets of CD8 and CD4 T cells. The presented study sheds a new light on myeloid and T cell interactions in TiME in CRC patients. Our results show that CRC tumors present distinct distribution patterns of not only T effector cells but also tumor resident myeloid cells, thus stressing the necessity of more comprehensive characterization of TiME in order to better predict cancer prognosis. This research emphasizes the importance of a multimodal approach by combining computational pathology with its detailed spatial statistics and gene expression profiling. Finally, our study presents a novel approach to cancer patients' characterization that can potentially be used to develop new immunotherapy strategies, not based on classical biomarkers related to CRC biology.
实体瘤(如结直肠癌)的发展和进展被认为受到免疫系统的影响,T 细胞、自然杀伤(NK)细胞和自然杀伤 T(NKT)细胞等细胞类型正成为免疫治疗和临床生物标志物研究的有趣靶点。此外,CD3 和 CD8 T 细胞在肿瘤中的分布在 I-III 期结直肠癌中显示出了积极的预后价值。数字计算病理学的最新发展不仅支持基于经典细胞密度的肿瘤特征描述,还支持对肿瘤免疫微环境(TiME)中空间细胞组织的更全面分析。利用该方法,我们试图回答 TiME 中髓系来源的抑制细胞的分布如何影响细胞毒性 T 细胞的功能和位置这一问题。我们应用多色免疫组化来识别单核细胞(CD11bCD14)和粒细胞(CD11bCD15)髓系细胞群,以及增殖和非增殖细胞毒性 T 细胞(CD8Ki67)。通过使用 HALO 软件(IndicaLabs)进行自动对象检测和图像配准,我们应用专门的空间统计学来测量髓系细胞和 T 细胞占据的区域之间的重叠程度。通过这种方法,我们观察到了 74 例未经治疗的结直肠癌患者肿瘤中免疫细胞的独特空间组织模式。对细胞间距离和髓系-T 细胞空间重叠的详细分析,结合整合的基因表达数据,使我们能够对患者进行分层,而与他们的错配修复(MMR)状态或共识分子亚群(CMS)分类无关。此外,生成基于细胞距离的基因特征并将其映射到 TCGA 数据集,揭示了 TiME 中空间免疫细胞分布与 CD8 和 CD4 T 细胞某些亚群之间的关联。本研究为结直肠癌患者 TiME 中的髓系和 T 细胞相互作用提供了新的视角。我们的结果表明,CRC 肿瘤不仅表现出效应 T 细胞的独特分布模式,而且还表现出肿瘤驻留的髓系细胞的独特分布模式,因此强调了更全面地描述 TiME 的必要性,以便更好地预测癌症预后。该研究强调了结合计算病理学及其详细的空间统计学和基因表达分析的多模态方法的重要性。最后,我们的研究提出了一种新的癌症患者特征描述方法,可用于开发新的免疫治疗策略,而不是基于与 CRC 生物学相关的经典生物标志物。
