Guha Tuhin K, Esplin Edward D, Horning Aaron M, Chiu Roxanne, Paul Kristina, Weimer Annika K, Becker Winston R, Laquindanum Rozelle, Mills Meredith A, Glen Esplin D, Shen Jeanne, Monte Emma, White Shannon, Karathanos Thomas V, Cotter Daniel, Bi Joanna, Ladabaum Uri, Longacre Teri A, Curtis Christina, Greenleaf William J, Ford James M, Snyder Michael P
Department of Genetics, Stanford School of Medicine, Stanford, CA 94305.
Amgen, South San Francisco, CA 94080.
bioRxiv. 2024 Nov 21:2024.11.20.622725. doi: 10.1101/2024.11.20.622725.
Colorectal cancer (CRC) is the third leading cause of cancer mortality in the United States. Familial adenomatous polyposis (FAP) is a hereditary syndrome that raises the risk of developing CRC, with total colectomy as the only effective prevention. Even though FAP is rare (0.5% of all CRC cases), this disease model is well suited for studying the early stages of malignant transformation as patients form many polyps reflective of pre-cancer states. In order to spatially profile and analyze the pre-cancer and tumor microenvironment, we have performed single-cell multiplexed imaging for 52 samples: 12 normal mucosa,16 FAP mucosa,18 FAP polyps, 2 FAP adenocarcinoma, and 4 sporadic colorectal cancer (CRCs) using Co-detection by Indexing (CODEX) imaging platform. The data revealed significant changes in cell type composition occurring in early stage polyps and during the malignant transformation of polyps to CRC. We observe a decrease in CD4+/CD8+ T cell ratio and M1/M2 macrophage ratio along the FAP disease continuum. Advanced dysplastic polyps show a higher population of cancer associated fibroblasts (CAFs), which likely alter the pre-cancer microenvironment. Within polyps and CRCs, we observe strong nuclear expression of beta-catenin and higher number neo-angiogenesis events, unlike FAP mucosa and normal colon counterparts. We identify an increase in cancer stem cells (CSCs) within the glandular crypts of the FAP polyps and also detect Tregs, tumor associated macrophages (TAMs) and vascular endothelial cells supporting CSC survival and proliferation. We detect a potential immunosuppressive microenvironment within the tumor 'nest' of FAP adenocarcinoma samples, where tumor cells tend to segregate and remain distant from the invading immune cells. TAMs were found to infiltrate the tumor area, along with angiogenesis and tumor proliferation. CAFs were found to be enriched near the inflammatory region within polyps and CRCs and may have several roles in supporting tumor growth. Neighborhood analyses between adjacent FAP mucosa and FAP polyps show significant differences in spatial location of cells based on functionality. For example, in FAP mucosa, naive CD4+ T cells alone tend to localize near the fibroblast within the stromal compartment. However, in FAP polyp, CD4+T cells colocalize with the macrophages for T cell activation. Our data are expected to serve as a useful resource for understanding the early stages of neogenesis and the pre-cancer microenvironment, which may benefit early detection, therapeutic intervention and future prevention.
结直肠癌(CRC)是美国癌症死亡的第三大主要原因。家族性腺瘤性息肉病(FAP)是一种遗传性综合征,会增加患CRC的风险,全结肠切除术是唯一有效的预防方法。尽管FAP很罕见(占所有CRC病例的0.5%),但这种疾病模型非常适合研究恶性转化的早期阶段,因为患者会形成许多反映癌前状态的息肉。为了在空间上描绘和分析癌前和肿瘤微环境,我们使用索引共检测(CODEX)成像平台对52个样本进行了单细胞多重成像:12个正常黏膜、16个FAP黏膜、18个FAP息肉、2个FAP腺癌和4个散发性结直肠癌(CRC)。数据显示,在早期息肉以及息肉向CRC的恶性转化过程中,细胞类型组成发生了显著变化。我们观察到沿着FAP疾病连续体,CD4+/CD8+ T细胞比率和M1/M2巨噬细胞比率下降。高级发育异常息肉显示出较高比例的癌症相关成纤维细胞(CAF),这可能会改变癌前微环境。在息肉和CRC中,我们观察到β-连环蛋白的强核表达和更多的新生血管生成事件,这与FAP黏膜和正常结肠组织不同。我们发现FAP息肉的腺隐窝内癌症干细胞(CSC)增加,并且还检测到调节性T细胞(Treg)、肿瘤相关巨噬细胞(TAM)和支持CSC存活和增殖的血管内皮细胞。我们在FAP腺癌样本的肿瘤“巢”内检测到一种潜在的免疫抑制微环境,其中肿瘤细胞倾向于分离并与入侵的免疫细胞保持距离。发现TAM与血管生成和肿瘤增殖一起浸润肿瘤区域。发现CAF在息肉和CRC的炎症区域附近富集,并且可能在支持肿瘤生长方面发挥多种作用。相邻FAP黏膜和FAP息肉之间的邻域分析显示,基于功能的细胞空间位置存在显著差异。例如,在FAP黏膜中,单独的初始CD4+ T细胞倾向于定位在基质隔室内的成纤维细胞附近。然而,在FAP息肉中,CD4+ T细胞与巨噬细胞共定位以激活T细胞。我们的数据有望成为理解新生早期阶段和癌前微环境的有用资源,这可能有利于早期检测、治疗干预和未来预防。
