Craters on the melanoma surface facilitate tumor-immune interactions and demonstrate pathologic response to checkpoint blockade in humans

bioRxiv - Cancer Biology Pub Date : 2024-09-19 DOI:10.1101/2024.09.18.613595

Aya Ludin, Georgia L. Stirtz, Asaf Tal, Ajit J. Nirmal, Naomi Besson, Stephanie M. Jones, Kathleen L. Pfaff, Michael Manos, Sophia Liu, Irving Barrera, Qiyu Gong, Cecilia Pessoa Rodrigues, Aditi Sahu, Elizabeth Jerison, Joao V. Alessi, Biagio Ricciuti, Douglas S. Richardson, Jodi D. Weiss, Hadley M. Moreau, Meredith E. Stanhope, Alexander B. Afeyan, James Sefton, Wyatt D. McCall, Emily Formato, Song Yang, Yi Zhou, David P. Hoytema van Konijnenburg, Hannah L. Cole, Miguel Cordova, Liang Deng, Milind Rajadhyaksha, Stephen R. Quake, Mark M. Awad, Fei Chen, Peter K. Sorger, F. Stephen Hodi, Scott J. Rodig, George F. Murphy, Leonard I. Zon

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Abstract

Immunotherapy leads to cancer eradication despite the tumor's immunosuppressive environment. Here, we used extended long-term in-vivo imaging and high-resolution spatial transcriptomics of endogenous melanoma in zebrafish, and multiplex imaging of human melanoma, to identify domains that facilitate immune response during immunotherapy. We identified crater-shaped pockets at the margins of zebrafish and human melanoma, rich with beta-2 microglobulin (B2M) and antigen recognition molecules. The craters harbor the highest density of CD8+ T cells in the tumor. In zebrafish, CD8+ T cells formed prolonged interactions with melanoma cells within craters, characteristic of antigen recognition. Following immunostimulatory treatment, the craters enlarged and became the major site of activated CD8+ T cell accumulation and tumor killing that was B2M dependent. In humans, craters predicted immune response to ICB therapy, showing response better than high T cell infiltration. This marks craters as potential new diagnostic tool for immunotherapy success and targets to enhance ICB response.

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黑色素瘤表面的凹坑有助于肿瘤与免疫的相互作用，并显示出人类对检查点阻断剂的病理反应

尽管肿瘤处于免疫抑制环境中，免疫疗法仍能导致癌症的根除。在这里，我们利用对斑马鱼内源性黑色素瘤的长期体内成像和高分辨率空间转录组学，以及对人类黑色素瘤的多重成像，确定了在免疫治疗过程中促进免疫反应的区域。我们在斑马鱼和人类黑色素瘤的边缘发现了火山口状的凹陷，其中富含β-2微球蛋白（B2M）和抗原识别分子。陨石坑是肿瘤中 CD8+ T 细胞密度最高的地方。在斑马鱼体内，CD8+ T 细胞与嵴内的黑色素瘤细胞形成了长时间的相互作用，这是抗原识别的特征。经过免疫刺激治疗后，陨石坑扩大，成为活化的 CD8+ T 细胞聚集和肿瘤杀伤的主要部位，这种杀伤依赖于 B2M。在人体中，陨石坑可预测对 ICB 治疗的免疫反应，其反应优于高 T 细胞浸润。这标志着陨石坑可能成为免疫疗法成功与否的新诊断工具，并成为增强 ICB 反应的目标。

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bioRxiv - Cancer Biology

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