CLIM-TIME identifies metastatic microenvironment modulators for T cell therapy response.
Yinghua Wang, Weiwei Hu, Rui Xia, Xianfa Yang, Yange Gu, Zihan Ning, Tiange Yang, Chune Yu, Lulu Zhang, Dun Li, Yitian Jin, Jianhua Li, Feifei Zhang, Yaochen Xu, Chenqi Xu, Zhengxin Wang, Naihe Jing, Luonan Chen, Guangchuan Wang
Abstract
The tumor microenvironment (TME) poses a major barrier to effective immunotherapy, yet high-throughput perturbation-mapping approaches to dissect TME spatial complexity and its contextual immune modulators remain lacking. Here, we introduce CRISPR-laser-captured microdissection (LCM) integration mapping of the tumor-immune microenvironment (CLIM-TIME), a scalable platform that integrates CRISPR screening with LCM of metastatic tumors for transcriptomic, deconvolution, and immunofluorescence analyses. CLIM-TIME enables spatially resolved mapping of how tumor suppressor gene (TSG) loss reshapes the TME and modulates immune responses. We identified seven distinct TME subtypes, revealing that DNA repair and Polycomb repressive complex (PRC) TSG loss is linked to immune-infiltrated TMEs sensitive to T cell therapy. In contrast, knockouts of TSGs in the Hippo pathway promoted immune evasion and therapy resistance by fostering myeloid-enriched but T cell-excluded TMEs with elevated extracellular matrix (ECM). Targeting the ECM-crosslinking enzyme LOXL2 effectively remodeled the metastatic TME, enhancing T cell infiltration and improving therapeutic efficacy in lung metastases across multiple cancers.