PO.TB10.02 · 肿瘤生物学

Spatially resolved SEED (stromal-enriched metastatic decider) niches integrate tumor, stromal, and immune ecosystems to enable lymph node dissemination in LUAD

编号 6118 展板 9 时间 4/21 02:00–05:00 区域 Section 28 主讲 Junghan Oh, BS
分会场 Metastasis and Organ-Specific Microenvironmental Evolution
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作者与单位

Junghan Oh1, Hoyeon Jeong1, Yoon La Choi2, Donggun Lee1, Misook Lee1

1Samsung Advanced Institute of Technology, Seoul, Korea, Republic of,2Samsung Advanced Institute for Health Sciences and Technology, Seoul, Korea, Republic of

摘要 Abstract

Purpose Lung adenocarcinoma (LUAD) displays substantial intratumoral heterogeneity, but the precise primary-tumor subregions that give rise to lymph-node metastasis remain unclear. We aimed to identify metastasis-competent SEED regions and characterize their microenvironmental context using paired single-cell-resolution spatial transcriptomics. Methods Formalin-fixed tissues from 17 LUAD patients were profiled using the 10x Genomics Xenium 5K panel, generating paired datasets from primary tumors and matched lymph-node metastases. Spatial and transcriptional integration was performed using Seurat and SpatialData, and metascores and differential expression analyses were computed with Scanpy. Results Integrated primary-lymph node analysis revealed a recurrent tumor-cell cluster whose transcriptional state aligned most closely with lymph-node profiles, representing a metastasis-competent SEED population. SEED regions showed elevated metascores and enrichment of invasion and hypoxia-associated programs, including robust HIF1A upregulation. The surrounding microenvironment was spatially distinct: fibroblasts immediately adjacent to seed clusters exhibited high POSTN expression, forming a dense stromal shell, while CXCR4-high B-cell aggregates accumulated peritumorally. In contrast, T-cell distribution remained relatively uniform across regions, indicating that SEED-associated remodeling was driven by specific stromal and B-cell interactions rather than general immune infiltration. Together, these spatially coordinated patterns delineate a niche in which HIF1A-high tumor cells interface with POSTN-rich fibroblasts and CXCR4-expressing B cells to support metastatic competence. Conclusions Paired single-cell spatial mapping identifies discrete metastasis-prone SEED niches within LUAD primary tumors. These niches are defined by HIF1A-high tumor cells embedded in a POSTN-rich stromal compartment and surrounded by CXCR4-high B-cell aggregates. This spatial ecosystem provides a mechanistic framework for how only specific primary-tumor regions acquire the capacity for lymph-node dissemination and suggests niche-level targets for metastasis interception. AI Disclosure (AACR-required) This abstract includes text revised with the assistance of generative AI.
利益披露 Disclosure
J. Oh, None.. H. Jeong, None.. Y. Choi, None.. D. Lee, None.. M. Lee, None.

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