PO.CL01.14 · 临床研究

Actionable resistance mechanisms in osteosarcoma uncovered by the elucidate spatial biomarker platform

海报缩略图:Actionable resistance mechanisms in osteosarcoma uncovered by the elucidate spatial biomarker platform
编号 6671 展板 13 时间 4/21 02:00–05:00 区域 Section 48 主讲 Gulpreet Kaur, PhD
分会场 Spatial Proteomics and Transcriptomics 3
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作者与单位

Gulpreet Kaur1, Jason Weirather1, James Perna1, Sizun Jiang2, Will Singleterry1

1Elucidate Bio, Medford, MA,2Harvard Medical School, Cambridge, MA

摘要 Abstract

Same-slide spatial multiomics enables comprehensive characterization of the tumor microenvironment (TME) by integrating high-plex spatial proteomics and whole-transcriptome on the same slide. For patients whose tumors have progressed or metastasized despite standard-of-care therapies, understanding the specific mechanisms active within their tumor becomes essential for guiding next-line treatment decisions. This requires resolving cell identity, state, morphology, and the organization of immune-tumor interactions within spatial neighborhoods. A systematic, multimodal approach is therefore necessary to reveal clinically actionable mechanisms of resistance directly within intact tissue architecture. Methods We developed the Elucidate Biomarker Platform using a same-slide spatial multiomics workflow combining 50-plex spatial proteomics and whole-transcriptome spatial transcriptomics. Model-guided annotation was applied for high-fidelity cell detection, quality control, and neighborhood-level analysis. Proteomic data identified phenotypic and spatial features associated with therapeutic response, while transcriptomic profiling on the same slide elucidated molecular pathways underlying these tissue-level patterns. Results Application of this platform to an osteosarcoma patient sample uncovered two actionable mechanisms of therapeutic resistance: 1.FAP-mediated T-cell exclusion: Excess fibroblast activation protein (FAP) expression on tumor-associated stromal cells formed a physical and immunoregulatory barrier preventing T-cell infiltration. Clinical treatment of the patient with a FAP-targeted radioligand inhibitor resulted in a positive therapeutic outcome. 2.CD163⁺ macrophage survival pathway: Same-slide multiomic analysis identified a survival mechanism specific to CD163⁺ tumor-associated macrophages via PAQR6, which was targetable using mifepristone, suggesting a second actionable therapeutic avenue. These findings demonstrate that same-slide spatial multiomics, combined with model-guided annotation, delivers a systematic approach for revealing clinically actionable biomarkers and therapeutic targets to guide precision therapy and drug development.
利益披露 Disclosure
G. Kaur, None.. J. Weirather, None.. J. Perna, None.. S. Jiang, None.. W. Singleterry, None.

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