PO.CH02.02 · 化学

Ecotype-guided multi-omics profiling identifies potential cell-surface therapeutic targets in gastric cancer

海报缩略图:Ecotype-guided multi-omics profiling identifies potential cell-surface therapeutic targets in gastric cancer
编号 7647 展板 1 时间 4/22 09:00–12:00 区域 Section 38 主讲 Yuefan Wang, Dr PH
分会场 Multi-Omics, Systems Biology, and Biological Mass Spectrometry
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作者与单位

Yuefan Wang1, Lindsey K. Olsen2, Hui Zhang1, Bing Zhang2, Clinical Proteomic Tumor Analysis Consortium (CPTAC)

1Pathology, Johns Hopkins University, Baltimore, MD,2Baylor College of Medicine, Houston, TX

摘要 Abstract

Gastric cancer (GC) exhibits marked heterogeneity, complex molecular alterations, and limited therapeutic options. To comprehensively define its biology and vulnerabilities, we performed 15-layer multi-omics profiling of 159 gastric adenocarcinomas and 30 matched normal adjacent tissues, encompassing genomics, epigenomics, transcriptomics, proteomics, post-translational modifications, protein-protein interactions, metabolomics, and microbiome analyses, yielding more than 385,000 features. By integrating cell-state deconvolution, we defined gastric tumor ecotypes based on cellular states, providing a new framework for multi-omics integration. These ecotypes captured distinct tumor ecosystems and stromal-immune compositions and offered deeper mechanistic insight than conventional genomic or histologic classifications.Leveraging machine learning and large-scale AI models, we identified ecotype-specific molecular features and linked them to clinical outcome. To prioritize therapeutic opportunities, we applied high-outlier analysis to proteins and glycoproteins. Multiple cell-surface-associated targets showed strong high-outlier expression, including several known or emerging therapeutic candidates. Extracellular matrix (ECM) components were significantly enriched among high-outlier proteins, underscoring their central role in tumor growth, invasion, and potential therapeutic targeting. We further characterized altered cell-surface glycosylation patterns in high-outlier glycoproteins, revealing changes in immune regulation and ECM engagement. Phosphosite-resolved analysis identified key signaling signatures associated with aggressive tumor behavior.Importantly, embedding these high-outlier events within ecotype and genomic subtype frameworks revealed distinct, ecotype-specific patterns that were not apparent from genomic classification alone. Single-cell analyses localized many targets to specific stromal compartments, particularly fibroblast-rich ecosystems, suggesting that targeting fibroblast-driven niches may provide new therapeutic strategies for aggressive GC subsets. Overall, this study establishes an ecotype-guided proteogenomic approach to nominate cell-surface proteins, glycoproteins, and signaling nodes as precision therapy candidates in gastric cancer, and offers a broadly applicable model for dissecting heterogeneity in other complex malignancies.
利益披露 Disclosure
Y. Wang, None.. H. Zhang, None.

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