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The extracellular matrix in cancer-associated fibrosis: molecular mechanisms and clinical relevance
Romain Desert, Orlando Musso, Thomas F. Baumert
Romain Desert, Orlando Musso, Thomas F. Baumert
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The extracellular matrix in cancer-associated fibrosis: molecular mechanisms and clinical relevance

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Abstract

The ECM is a dynamic component of the tumor microenvironment with a critical role in cancer progression, invasion, metastasis, immune exclusion, and response to therapy. Recent advances in proteomic analyses investigating the insoluble ECM fractions (termed “matrisome analysis”), along with single-cell RNA sequencing and spatial transcriptomics, have revealed cancer-specific patterns of ECM remodeling. These studies have identified a panel of recurrently upregulated ECM proteins, including annexin A1, fibrillin-1, fibronectin, periostin, and tenascin-C, actively contributing to tumor growth, invasion, angiogenesis, and immune exclusion. The expression of the cancer-associated ECM is largely driven by cancer-associated fibroblasts (CAFs), whose molecular diversity has been dissected through single-cell profiling and consolidated in emerging CAF atlases across cancers. By investigating the matrisome composition and CAF heterogeneity, these studies have unraveled the pivotal role of the stroma in shaping tumor biology. Based on these discoveries, ECM proteins and CAFs are now being explored as biomarkers and therapeutic targets. Future integration of multi-omics datasets with clinical outcomes will help to translate these insights into novel biomarkers for patient stratification and stroma-directed therapeutic interventions.

Authors

Romain Desert, Orlando Musso, Thomas F. Baumert

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Figure 1

Summary of the different roles of ECM remodeling in cancer progression.

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Summary of the different roles of ECM remodeling in cancer progression.

Copyright © 2026 American Society for Clinical Investigation
ISSN 2379-3708

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