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Literature DB >> 35122040

Cancer-associated fibroblast compositions change with breast cancer progression linking the ratio of S100A4⁺ and PDPN⁺ CAFs to clinical outcome.

Gil Friedman¹, Oshrat Levi-Galibov¹, Eyal David², Chamutal Bornstein², Amir Giladi², Maya Dadiani³, Avi Mayo⁴, Coral Halperin¹, Meirav Pevsner-Fischer¹, Hagar Lavon¹, Shimrit Mayer¹, Reinat Nevo¹, Yaniv Stein¹, Nora Balint-Lahat⁵, Iris Barshack^5,6, H Raza Ali⁷, Carlos Caldas^7,8,9, Einav Nili-Gal-Yam¹⁰, Uri Alon⁴, Ido Amit¹¹, Ruth Scherz-Shouval¹².

Abstract

Tumors are supported by cancer-associated fibroblasts (CAFs). CAFs are heterogeneous and carry out distinct cancer-associated functions. Understanding the full repertoire of CAFs and their dynamic changes as tumors evolve could improve the precision of cancer treatment. Here we comprehensively analyze CAFs using index and transcriptional single-cell sorting at several time points along breast tumor progression in mice, uncovering distinct subpopulations. Notably, the transcriptional programs of these subpopulations change over time and in metastases, transitioning from an immunoregulatory program to wound-healing and antigen-presentation programs, indicating that CAFs and their functions are dynamic. Two main CAF subpopulations are also found in human breast tumors, where their ratio is associated with disease outcome across subtypes and is particularly correlated with BRCA mutations in triple-negative breast cancer. These findings indicate that the repertoire of CAF changes over time in breast cancer progression, with direct clinical implications.

Entities: Chemical

Mesh：

Substances：

Year: 2020 PMID： 35122040 DOI： 10.1038/s43018-020-0082-y

Source DB: PubMed Journal: Nat Cancer ISSN： 2662-1347

49 in total

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