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Refining Breast Cancer Classification by Multiplexed Imaging

An imaging approach developed at UZH enables the study of breast cancer tissue in greater detail. It uses 35 biomarkers to identify the different cell types in breast tumors and its surrounding area compared to the current standard of testing single markers. This increases the precision of tumor analysis and classification - and improves personalized diagnostics for breast cancer patients.

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35 protein biomarkers create an unprecedented view of a tumor’s cellular landscape and the surrounding tissue. (Image: Bernd Bodenmiller / UZH)
35 protein biomarkers create an unprecedented view of a tumor’s cellular landscape and the surrounding tissue.

Breast cancer progression can vary significantly between patients. Even within the same tumor, different areas may be composed of different types of cells and characterized by different tumor structures. This heterogeneity makes it challenging to ascertain the severity of a tumor and assess its molecular subtype, thereby affecting the precision of diagnosis and the choice of the most effective treatment approach. More detailed characterization of a breast cancer tissue could help improve a treatment’s chances of success and may decrease the risk of relapse.

High-dimension biomarkers reveal differences in breast cancer survival

The research group headed by Bernd Bodenmiller, professor of quantitative biology at UZH, has been able to refine the pathological classification of breast cancer using imaging mass cytometry. This method enables scientists to simultaneously visualize and analyze multiple biomarkers to generate information-rich digital images of tissue sections. In their study, the researchers quantified 35 protein biomarkers in breast cancer patients. “This created an unprecedented view of a tumor’s cellular landscape and the surrounding tissue, which enabled us to determine whether more complex biomarkers exist for clinical outcome,” explains Jana Fischer, co-first author of the study.

The team of researchers analyzed hundreds of tissue sections from 350 breast cancer patients and categorized the many cell components and how they are organized in cellular communities and form tumor tissues. “Four categories of breast cancer are routinely classified in the clinic, but our new analysis allows us to go further and identify multiple detailed subcategories of breast cancer. The danger from these diverse tumors can be very different, and each type could respond to therapy in its own way,” explains co-first author Hartland Jackson.

Potential impact on breast cancer precision medicine

This finding has the potential to change clinical practice. The new subgroups of breast cancer patients vary in their molecular profiles. Bernd Bodenmiller and his research team are now working on finding out which drugs are best able to combat tumor cells with a specific molecular profile. “By improving our ability to describe cellular features and categories as well as our ability to precisely identify patients that have high or low risk breast cancer, we’re opening up new possibilities for precision medicine,” says Bodenmiller.

Literature:

Hartland W. Jackson, Jana R. Fischer, Vito R.T. Zanotelli, H. Raza Ali, Robert Mechera, Savas D. Soysal, Holger Moch, Simone Muenst, Zsuzsanna Varga, Walter P. Weber, and Bernd Bodenmiller. The Single-Cell Pathology Landscape of Breast Cancer. Nature. 20 January 2020, DOI: 10.1038/s41586-019-1876-x

The method enables scientists to simultaneously visualize and analyze multiple biomarkers to generate information-rich digital images (Image: Bernd Bodenmiller / UZH)
The method enables scientists to simultaneously visualize and analyze multiple biomarkers to generate information-rich digital images (Image: Bernd Bodenmiller / UZH)

Weiterführende Informationen

Contact

Prof. Dr. Bernd Bodenmiller

Department of Quantitative Biomedicine

University of Zurich

Phone: +41 44 635 31 28

E-mail

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  • The researchers categorized the many cell components and how they are organized in cellular communities and form tumor tissues.

    (JPG, 3.61 MB)

    The researchers categorized the many cell components and how they are organized in cellular communities and form tumor tissues. (Image: Bernd Bodenmiller / UZH)

  • The method enables scientists to simultaneously visualize and analyze multiple biomarkers to generate information-rich digital images.

    (JPG, 2.60 MB)

    The method enables scientists to simultaneously visualize and analyze multiple biomarkers to generate information-rich digital images (Image: Bernd Bodenmiller / UZH)

  • 35 protein biomarkers create an unprecedented view of a tumor’s cellular landscape and the surrounding tissue.

    (JPG, 1.74 MB)

    35 protein biomarkers create an unprecedented view of a tumor’s cellular landscape and the surrounding tissue. (Image: Bernd Bodenmiller / UZH)