Novel biomarkers help decode metastatic breast cancer

Novel biomarkers help decode metastatic breast cancer
Human breast cancer tissue sample: the blue is the nuclear stain that shows DNA of the cells. The red shows the CXCR4 and CCR7 heterodimer complex. Credit: University of South Australia

Breast cancer is the most common cancer in women worldwide, yet despite medical advances, a cure for the tumors that spread locally and especially to the distant sites remains out of reach.

Now, new research from the University of South Australia has found a connection between aggressive cells and the dual CXCR4-CCR7 cell surface protein complexes. The research shows a direct relation between the number of these associations and the severity of the disease.

This is the first time that this protein interaction has been observed in both animal and .

Funded by the National Health and Medical Research Council, the study provides vital information about the mechanism of progression of breast cancers from benign to aggressive form.

UniSA researcher, Valentina Poltavets says blocking the interaction between CXCR4-CCR7 proteins could deliver novel treatments for invasive breast .

"Globally, breast cancer affects more 2.3 million women each year, with aggressive breast cancer accounting for more than 40 percent of all cancer-related deaths in women," Ms. Poltavets says.

"There is no current cure for metastatic tumors, which is why new therapies that can target spread of breast cancer to another organs in the body are so urgently needed.

"On their own, CXCR4 and CCR7 proteins are found in many cell types including breast cancer cells. But we saw that in more invasive and metastatic breast cancer cells, they are bound to each other to deliver specific signals that make these cells grow and move quickly."

The research team also created a system that forced these proteins to interact on the cell surfaces of non-invasive breast cancer cells, demonstrating how they will make the cancer cells more aggressive and invasive.

Amid the COVID-19 pandemic, 98 percent of breast screens have been canceled or delayed across Australia, putting thousands of women at greater risk.

Poltavets says while research continues to improve breast cancer survival rates, more investment is needed to tackle hard-to-treat breast cancers.

"There's no doubt that research is advancing our knowledge in cancer. Step by step, we're determined to find a cure for this devastating disease."

More information: Valentina Poltavets et al, CXCR4-CCR7 Heterodimerization Is a Driver of Breast Cancer Progression, Life (2021). DOI: 10.3390/life11101049

Citation: Novel biomarkers help decode metastatic breast cancer (2022, February 3) retrieved 14 April 2024 from
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