Breast cancer metastasis may be tied to cell that regulates blood flow

Breast cancer metastasis may be tied to cell that regulates blood flow
Breast cancer metastasis may be tied to cell that regulates blood flow

Tumors require blood to emerge and spread. That is why scientists believe that targeting blood vessel cells known as pericytes may offer a potential new therapeutic approach when combined with vascular growth factors responsible for cell death.

A study lead by Valerie LeBleu, PhD, of the Department of Cancer Biology at The University of Texas MD Anderson Cancer Center in Houston, looked at how cellular signaling by vascular growth factors called angiopoietin-2 (ANG2), when combined with depletion of pericytes, may decrease breast cancer tumor growth that spreads to the lungs. Targeting pericytes and ANG2 signaling may also offer new potential therapy options for treatment of some breast cancers. LeBleu's findings were published in Cell Reports (2015; doi:10.1016/j.celrep.2015.01.035).

"Our study showed that angipoietin signaling is a key metastasis-promoting pathway associated with abnormal tumor blood vessels with poor pericytes coverage," said LeBleu. "When combined with pericyte loss during the late phases of tumor progression, it is possible to reduce both primary tumor growth and metastatic disease."

Previous strategies to target how tumors develop blood supplies have looked at pericyte depletion. Pericytes, cells that wrap around capillary cells throughout the body, have the ability to contract, thus regulating blood flow. Since angiopoietins are blood vessel growth factors that provide the green light for new arteries or veins to grow, the combination of the two is of interest to cancer researchers.

"Targeting of ANG2 signaling in tumors with abnormal blood vessels with low pericyte coverage appeared to restore vascular stability and decreased tumor growth and metastasis in lung cancer mouse models," said LeBleu. "We also found that ANG2 was tied to poor outcome in patients with breast cancer. These results emphasize the potential for therapies targeting advanced tumors with poor quality blood vessels."

The study was funded by the National Institutes of Health and National Cancer Institute.

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