Scientists had previously shown that the co-mingling of three cell types can predict whether localized breast cancer will spread throughout the body.
Now, a collaborative study led by investigators at NewYork-Presbyterian Hospital/Weill Cornell Medical Center, has produced a test for metastasis that could help doctors precisely identify which patients should receive aggressive therapy. This might spare many women at low risk for metastatic disease from undergoing unnecessary and potentially dangerous treatment. The findings were published today in the online version of Clinical Cancer Research.“This is the first marker that could reliably predict metastatic outcome in a case-controlled study,” says study co-author John S. Condeelis, Ph.D., professor and co-chair of anatomy and structural biology and co-director of the Gruss Lipper Biophotonics Center at Einstein. “It could dramatically change the way we approach the care of women with breast cancer.
”The test, which most pathology labs could carry out, was developed by scientists at NewYork-Presbyterian/Weill Cornell based on the intravital imaging observations of researchers from Einstein.
Breast cancer is the most common cancer among women in the United States. Last year, approximately 182,000 women were diagnosed with breast cancer and more than 40,000 died from the disease.
Tumors in breast cancer patients are graded for degree of differentiation and staged for the extent of disease. Surgery is the first line of defense for most patients with breast cancer. For patients with higher grade tumors, additional treatment with chemotherapy or radiation is typically recommended to decrease the risk that the disease will spread. However, studies show that only 40 percent of these patients actually do develop metastatic disease. “What this means is that most of these patients are unnecessarily exposed to chemotherapy or radiation, which can have significant side effects or even worsen the disease,” says Dr. Condeelis.
Recently, Dr. Condeelis found that breast cancer spreads only when a specific trio of cells are present together in the same microanatomic site: an endothelial cell (a type of cell that lines the blood vessels), a perivascular macrophage (a type of immune cell found near blood vessels), and a tumor cell that produces Mena. The protein Mena was shown to enhance a cancer cell’s invasiveness in a collaborative study from Dr. Condeelis and Frank Gertler at the Koch Institute for Integrative Cancer Research at MIT published in Developmental Cell in December. A site with these three cells constitutes what is called a tumor microenvironment of metastasis, or TMEM.
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Their analysis confirmed that TMEM density was significantly higher in patients who had developed metastatic breast cancer than in those who had localized disease. For every ten-unit increase in TMEM density, the risk for metastatic disease doubled. The density of any of three TMEM components alone was not sufficient to predict clinical outcome.
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While the new test promises to reduce overtreatment of breast cancer, it could reduce undertreatment as well. “There are some patients with Grade 1 breast cancer who ultimately develop metastatic disease,” says Dr. Condeelis. “By measuring TMEM counts, we could identify those people and treat them appropriately.
”The researchers are currently working on a blood test for predicting metastatic breast cancer. In theory, such a test could predict the risk of metastatic disease even before a tumor forms. “It could be part of a routine checkup, especially for women with a strong family history of the disease,” says Dr. Condeelis. Before such a blood test could be developed for commercial use, researchers will need to conduct a population study. The paper, “TMEM in Human Breast Carcinoma: A Potential Prognostic Marker Linked to Hematogenous Dissemination,” was published March 24th, 2009 in the online version of Clinical Cancer Research.
In addition to Dr. Condeelis, the co-authors of the paper include: Brian D. Robinson, Gabriel L. Sica, Yi-Fang Liu, Joan G. Jones of NewYork-Presbyterian Hospital/Weill Cornell Medical Center; Frank B. Gertler of Massachusetts Institute of Technology; and Thomas E. Rohan, professor of epidemiology and population health at Einstein.
Source-Eurekalert
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