SATB1 is a nuclear protein well known for its crucial role in regulating gene expression during the differentiation and activation of T cells, making it a key player in the immune system. But SATB1 has now revealed a darker side: it is an essential contributing factor in the most aggressive forms of breast cancer. Breast cancer cells need SATB1 to become metastatic; metastasis—the stage when cells break away from the original tumor and spread to other parts of the body—is the final step of solid tumor progression and is the most common cause of death in cancer patients.

"In breast tumors, SATB1 reprograms the genome to change the expression of hundreds of genes, promoting tumor growth and metastasis," says Terumi Kohwi-Shigematsu, a scientist in the Life Sciences Division of the Department of Energy's Lawrence Berkeley National Laboratory who, with her colleagues, discovered SATB1 and has since investigated its many functions. She says, "SATB1's role in breast cancer is a new paradigm for the way tumors progress."

Kohwi-Shigematsu, working with Berkeley Lab's Hye-Jung Han and Yoshinori Kohwi, and with Jose Russo of the Fox Chase Cancer Center in Philadelphia, found that when SATB1 is detected in a breast tumor, the cancer is highly likely to progress or recur. Moreover, by introducing SATB1 into otherwise nonmetastatic breast cancer cells, invasive tumors can be induced in mice; conversely, removing SATB1 from metastatic cells not only abolishes metastasis and tumor growth in mice but also returns cells to their normal appearance in vitro. The researchers have published these and other findings in Nature.

Release date: March 12, 2008
Source: Lawrence Berkeley National Laboratory