Are you a Health Professional? Jump over to the doctors only platform. Click Here

Gene helps protect tumour suppressor in breast cancer

young woman with bald head jogging after chemotherapy
Print Friendly, PDF & Email

Scientists at the University of Texas M. D. Anderson Cancer Center have discovered a gene that protects PTEN, a major tumour-suppressor that is reduced but rarely mutated in about half of all breast cancers.

The gene Rak helps protect and regulate PTEN, which also is important in several other types of cancer, the team reports in the April edition of Cancer Cell. Causes for diminished PTEN protein levels in breast cancer absent a mutation of the PTEN gene have eluded researchers, who knew for several years that a piece of the puzzle was missing.

"We’ve clearly discovered the missing link that explains how Rak can stabilise PTEN protein to prevent breast cancer development," said lead author Shiaw-Yih Lin, PhD, an assistant professor in the Department of Systems Biology at M. D. Anderson. "Our research explains why PTEN is defective in breast cancer and provides important clues for the development of effective therapy in Rak- or PTEN-defective breast cancers."

In addition to breast cancer, PTEN frequently is mutated or inactivated in glioblastoma, melanoma, and cancers of the prostate and endometrium. The severity of PTEN irregularities strongly correlates with the tumour stage and grade. For example, complete loss of PTEN expression is found more frequently in metastatic cancer than in primary tumours.

In the laboratory, researchers found Rak can stabilise PTEN protein and function as a tumour suppressor gene to prevent breast cancer development.

To examine the correlation between Rak and PTEN protein expression, researchers analysed cells from 42 breast cancers. Rak expression showed a strong positive correlation with PTEN.

They also investigated the effect of Rak expression by injecting mice with cells that over-expressed Rak. All the mice injected with Rak-over expressing cells remained tumour free, whereas all the control mice developed tumours.

"To further assess whether Rak is a bona fide breast tumour suppressor gene, we sought to determine if loss of Rak expression would transform normal mammary epithelial cells," Lin said. "We injected control cells or cells in which Rak was compromised into the mammary glands of healthy mice and monitored tumour growth. Notably, all the mice injected with Rak-knockdown cells, but none of the mice injected with control cells, developed tumours."

Recent studies have shown that the PTEN protein is destroyed when it is bound by the enzyme NEDD4-1, which attaches targeting molecules called ubiquitins that mark PTEN for destruction by the ubiquitin proteasome complex.

Lin and colleagues showed that Rak saves PTEN from degradation by attaching a phosphate group to the protein, blocking NEDD4-1 from binding to PTEN.

Although this study demonstrates a PTEN-dependent function of Rak, Lin says much research remains ahead on yet-unidentified PTEN-independent functions of Rak in tumour suppression.

"Recently, we found that Rak can prevent spontaneous DNA damage and has a critical role in suppressing cancer stem cells," he said. "So, we will expand our research efforts toward determining how Rak helps to maintain genomic integrity."

(Source: Cancer Cell: University of Texas M. D. Anderson Cancer Center: April 2009)

Print Friendly, PDF & Email

Dates

Posted On: 14 April, 2009
Modified On: 16 January, 2014

Tags



Created by: myVMC