Understanding the mechanisms that give cancer cells the ability to survive and grow opens the possibility of developing improved treatments to control or cure the disease.
Understanding the mechanisms that give cancer cells the ability to survive and grow opens the possibility of developing improved treatments to control or cure the disease. In the case of glioblastoma multiforme, the deadliest type of brain cancer, researchers have discovered that the molecule CD44s seems to give cancer cells a survival advantage.// In the lab, eliminating this advantage by reducing the amount of CD44s resulted in cancer cells being more sensitive to the deadly effects of the drug erlotinib. The study appears in the Proceedings of the National Academy of Sciences.
‘CD44s holds a strategic place from which it can influence not only EGFR, but also a number of other signaling cascades that are important for cancer cell survival.’
"Treatment with erlotinib attempts to kill cancer cells by inhibiting EGFR signaling, a cellular mechanism that is hyperactive in most cases of glioblastoma multiforme and associated with poor prognosis," said senior author Dr. Chonghui Cheng, associate professor of molecular and human genetics and of molecular and cellular biology at Baylor College of Medicine. "However, the clinical benefit of treatment with this and other EGFR inhibitors has been limited by the development of drug resistance."Erlotinib can inhibit EGFR signaling but in time cancer cells become resistant to the treatment, in part because other molecules can compensate for the lack of EGFR activity. Increasing evidence also suggests that EGFR and related signaling mechanisms do not act alone. Another molecule present in a number of cancers, CD44s, seems to be involved in sustaining those cancer-promoting mechanisms, but how this happens remained a mystery.
CD44s gives cancer cells a survival advantage
"In this study, we discovered a mechanism by which CD44s helps maintain the EGFR signaling activated in glioblastoma multiforme," said Cheng, who also is a professor in the Lester and Sue Smith Breast Center at Baylor, part of the NCI-designated Dan L Duncan Comprehensive Cancer Center. "Working with a number of cancer cells grown in the lab, we determined that CD44s on the cell surface can enter the cell and prevent the digestion of EGFR, thus sustaining the activity of the signaling cascade that gives the cells a survival advantage."
Cheng and her colleagues have shown that CD44s holds a strategic place from which it can influence not only EGFR, but also a number of other signaling cascades that are important for cancer cell survival.
Advertisement
Importantly from the therapeutic point of view, the researchers also found that removing CD44s from cancer cells in culture and treating them with erlotinib resulted in higher cancer cell deaths than treating with erlotinib alone. Cheng and colleagues anticipate that CD44s might also play a similar role in other types of cancer in which EGFR signaling is involved. This opens the possibility that targeting CD44s could potentially reduce the growth of many types of cancer, not just glioblastoma.
Advertisement
Source-Eurekalert