Researchers have generated altered immune cells that are able to shrink, and in some cases eradicate, large tumors in mice.
The immune cells target mesothelin, a protein that is highly expressed, or translated in large amounts from the mesothelin gene, on the surface of several types of cancer cells. The approach, developed by researchers at the University of Pennsylvania School of Medicine and the National Cancer Institute (NCI), shows promise in the development of immunotherapies for certain tumors. The study appears online this week in the Proceedings of the National Academy of Sciences .
Expression of mesothelin is normally limited to the cells that make up the protective lining (mesothelium) of the body's cavities and internal organs. However, the protein is abundantly expressed by nearly all pancreatic cancers and mesotheliomas and by many ovarian and non-small-cell lung cancers. Although the biological function of mesothelin is not known for certain, it is thought to play a role in the growth and metastatic spread of the cancers that express it.
"Since tumor cells are derived from the body's normal cells, the immune system often does not recognize tumor molecules as dangerous or foreign and does not mount a strong attack against them," said Ira Pastan, M.D., chief of the Laboratory of Molecular Biology in NCI's Center for Cancer Research, a study collaborator. Moreover, even though it is possible to genetically engineer immune system cells to recognize molecules on tumor cells, most of the molecules found on tumor cells are also found on normal cells. But, Pastan notes, "Mesothelin is a promising candidate for generating tumor-targeting T cells, given its limited expression in normal tissues and high expression in several cancers."
Previous laboratory research has shown that certain immune system cells, called T cells, can kill tumor cells that express mesothelin. In addition, studies in both animals and humans have shown that antibodies directed against mesothelin protein can shrink tumors.