Researchers strongly suggests that inflammation associated with the progression of tumors actually plays a key role in the metastasis of prostate cancer.
Researchers strongly suggests that inflammation associated with the progression of tumors actually plays a key role in the metastasis of prostate cancer.
The research identifies a mechanism, which triggers metastasis, which is the spread of cancer in late stages of prostate cancer development. The findings by Michael Karin, Ph.D., professor of pharmacology in UCSD's Laboratory of Gene Regulation and Signal Transduction, and colleagues may help solve the puzzle of why it takes so long for cancer to metastasize, as well as what causes it to do so. Furthermore, this new work may lead to development of anti-metastatic therapies.A major hypothesis in cancer research has been that whether the cancer metastisizes or not is determined by genetic changes within the cancer cell itself. But this hypothesis didn't explain why metastases appear many years after the initial tumor.
'Our findings suggest that promoting inflammation of the cancerous tissue, for instance, by performing prostate biopsies, may, ironically, hasten progression of metastasis,' said Karin. 'We have shown that proteins produced by inflammatory cells are the 'smoking gun' behind prostate cancer metastasis. The next step is to completely indict one of them.'
One in six men will be diagnosed with prostate cancer, and one in 33 will die of metastatic disease. Early tumors confined to the prostate can be treated, but no effective treatments are available for metastatic disease, according to Steven L. Gonias, M.D., Ph.D., professor and chair of the UCSD Department of Pathology, a study investigator.
'This study helps explain the paradox that, in certain types of malignancy, inflammation within a cancer may be counterproductive,' said Gonias.
In research using mouse models and confirmed in human tissue, the scientists observed that a protein kinase called IĸB kinase α (IKKα) turns down the expression of a single gene called Maspin, which has well-established anti-metastatic activity in breast and prostate cancers. They found that the production of Maspin is repressed by a series of events triggered by tumor inflammatory cells, with the result that prostate cancer cells spread.
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Karin and his colleagues discovered a signaling pathway that increased metastases in a mouse model of prostate cancer. The pathway is activated by a ligand that binds to a Receptor that Activates Nuclear factor Kappa-B (RANK). RANK ligand has been shown in previous studies to be an important inflammatory protein (cytokine) that can lead to bone loss through activation of bone resorbing cells.
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'Maspin is a very potent inhibitor of metastasis; in a patient with metastasis, cells have found a way to turn off Maspin, which may depend on invasion of the tumor with RANK ligand-producing cells that activate IKKα,' said Karin.
Malignancies progress through stages. In early, non-metastatic tumors, a high level of Maspin is present, but it is turned off in late stages. Early tumors contain low amounts of active nuclear IKKα, whereas late-stage tumors contain the highest levels of active nuclear IKKα. The researchers also found a striking elevation in expression of RANK ligand in late tumors, but it was not expressed by the cancer cells. Instead, it is expressed by invading inflammatory cells. Interference with RANK ligand production or activation, as well as interference with IKKα activation, may offer new therapeutic strategies for prevention of metastatic disease.
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