Key Gene Identified That May Be A Marker Of Breast Cancer Metastasis
Main Category: Breast CancerAlso Included In: Genetics; Endocrinology
Article Date: 24 Apr 2007 - 14:00 PDT
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Researchers at Fox Chase Cancer Center have identified an important gene involved in the spread of breast cancer that has developed resistance to long-term estrogen deprivation. The discovery was reported in an oral presentation during the 97th Annual Meeting of the American Association for Cancer Research in Los Angeles. The gene may prove to be a useful marker for predicting which patients have the greatest risk of breast cancer recurrence so their doctors can offer the most appropriate treatment plan.
The research focused on breast cancer cells that had grown resistant to a class of anti-hormone drugs called aromatase inhibitors. AIs shut down an enzyme, aromatase, that lets the body produce estrogen outside the ovaries. These drugs represent one of the newest, most effective forms of hormone therapy for postmenopausal women whose breast cancer tests positive for estrogen receptors, which means that estrogen in the body fuels the growth of cancer cells.
"Unfortunately, one of the drawbacks to extended use of an AI may be that some of the cancer cells develop resistance to the drug and are able to grow and spread independent of estrogen," said Fox Chase Cancer Center biochemist Joan S. Lewis-Wambi, Ph.D, who presented the results of the study of aggressive AI-resistant breast cancer cells.
"Our laboratory has developed several AI-resistant breast cancer cell lines and have found that these cells are very invasive compared to AI-sensitive breast cancer cells," she explained. "Analyses of gene activity in these AI-resistant cells have shown that they express high levels of genes associated with invasiveness and metastasis."
The researchers found, however, that they could reverse this aggressive behavior by using molecules called "small interfering RNAs" to knock out the gene called CEACAM6 (carcinoembryonic antigen-related cell adhesion molecule 6).
"Overall, these findings identify CEACAM6 as a unique mediator of the aggressiveness and spread of AI-resistant breast cancer," Lewis-Wambi said. "This suggests that it might be an important biomarker for metastasis and a possible target for novel treatments for patients with metastatic breast cancer.
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Lewis-Wambi's co-authors include Fox Chase scientific technician Helen R. Kim, V. Craig Jordan, OBE, Ph.D., D.Sc., vice president and research director for medical science at Fox Chase, and Heather Cunliffe, Ph.D., head of the breast and ovarian cancer research laboratory at Translational Genomics Research Institute in Phoenix, Ariz. The supercomputer at Translational Genomics performed the gene expression analyses for the study.
The Department of Defense Breast Cancer Program supports this research through a Center of Excellence grant to Fox Chase.
Contact: Karen Mallet
Fox Chase Cancer Center
Visit our breast cancer section for the latest news on this subject.
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Key Gene Identified That May Be A Marker Of Breast Cancer Metastasis
posted by Gregory D. Pawelski on 25 Apr 2007 at 12:28 pmIt may be very important to zero in on different genes and proteins. However, gene expression is only valuable insofar as it predicts for protein content, which is only valuable insofar as it predicts for protein activity, which is only valuable insofar as it predicts for cellular activity. And one gets more accurate information when using intact RNA isolated from "fresh" tissue than from using degraded RNA from "permanent cell lines."
When actually taking targeted drugs, do the drugs even enter the cancer cell? Once entered, does it immediately get metabolized or pumped out, or does it accumulate? In some cases, these and other drugs, kill tumor cells without killing microvascular cells in the same time frame. In other cases they kill microvascular cells without killing tumor cells. In yet other cases they kill both type of cells or neither type of cells. The ability of these agents to kill tumor and/or microvascular cells in the same tumor specimen is highly variable among the different agents.
There are assays that allow for the study of anti-microvascular drug effects of standard and targeted agents. They are based upon the principle that microvascular (endothelial and associated) cells are present in tumor cell microclusters obtained from solid tumor specimens. The assay which has a morphological endpoint, allows for visualization of both tumor and microvascular cells and direct assessment of both anti-tumor and anti-microvascular drug effect.
Direct visualization of the cancer cells at endpoint allows for accurate assessment of drug activity, discriminates tumor from non-tumor cells, and provides a permanent archival record to improve quality, serve as control and assess dose response in vitro. Photomicrographs show that sometimes clones of tumor cells don't accumulate a drug or combination of drugs. These cells won't get killed by it. The assay can measure the net effect of everything which goes on. Are the cells ultimately killed, or aren't they? Each of the new targeted drugs will not work for everybody. It would be nice to know if they will work for your particular cancer.
Source: Cell Function Analysis
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