Silencing a gene slows breast-tumor fighter.Just as every actor needs a director to shout "Action," each gene in the body needs a promoter--nearby DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. that switches on the gene at appropriate times. The promoter's cue can take on life-or-death importance when the gene is p53, a tumor suppressor sup·pres·sor n. 1. or sup·press·er One that suppresses: a suppressor of free speech. 2. A gene that suppresses the phenotypic expression of another gene, especially of a mutant gene. . Researchers now report that a protein that activates the p53 promoter is frequently missing in breast cancer cells cells once believed to be peculiar to cancers, but now know to be epithelial cells differing in no respect from those found elsewhere in the body, and distinguished only by peculiarity of location and grouping. See also: Cancer . Of tumor samples taken from 30 women with breast cancer, 20 were devoid of the protein, called HOXA5, says study coauthor Saraswati Sukumar, a molecular biologist at the Johns Hopkins Noun 1. Johns Hopkins - United States financier and philanthropist who left money to found the university and hospital that bear his name in Baltimore (1795-1873) Hopkins 2. Medical Institutions in Baltimore. The p53 gene itself encodes a protein that signals cells to commit programmed suicide, or apoptosis apoptosis or programmed cell death Mechanism that allows cells to self-destruct when stimulated by the appropriate trigger. It may be initiated when a cell is no longer needed, when a cell becomes a threat to the organism's health, or for other reasons. , when their growth patterns run amok Amok (ā`mŏk), in the Bible, post-Exilic Jewish family. , as in cancer. Try as it may, however, p53 can't always play the hero. In at least one-fifth of breast cancer cases, for example, p53 has been mutated and its protein rendered ineffective. Sukumar also suspects that p53 is silenced in some breast tumors. To ascertain whether HOXA5 plays a vital role in activating p53, Sukumar and her colleagues infused either functional or defective HOXA5 genes into breasttumor cells in laboratory dishes. The working genes induced cell death, whereas flawed HOXA5 genes permitted the tumor cells to keep thriving, the researchers report in the June 22 NATURE. HOXA5's cancer-fighting capabilities may not be limited to activation of the p53 promoter, Sukumar says. The protein also spurred production of another tumor-suppressing protein, encoded by the p21 gene. "We have a feeling that more genes are [switching] on," she says. Further experimentation suggested a mechanism by which the HOXA5 gene might come to be disabled in cancer patients. The researchers took breast cancer cells lacking p53 protein from 20 patients. In 16 cases, they found that hydrocarbon fragments, or methyl groups, had latched onto the promoter region for the HOXA5 gene. While methylation methylation, n a phase-II detoxification pathway in the liver; methyl groups combine with toxins to rid the body of various substances. methylation (meth´ is a common occurrence in DNA throughout the body, the promoter DNA next to the HOXA5 gene "is normally not a methylated meth·yl·ate n. An organic compound in which the hydrogen of the hydroxyl group of methyl alcohol is replaced by a metal. tr.v. meth·yl·at·ed, meth·yl·at·ing, meth·yl·ates 1. region," says Sukumar. If methylation has silenced HOXA5, the gene couldn't direct a cell to produce the protein needed to activate p53's promoter, she concludes. Meanwhile, none of the breast cells from 10 healthy women showed a methylated promoter for HOXA5, she says. "This... is potentially a very interesting finding," says Louise C. Strong, a cancer geneticist ge·net·i·cist n. A specialist in genetics. geneticist a specialist in genetics. geneticist at the University of Texas M.D. Anderson Cancer Center in Houston. Scientists are now examining the effects of removing methyl groups from portions of DNA. By demethylating HOXA5 promoter DNA, scientists might be able to fight breast cancer by activating p53 in patients, she says. HOXA5 belongs to the Hox family of genes, which guide formation of certain body parts. Sukumar notes that the new study is the first to link a Hox protein to apoptosis. Future research might delve into ways of delivering functional HOXA5 genes to tumors in patients lacking the protein. |
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