Herpes virus homes in on cancer target.A virus well known for the painful cold sores it causes is currently being tested as a treatment for patients' malignant tumors. New findings by researchers at the University of Calgary in Alberta show how the virus, herpes simplex virus Herpes simplex virus A virus that can cause fever and blistering on the skin, mucous membranes, or genitalia. Mentioned in: Conjunctivitis herpes simplex virus 1 (HSV-1), does selective damage to cancerous tissue. That revelation could point researchers toward ways of exploiting HSV-1 to better fight cancer. A relative of the herpes virus Herpes virus Viruses that can infect the skin, mucous membranes, and brain, and they are responsible for such diseases as herpes simplex, chicken pox, and shingles. Mentioned in: Erythema Multiforme that causes genital rashes, HSV-1 thrives in many types of cancer cells and can kill them. Patrick W. K. Lee and his group have discovered that the virus replicates most rapidly in cancer cells with particular mutations. Many tumors contain mutations in their genes that regulate cell growth. Mutations that make one of these, the Ras gene, hyperactive prompt cells to proliferate wildly. In the Aug. 1 NATURE CELL BIOLOGY, Lee's group shows that HSV-1 replicates unusually quickly in cells that have a hyperactive Ras gene. The researchers also show that such cancer cells crank up HSV-1 production by speeding up the manufacture of viral proteins. Lee notes that about 80 percent of tumors have Ras-activating mutations and thus might be susceptible to HSV-1. "In a sense, [this work] is a quantum leap in the field," says virologist virologist microbiologist specializing in virology. David A. Leib of Washington University in St. Louis “Washington University” redirects here. For other uses, see Washington (disambiguation). Washington University in St. Louis is a private, coeducational, research university located in St. Louis, Missouri. . Scientists had known that HSV-1 can destroy some tumor cells, he says, "but Lee's group is finally providing a mechanism" to explain those observations. The use of HSV-1 is proving safe as a cancer treatment in clinical trials. In these current experimental treatments, researchers use viruses genetically engineered genetically engineered adjective Recombinant, see there to not replicate in normal tissue. This built-in limitation is critical for patients undergoing chemotherapy whose weakened immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. leaves them vulnerable to the virus. When scientists alter the viruses to make them safer, they also make them less effective against cancer cells. The new details about HSV-1's ability to grow explosively in certain cancer cells "increases the chance that we can make the viruses more specific and more potent for treating cancer," says Harvard neurosurgeon neurosurgeon a physician who specializes in neurosurgery. neurosurgeon A surgeon specialized in managing diseases of the brain, spine and peripheral nerves Meat & potatoes diseases Brain tumors, spinal cord disease Salary $245K + 15% bonus. Robert L. Martuza. One way to enhance the virus' cancer-killing ability might be to apply drugs that increase the activity of Ras and thus promote viral replication, speculates Martuza, who is now conducting clinical trials using HSV-1 to treat brain tumors. He adds that researchers can already ascertain if a tumor has the kinds of defects in Ras that may make it conducive to the viral treatment. What's most exciting, says Lee, is that his team is promoting a general concept in cancer treatment. Two years ago, he and his coworkers showed that an unrelated virus also could elicit the death of cancer cells having an activated Ras gene. Many other viruses now under consideration for cancer treatments might work the same way, he says. Moreover, Lee says, his work could lead to new treatments for herpes infections. His study indicates that drugs that inactivate in·ac·ti·vate v. 1. To render nonfunctional. 2. To make quiescent. in·ac  ti·va Ras seem to block HSV-1 replication in cells growing in the laboratory. Martuza finds this approach "speculative, but certainly a possibility." Lee says he now has preliminary evidence that such anti-Ras drugs also work in cells to fight the sexually transmitted virus, herpes simplex herpes simplex (hûr`pēz), an acute viral infection of the skin characterized by one or more painful, itching blisters filled with clear fluid. 2. |
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