Vanquishing a virus; new drugs attack herpes infections.Best known for intermittently producing embarrassing sores on the mouth and genitals, 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 (HSV (Hue Saturation Value) A color space similar to HSB. See HSB. HSV - hue, saturation, value ) is more dangerous than most people realize. The virus can blind and even kill people with weak immune systems, such as newborns, elderly people, and AIDS patients. By targeting one of the virus' enzymes, two pharmaceutical companies have now independently identified a new class of drugs that stop HSV from replicating. Scientists rate the compounds as the most promising antiherpes agents developed in 3 decades. Surprisingly, however, there are no current plans to test the experimental drugs in people. First developed in the 1970s, the compound acyclovir acyclovir /acy·clo·vir/ (a-si´klo-ver) a synthetic purine nucleoside with selective activity against herpes simplex virus; used as the base or the sodium salt in the treatment of genital and mucocutaneous herpesvirus infections. remains the standard drug for treating various forms of HSV. When acyclovir gets into an infected cell, an HSV enzyme activates the drug, leading to the inhibition of a protein the virus uses to copy its own 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. . However, a treated infection may recur, and some strains of the virus are resistant to acyclovir. Seeking new drug opportunities, researchers have looked at other proteins that the virus relies on to replicate its DNA. More than a decade ago, while at Stanford University, James J. Crute discovered a complex of three HSV proteins that combine into an enzyme called helicase-primase. The virus uses this enzyme to unravel DNA's double helix double helix n. The coiled structure of a double-stranded DNA molecule in which strands linked by hydrogen bonds form a spiral configuration. Also called DNA helix, Watson-Crick helix. structure and perform other duties required for replication. "It was immediately recognized as a really great target for drug discovery," recalls Crute, now at Aurora Biosciences in San Diego. While working at Boehringer Ingelheim Pharmaceutical in Ridgefield, Conn., Crute and his colleagues developed an assay for screening thousands of compounds for ones that inhibit the helicase activity of the viral enzyme. They identified several compounds that hamper the enzyme's ability to creep along the DNA strand and perform its duties. Crute's team reports in the April Nature Medicine that these inhibitors block HSV replication in infected cells and also help rodents survive HSV infections. In mice whose genitals had been infected with HSV, one inhibitor slashed the death rate from 60 percent to 10 percent. Moreover, the new compounds are effective even when given to the mice up to 65 hours after an initial infection. In contrast, for acyclovir to work, it must be taken within hours after the first symptoms appear. Gerald Kleymann and his colleagues at Bayer AG in Wuppertal, Germany, also have identified inhibitors of HSV replication. After screening more than 400,000 compounds, they realized that the most effective ones were interfering with helicase-primase. "It appears that we hit the Achilles' heel of the virus," says Kleymann. Like the Boehringer Ingelheim team, the Bayer group found the compounds to be effective in rodents infected with HSV. In the April Nature Medicine, the Bayer group even reports that its compounds reduce the number of sequelae--the subsequent outbreaks of sores after an initial infection. "The unsolved problem of herpes infections, namely the sequelae sequelae Clinical medicine The consequences of a particular condition or therapeutic intervention , may become curable cur·a·ble adj. Capable of being cured or healed. ," says Kleymann. Both research groups conclude that helicase-primase inhibitors are more potent than acyclovir and its derivatives. "People have been looking for Looking for In the context of general equities, this describing a buy interest in which a dealer is asked to offer stock, often involving a capital commitment. Antithesis of in touch with. years, and nobody had come up with anything that matches acyclovir," notes virologist virologist microbiologist specializing in virology. Priscilla A. Schaffer of Harvard Medical School Harvard Medical School (HMS) is one of the graduate schools of Harvard University. It is a prestigious American medical school located in the Longwood Medical Area of the Mission Hill neighborhood of Boston, Massachusetts. in Boston. "These compounds are tremendously exciting." At the moment, though, neither Bayer nor Boehringer Ingelheim plans to launch tests of helicase-primase inhibitors in people. "It's unfortunate because these compounds do look interesting, but companies have to make choices about what they are going to put their money and resources behind," says Paul Anderson, a vice president at Boehringer Ingelheim. "The fundamental issue is that no pharmaceutical company wants to go head-to-head with acyclovir [and its derivatives]," says virologist Richard Whitley of the University of Alabama at Birmingham UAB began in 1936 as the Birmingham Extension Center of the University of Alabama. Because of the rapid growth of the Birmingham area, it was decided that an extension program for students who had difficulties which prevented them from studying in Tuscaloosa was needed. . "They do not see it as profitable." Both pharmaceutical firms say they hope to find other companies willing to finance further testing of their compounds. "It's kind of depressing," notes Schaffer. "We'd all love to see [a helicase-primase inhibitor] go into the clinic. One of these days, I dare say, it will." |
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