A set of naturally occurring antibodies that can block one of the key ways the AIDS virus gains entry into certain blood cells has been identified by scientists at Duke University Medical Center.
They say the discovery, published online in the Journal of Experimental Medicine, expands traditional notions about how the immune system fights HIV and offers a potential new strategy for HIV vaccine design.
AdvertisementResearchers have been puzzled and frustrated for years by antibody responses to HIV. In most infections, antibodies that fight off invading pathogens show up quickly and get right to work. But with HIV, the most powerful antibodies typically don't materialize until weeks or even months after initial infection - way too late to be effective.
"The beauty of this newly identified set of antibodies - called polyreactive anti-phospholipid antibodies - is that they are so potent against the type of virus that establishes infection during mucosal transmission," says Anthony Moody, M.D., a member of the Center for HIV/AIDS Vaccine Immunology (CHAVI) at Duke and lead author of the study appearing in the Journal of Experimental Medicine. "Our research suggests we may be able to harness them and enhance their anti-viral activity with a vaccine to fight
HIV directly," Moody says.
Moody says the antibodies, PGN632, P1, IS4 and CL1, do not appear to have any pathogenic features, even though other members of the class do. Earlier studies by others have demonstrated that anti-phospholipid antibodies have anti-viral effects, but "what we have done in this paper is to show how they do that," Moody says.
Through a series of laboratory tests on blood taken from HIV-infected patients as well as healthy volunteers, Moody discovered that when these antibodies bind to white blood cells (monocytes), it causes them to secrete substances called chemokines that block HIV from docking with its favorite entry point into a blood cell, the CCR5 receptor. "In other words, they don't go after individual viral particles directly, but instead, indirectly, by creating a chemical roadblock at one of the virus' most commonly used portals."
That doesn't happen all the time, however. The study showed antiviral activity in only 85 percent of the blood they tested - and only in the presence of monocytes.
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