Newswise – Biologists at UC San Diego have unraveled the anti-viral mechanism of a human gene that may explain why some people infected with HIV have much higher amounts of virus in their bloodstreams than others.
Their findings, detailed recently in an online issue of the journal Nature, could also shed light on the mystery of why some people with HIV never develop symptoms of AIDS. The biologists found that a gene called Human Schlafen 11 produces a protein that inhibits the replication of HIV in infected human cells by blocking the ability of the host cell to synthesize viral proteins.
“Some people with HIV develop AIDS rapidly and others can be HIV positive for decades and never really develop any symptoms of the disease,” said Michael David, a professor of biology at UC San Diego, who headed the research team. “It’s still unclear why that is, but one possibility is that the genetic variations in this protein, like in many other viral restriction factors, account for the differences in the susceptibility to the virus.”
Because Human Schlafen 11 specifically blocks synthesis of HIV proteins, the researchers are conducting further studies to see if variations in the Human Schlafen 11 gene can be correlated with disease progression in HIV infected individuals. If that turns out to be the case, the discovery could one day lead to the development of a diagnostic test for HIV infected individuals that would inform them of their likelihood of developing AIDS or, better yet, the development of a therapeutic drug that would prevent HIV infected individuals from ever developing AIDS.
“If it’s possible for the human cell to inhibit the synthesis of viral programs without affecting the synthesis of cellular proteins, it’s possible that at some point a drug can do that, too,” said David. “But our discovery is just the tip of the iceberg. There’s a lot more work to be done. Whether this will have diagnostic or therapeutic value remains to be seen.”
The researchers are also collaborating with scientists who oversee tissue banks containing DNA samples from thousands of individuals infected with HIV to determine whether variations in the genetic sequences of the Human Schlafen 11 gene can be correlated with the development of clinical symptoms in those individuals. David’s team is part of a collaboration called HIV Immune Networks Team or HINT, which is funded by NIAID at the National Institutes of Health to “use systems biology approaches to reveal how the early immune response defends against HIV-1 infection with a view toward blocking virus.”