In a study that could open up the field of virology to an entirely new suite of possibilities and that paves the way for future drug research, scientists at Rockefeller University and the Aaron Diamond AIDS Research Center have pinned down a molecule on the surface of human cells that helps keep particles of mutant strains of HIV from spreading. Rather than floating off to infect more cells, the protein contains the virus particles by keeping them attached to the parent cell’s outer membrane, as if stuck there with glue.
Two years ago, Paul Bieniasz — head of the Laboratory of Retrovirology and ADARC scientist — discovered that normal HIV-1 particles are able to extricate themselves from the sticky membrane surface using a protein called Vpu. Bieniasz has been searching for the source of the glue itself ever since. Now, in an advanced online publication in Nature, he and his colleagues report that they found it: a protein they dubbed “tetherin” for its ability to keep viruses tied to a cell.
“We’ve discovered a new way that cells defend themselves against viruses,” Bieniasz says. “I think this will open up a new area of study in virology: how this protein antagonizes other viruses, and how viruses learn to get around it.” Going forward, his lab will focus on how broad tetherin’s antiviral activity is, and whether variations of it exist that might confer additional immunity or sensitivity to HIV and other viruses. And, he notes, if drug researchers are able to interfere with the interaction between tetherin and Vpu, their newly discovered protein might even provide a potential therapeutic target.
This opens up new possibility's for HIV medication.
i am gonna show this to my friend, brother
One thing to remember though. It still has to go through more testing to make sure it safe.