How Interferon WorksThe new work sheds further light on somewhat mysterious components of the immune system known as restriction factors, which are chemicals the human body produces to keep viruses like HIV in check and prevent them from infecting other cells. These are just two fronts in the overall battle between HIV and the immune system—a battle in which the immune system seeks to destroy the virus while the virus constantly counters by undermining the immune system.Unlike other parts of the immune system, where whole cells gobble up invading pathogens or attack other cells, the action of these restriction factors is more subtle and localized within the infected cell itself—one of the reasons scientists didn’t appreciate what they do until just a few years ago.One of them, called APOBEC3, fights viruses by stealthily jumping onto new virus particles as they form. Therein, the APOBEC3 protein fouls up HIV’s genetic material by mutating it. When the virus tries to infect another cell, it no longer has the potency to replicate. Another factor, called tetherin, takes an even more direct approach. It attaches to virus particles as they emerge from infected cells in the body and literally tethers them in place, preventing them from moving elsewhere in the body where they could infect new cells.HIV has its own countermeasures to thwart these defenses. It produces a protein known as Vpu that neutralizes tetherin. Another HIV protein, called Vif, subverts APOBEC.In the new study, Pillai and his colleagues showed that interferon combats HIV by mediating the action of both of these restriction factors. They collected samples from the 20 patients and measured the levels of APOBEC3 and tetherin before, during and after they took the drug interferon. The levels increased in response to interferon when the drug was in the bloodstream, and patients with the highest restriction factor levels showed the most precipitous drop in HIV viral load during interferon treatment. While this insight does not immediately suggest new drugs or new ways of treating people with HIV, Pillai said scientists armed with this knowledge may one day figure out how to enhance this defense mechanism and specifically enhance the expression of restriction factors like tetherin and APOBEC3 in HIV-1–infected individuals.If these factors can be induced to higher levels, their attack on the virus may become more potent—perhaps even overriding HIV’s countermeasures and helping flush the virus from infected cells.This article was first published at www.newswise.com
Old drugs reveal new tricks
The mode of action of interferon, which used to be given to people with HIV/AIDS, has always been something of a black box.
How Interferon WorksThe new work sheds further light on somewhat mysterious components of the immune system known as restriction factors, which are chemicals the human body produces to keep viruses like HIV in check and prevent them from infecting other cells. These are just two fronts in the overall battle between HIV and the immune system—a battle in which the immune system seeks to destroy the virus while the virus constantly counters by undermining the immune system.Unlike other parts of the immune system, where whole cells gobble up invading pathogens or attack other cells, the action of these restriction factors is more subtle and localized within the infected cell itself—one of the reasons scientists didn’t appreciate what they do until just a few years ago.One of them, called APOBEC3, fights viruses by stealthily jumping onto new virus particles as they form. Therein, the APOBEC3 protein fouls up HIV’s genetic material by mutating it. When the virus tries to infect another cell, it no longer has the potency to replicate. Another factor, called tetherin, takes an even more direct approach. It attaches to virus particles as they emerge from infected cells in the body and literally tethers them in place, preventing them from moving elsewhere in the body where they could infect new cells.HIV has its own countermeasures to thwart these defenses. It produces a protein known as Vpu that neutralizes tetherin. Another HIV protein, called Vif, subverts APOBEC.In the new study, Pillai and his colleagues showed that interferon combats HIV by mediating the action of both of these restriction factors. They collected samples from the 20 patients and measured the levels of APOBEC3 and tetherin before, during and after they took the drug interferon. The levels increased in response to interferon when the drug was in the bloodstream, and patients with the highest restriction factor levels showed the most precipitous drop in HIV viral load during interferon treatment. While this insight does not immediately suggest new drugs or new ways of treating people with HIV, Pillai said scientists armed with this knowledge may one day figure out how to enhance this defense mechanism and specifically enhance the expression of restriction factors like tetherin and APOBEC3 in HIV-1–infected individuals.If these factors can be induced to higher levels, their attack on the virus may become more potent—perhaps even overriding HIV’s countermeasures and helping flush the virus from infected cells.This article was first published at www.newswise.com