AIDS Weekly Plus
HIV/AIDS vaccines: Defining what works
August 5, 2013
2013 AUG 5 (NewsRx) -- By a News Reporter-Staff News Editor at AIDS Weekly -- Designing an effective HIV/AIDS vaccine is something of a paradox: a good vaccine would be safe and look enough like HIV to kick-start the immune system into neutralizing the virus - but the problem is that this is exactly what the human immune system has trouble doing even when it's exposed to the real thing (see also HIV/AIDS).
Now a team of researchers led by scientists at The Scripps Research Institute in La Jolla, Calif. has developed a strategy for inducing a key part of an effective immune response to HIV. By tracing the evolution of HIV-recognizing molecules called antibodies taken from the blood of rare individuals whose immune systems are naturally able to target and neutralize the virus, they may have found a way to replicate this for everybody.
At a talk next week at the American Crystallographic Association meeting in Hawaii, the team will present multiple crystal structures, which like detailed architectural blueprints show how the virus interacts with components of the immune system. Examining these structures has allowed them to reverse engineer molecules that specifically activate the precursors of effective, neutralizing antibodies against the virus - molecules that may be components of a future vaccine against HIV.
"What we tried to do was to learn how those [effective] antibodies developed over the course of natural infection and attempt to guide the immune response in the direction of what we know works in certain HIV-infected individuals," said structural biologist Jean-Philippe Julien, who is presenting the work in Hawaii.
He conducted the research under the direction of Professors Ian Wilson and William Schief of The Scripps Research Institute. The work was funded by the International AIDS Vaccine Initiative Neutralizing Antibody Center, the Scripps Center for HIV/AIDS Vaccine Immunology and Immunogen Discovery, and the National Institute of Allergy and Infectious Diseases (one of the National Institutes of Health). Additional support was provided through a Canadian Institutes of Health Research fellowship.
Julien cautioned that the work might not, by itself, be the final answer that shows how to make an effective HIV/AIDS vaccine - but it is a step in the right direction. Most likely, Julien said, any future HIV/AIDS vaccine would combine multiple biological components in order to give the broadest possible protection against the virus.
He added that their candidate molecule was able to achieve the desired immune reactions in the test tube, and they are currently testing it in animals to see if it is able to kick start the desired immune response. If those experiments go well, he said, further studies will examine whether it can protect animals against infection, and human trials for safety and vaccine efficacy would be next - though it may be years before those results are known.
While designing a vaccine against any pathogen is a long, hard process, HIV has been particularly difficult, and despite decades of efforts and hundreds of millions of dollars spent in the process, we still do not yet have an effective vaccine that can prevent infection.
Keywords for this news article include: Antibodies, HIV/AIDS, Virology, Immunology, RNA Viruses, Retroviridae, AIDS Vaccines, Blood Proteins, HIV Infections, Viral Vaccines, Immunoglobulins, Vertebrate Viruses, Biological Products, Primate Lentiviruses, American Institute of Physics, Acquired Immunodeficiency Syndrome, Viral Sexually Transmitted Diseases.
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