Taking their cue from cancer therapies, US and German researchers attached radioactive isotopes to HIV-specific antibodies in a proof-of-principle study attempting to show HIV-infected cells can be selectively destroyed
during acute or chronic infection. The technique was employed in mice; researchers hope someday the approach can be used in humans.
"Twenty-five years from the start of the epidemic, HIV is still an incurable disease; something completely different needs to be done to eradicate it," said study co-author Ekaterina Dadachova, a nuclear medicine specialist
from the Albert Einstein College of Medicine in New York City.
Dadachova and colleagues hypothesized that radioactive isotopes could be used to cluster around HIV-infected cells, killing them while leaving the rest of cells unharmed. The approach has been successful when targeting
certain tumor cells.
The team linked radioisotopes bismuth 213 and rhenium 188 with antibodies to the HIV envelope's glycoproteins 120 and 41 (gp120 and gp41). They then injected the radioactive antibodies into mice engineered to have
HIV-infected blood cells.
Treated mice had less than half the infected cells of untreated mice, and the mice suffered cellular damage only at the highest antibody dose, the researchers reported. The investigators are working with a pharmaceutical
group to see if clinical trials are warranted.
from Scientific American
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