New PET scans show wide responses to antibodies.
One of the brightest hopes of addiction science has been the idea of a vaccine—an antibody that would scavenge for drug molecules, bind to them, and make it impossible for them to cross the blood-brain barrier and go to work. But there are dozens of good reasons why this seemingly straightforward approach to medical treatment of addiction is devilishly difficult to perform in practice.
Last January, health care company Novartis threw in the towel on NicVax, a nicotine vaccine that failed to beat placebos in Phase III clinical trials for the FDA. And back in 2010, a report in the Archives of General Psychiatry demonstrated that a vaccine intended for cocaine addicts only generated sufficient antibodies to dull the effects of the cocaine in 38 percent of the test subjects. Moreover, it proved possible to overcome immunization by upping the cocaine dose, which sounded like an invitation to overdose.
And now, neuroscientists at the Society of Nuclear Medicine and Molecular Imaging annual meeting have presented a new study, the conclusions of which might help researchers understand why the vaccine results have been so mixed. The research “represents one of the first human studies of its kind using molecular imaging to test an investigational anti-nicotine immunization,” lead author Alexey Mukhin, professor of psychiatry and behavioral science at Duke University Medical Center, said in a prepared statement.
Subjects underwent two PET brain scan as they smoked nicotine labeled with radioactive C-11, one before the vaccine was administered, and one after. Ten subjects who developed “high-affinity antibodies” after vaccination showed a slight decrease in nicotine accumulation in the brain, as judged by the scans. However, another group of ten subjects, who showed “intermediate serum nicotine binding capacity and low affinity of antibodies” actually showed an increase in brain nicotine levels. What the PET scans showed was that “strong nicotine-antibody binding, which means high affinity, was associated with a decrease in brain nicotine accumulation. When binding was not strong, an increase in brain accumulation was observed.”
If the bond that holds the antibodies to the nicotine molecules is weak, the bond can break during passage through the blood-brain barrier, potentially allowing excess nicotine to flood in. This result, said Mukhin, tell us “we should care about not only the amount of antibody, but the quality of the antibody. We don’t want to have low-affinity antibodies because that can negate the anti-nicotine effects of the vaccination.”
Back to the drawing board? Not entirely. Another of the study authors, Yantao Zuo of Duke University Medical Center, said that “with reports of new generations of the vaccines showing potentially much higher potencies in animal studies, we are hopeful that our current findings and methodology in human research will facilitate understanding of how these work in smokers.”
Photo Credit:http://www.medgadget.com
0 comments:
Post a Comment