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Study of HIV Superinfection and Neutralizing Antibody Responses Causes Confusion

April 16, 2012

On March 29th, PLoS Pathogens published a paper reporting that women superinfected with two HIV variants are more likely to generate antibody responses capable of neutralizing a broad array of viral strains (known as broadly neutralizing antibodies or bNAbs). The work was conducted by the laboratory of Julie Overbaugh at the Fred Hutchinson Cancer Research Center (FHCRC) in collaboration with the University of Nairobi. FHCRC issued a press release to publicize the work entitled "Study finds HIV 'superinfection' boosts immune response." In retrospect, this may have been a poor choice of words, as it can easily be misinterpreted to suggest that the immune response of the superinfected women was boosted in a way that was beneficial to them; today at least one press story has done just that, stating: "A new study suggests that women who have been infected by two variations of HIV may have a better chance of suppressing the virus then those only infected with one." This is completely untrue.

As with prior studies identifying bNAbs in people with HIV, the responses identified by Overbaugh's lab were of no benefit to the individuals they were sampled from. The bNAbs are not present at high enough titers to lead to control of HIV viral load or slowed disease progression in chronic infection. The study is nevertheless potentially important for preventive vaccine development, because if similar bNAbs could be induced by a vaccine they might well be able to prevent the acquisition of HIV infection (which involves exposure to a relatively small amount of virus). Similar confusion occurred with the prior studies reporting bNAb isolation, and it is clearly exacerbated by the adoption among vaccine researchers of the term "elite neutralizer" to describe the individuals bNAbs can be sampled from, which is easily mixed up with "elite controller," the designation given to a different subset of individuals with HIV who maintain undetectable viral loads in the absence of treatment.

In terms of what the study does actually show, it offers intriguing and potentially important evidence that HIV variability can be linked to the generation of antibodies with broad neutralizing activity. This phenomenon has been suggested before by Guido van der Groen, based on studies of individuals infected with recombinant HIVs (viruses made of two different clades that have recombined). However, while van der Groen mentioned the association during a talk at a meeting in 2000, it does not appear that the data were subsequently published (I covered the van der Groen's talk for the Sept-Nov 2000 issue of the IAVI Report, see page 17).

The findings may offer encouragement to the researcher Julie Hurwitz, who has long been working to develop an antibody-based HIV vaccine that comprises a cocktail of multiple different Env proteins derived from a variety of strains. The one currently ongoing HIV vaccine efficacy trial, HTVN 505, involves candidates that encode Env proteins from HIV clades A, B and C, so the results (expected in 2015) may also contribute to understanding whether mixing diverse antigens can increase the chance of generating bNAbs.

Richard Jefferys is the coordinator of the Michael Palm HIV Basic Science, Vaccines & Prevention Project Weblog at the Treatment Action Group (TAG). The original blog post may be viewed here.




This article was provided by Treatment Action Group. It is a part of the publication Michael Palm HIV Basic Science, Vaccines & Prevention Project Weblog.
 
See Also
Risk of HIV Reinfection May Be Similar to Risk of Initial HIV Infection

 

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