Rectal Microbes Influence Effectiveness of HIV Vaccine

Monkeys
Smita Iyer and colleagues at the UC Davis Center for Immunology and Infectious Diseases and California National Primate Research Center worked with rhesus macaques to study how microbes in the rectum affected an experimental HIV vaccine, and vice versa. The vaccine produced stronger antibody responses when certain bacteria were present, they found. (K. West/UC Davis)

By Andy Fell

Microbes living in the rectum could make a difference to the effectiveness of experimental HIV vaccines, according to researchers at the University of California, Davis. The work is published Dec. 11 in the journal mSphere

Evidence from human and animal studies with other vaccines suggests that Lactobacillus supplements can boost production of antibodies, while treatment with antibiotics can hamper beneficial immune responses, said Smita Iyer, assistant professor at the UC Davis Center for Immunology and Infectious Diseases and School of Veterinary Medicine. 

Iyer, graduate student Sonny Elizaldi and colleagues wanted to know if microbes living in the rectum and vagina — sites of HIV transmission — interacted with an experimental HIV vaccine similar to the HVTN 111 vaccine currently in early stage clinical trials in humans. 

HVTN 111 includes two doses of HIV DNA snippets and a final boost with an HIV protein, all given through the skin. A vaccine that produces antibodies at the mucosal membranes where infection takes place is thought to be important in preventing HIV infection, Iyer said. 

The team studied vaginal and rectal microbes from rhesus macaques before and after they were vaccinated. They found that vaginal microbes did not show much difference before and after vaccination. However, rectal microbes did show changes, with Bacteroidetes-type bacteria, especially Prevotella, decreasing after vaccination. 

Lactobacillus bacteria and better immune response

The common gut bacteria Lactobacillus and Clostridia did not change with vaccination, but the amounts of these microbes in the rectum did correlate with the immune response. Animals with high levels of either Lactobacillus or Clostridia made more antibodies to the HIV proteins gp120 and gp140, the researchers found. Prevotella bacteria showed the opposite pattern: High levels of Prevotella were correlated with weaker immune responses. 

It’s not clear what the mechanism could be for some bacteria to boost local immune responses in a specific site in the body, Iyer said. However, targeting these bacteria could be important to get the best possible performance out of vaccines that do not induce a particularly strong immune response, as is the case with HIV. 

The microbiome could also be an important but overlooked factor to consider when evaluating vaccines in humans or animals, she said. 

Additional co-authors are: at UC Davis, Anil Verma, Matthew Rolston, Blythe Durbin-Johnson and Matthew Settles; Korey Walter and Pamela Kozlowski, Louisiana State University Health Sciences Center; Ashok Dinasarapu, Emory University, Atlanta; and Reben Raeman, University of Pittsburgh. 

Original article at the UC Davis News site.

Media contact(s)

Smita Iyer, Center for Immunology and Infectious Diseases, 530-752-4376, smiyer@ucdavis.edu

Andy Fell, News and Media Relations, 530-752-4533, ahfell@ucdavis.edu

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