DUKE (US) — Newly discovered antibodies in breast milk help to stop the HIV virus, according to a study of mothers in Malawi.
Researchers at Duke University isolated the antibodies from immune cells called B cells in the breast milk of HIV-infected mothers, and showed that the B cells in breast milk can generate neutralizing antibodies that may inhibit the virus that causes AIDS.
HIV-1 can be transmitted from mother to child via breastfeeding, posing a challenge for safe infant feeding practices in areas of high HIV-1 prevalence. But only one in 10 HIV-infected nursing mothers is known to pass the virus to their infants.
“That is remarkable, because nursing children are exposed multiple times each day during their first year of life,” says senior author Sallie Permar, an assistant professor of pediatrics and infectious diseases. “We are asking if there is an immune response that protects 90 percent of infants, and could we harness that response to develop immune system prophylaxis (protection) during breastfeeding for mothers infected with HIV-1.
“Our work helped establish that these B cells in breast milk can produce HIV-neutralizing antibodies, so enhancing the response or getting more mucosal B-cells to produce those helpful antibodies would be useful, and this is a possible route to explore for HIV-1 vaccine development,” Permar says.
The study was published on May 18 in PLoS One, an open-access journal published by the Public Library of Science.
“This is important work that seeks to understand what a vaccine must do to protect babies from mucosal transmission during breastfeeding,” says Barton Haynes, co-author and director of both the Center for HIV/AIDS Vaccine Immunology (CHAVI) and the Duke Human Vaccine Institute (DHVI).
“The antibodies isolated are the first HIV antibodies isolated from breast milk that react with the HIV-1 envelope, and it important to understand how they work to attack HIV-1.”
The findings of two different antibodies with HIV-neutralizing properties isolated from breast milk also may help researchers with new investigations into adult-to-adult transmission, in addition to mother-to-child transmission.
Permar says that most HIV-1 transmission occurs at a mucosal site in the body – surfaces lined with epithelial cells, such as the gastrointestinal tract or vaginal tissue. The mucosal compartments all have their own immune system cells.
“We’re excited about this finding because the immune cells in mucosal compartments can cross-talk and traffic between compartments,” Permar says. “So the antibodies we found in breast milk indicate that these same antibodies are able to be elicited in other tissues.”
Interestingly, the Centers for Disease Control in the U.S. recommend against breastfeeding if a mother has HIV-1, because baby formula is a safe alternative for U.S.-born infants.
The World Health Organization, however, encourages HIV-infected nursing mothers in resource-poor regions to breastfeed while the mother and/or infant take antiretroviral drugs to prevent the infection in the infant, because without the nutrients and immune factors in mothers’ milk, many more infants would die from severe diarrhea and respiratory and other diseases.
At the DHVI and CHAVI, there are many projects aimed at designing neutralizing responses in vaccinated individuals, and for improved vaccines that display specific targets to the immune system before it gets infected, with the idea of eliciting protective responses that fight against HIV transmission. “Our work will be important in eliminating mother-to-child transmission and getting the types of responses needed for protecting all infants,” Permar says.
The study itself wasn’t easy to perform, she notes. The samples came from a group of women in Malawi who were recruited by CHAVI for this study.
“Successfully characterizing antibodies from such a fragile medium required global coordination and expertise across multiple fields and is a hopeful testament to the incredible amounts of work and leadership currently under way to fight this devastating disease,” says first author James Friedman, a third-year medical student at Duke University School of Medicine. “To be a part of, and to contribute to such a large-scale and important effort is incredibly exciting.”
Because of limited availability of the laboratory instrument needed to isolate single, viable immune cells in the region, the samples were not analyzed there. Instead, samples were frozen and transported for analysis. Keeping the breast milk under the right conditions for later thawing and testing of B cells and for isolating antibodies was a challenge, Permar says.
The study was funded by the National Institutes of Health, the Center for HIV/AIDS Vaccine Immunology, and the Doris Duke Foundation Clinical Scientist Development Award. The Bill and Melinda Gates Foundation Collaboration for AIDS Vaccine Discovery provided additional funding for this work.
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