mRNA-Based HIV Vaccine Study Reports Positive Results in Animal Studies

Myanmar: Rhesus Macaque

National Institute of Allergy and Infectious Diseases (NIAID) and Moderna, co-developer of an experimental mRNA HIV vaccine, report that it has shown promising results in mice and non-human primates, according to research published in Nature Medicine.

The novel vaccine was safe and prompted desired antibody and cellular immune responses against an HIV-like virus. Rhesus macaques receiving a priming vaccine followed by multiple booster inoculations had a 79% lower per-exposure risk of infection by simian-human immunodeficiency virus (SHIV) compared to unvaccinated animals.

“Despite nearly four decades of effort by the global research community, an effective vaccine to prevent HIV remains an elusive goal,” said Anthony S. Fauci, MD, director of the NIAID. “This experimental mRNA vaccine combines several features that may overcome shortcomings of other experimental HIV vaccines and thus represents a promising approach.”

The vaccine co-expresses membrane-anchored HIV-1 envelope (Env) and simian immunodeficiency virus (SIV) Gag proteins to generate virus-like particles (VLPs). The VLPs match whole, infectious HIV in terms of stimulating suitable immune responses.

In studies with mice, two injections of the VLP-forming mRNA vaccine induced neutralizing antibodies in all animals. The Env proteins produced in the mice from the mRNA instructions closely resembled those in the whole virus, an improvement over previous experimental HIV vaccines. “The display of multiple copies of authentic HIV envelope protein on each VLP is one of the special features of our platform that closely mimics natural infection and may have played a role in eliciting the desired immune responses,” said Paolo Lusso, M.D., Ph.D., chief of the viral pathogenesis section at the NIAID.

The team then tested the Env-Gag VLP mRNA vaccine in macaques. The vaccine regimen differed among subgroups of animals but involved a prime vaccination followed by multiple booster inoculations delivered over the course of a year. The boost vaccines contained Gag mRNA and Env mRNA from two HIV clades other than the one used in the prime vaccine. The investigators used multiple virus variants to preferentially activate antibodies against the more conserved “shared” regions of the Env—the target of broadly neutralizing antibodies—rather than the more variable regions that differ in each virus strain.

Although the doses of mRNA delivered were high, the vaccine was well-tolerated and produced only mild, temporary adverse effects in the macaques, such as loss of appetite. By week 58, all vaccinated macaques had developed measurable levels of neutralizing antibodies directed against most strains in a test panel of 12 diverse HIV strains. In addition to neutralizing antibodies, the VLP mRNA vaccine also induced a robust helper T-cell response.

Beginning at week 60, immunized animals and a control group of unimmunized macaques were exposed weekly, via the rectal mucosa, to SHIV. Because non-human primates are not susceptible to HIV-1, scientists use a chimeric SHIV in experimental settings because that virus replicates in macaques. After 13 weekly inoculations, two out of seven immunized macaques remained uninfected. The other immunized animals had an overall delay in infection, which occurred, on average, after eight weeks. In contrast, unimmunized animals became infected on average after three weeks.

“We are now refining our vaccine protocol to improve the quality and quantity of the VLPs produced. This may further increase vaccine efficacy and thus lower the number of prime and boost inoculations needed to produce a robust immune response. If confirmed safe and effective, we plan to conduct a Phase I trial of this vaccine platform in healthy adult volunteers,” said Lusso.

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