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Threading the RSV Needle: Live Attenuated Vaccine Effective in Animals


Crafting a vaccine against respiratory syncytial virus (RSV) has been a minefield for 50 years, but scientists believe they have found the right balance. Researchers at Children’s Healthcare of Atlanta and Emory University School of Medicine report that they have engineered a version of RSV that is highly attenuated—weakened in its ability to cause disease—yet potent in its ability to induce protective antibodies.

The researchers examined the engineered virus using cryo-electron microscopy and cryo-electron tomography techniques, and showed that it is structurally very similar to wild type virus. When used as a vaccine, it can protect mice and cotton rats from RSV infection. The results were published on Dec. 21 in Nature Communications.

“Our paper shows that it’s possible to attenuate RSV without losing any immunogenicity,” said Senior Author Martin Moore, PhD, Associate Professor of Pediatrics at the Emory University School of Medicine and a Children’s Research Scholar. “This is a promising live-attenuated vaccine candidate that merits further investigation clinically.”

The next steps for this vaccine are to produce a clinical grade lot and conduct a Phase 1 study of safety and immunogenicity in infants, said Dr. Moore. RSV is the No. 1 cause of pneumonia deaths in children worldwide and one of the top causes of infant hospitalization in the United States. Most are infected in the first year of life, according to the Centers for Disease Control and Prevention (CDC).

Even so, there is no vaccine against RSV available. In the 1960s, an attempt to develop an RSV vaccine by chemically inactivating the virus, such as in a standard flu shot, backfired. Exposure to this vaccine actually made natural RSV infection in infants worse. More recently, a clinical trial of a protein-only RSV vaccine in older adults showed disappointing results.

Several successful vaccines against other viruses like measles, polio and mumps, have been created by weakening the viruses in cell culture. A strain that is safe enough for use as a vaccine but still stimulates the immune system is supposed to result.

“Achieving that balance is a challenge,” Dr. Moore said. “Weakening RSV by passage hasn’t worked out satisfactorily. It turns out that for RSV, the natural virus does not induce a lot of immunity itself.”

Instead, Dr. Moore and his colleagues engineered RSV to enhance production of a key protein, called F (for fusion). F is critical for RSV’s ability to enter cells and is the target of several vaccines in development. By making mutations in the viral gene that encodes F, the researchers also made the virus more stable with respect to heat, which could help vaccine manufacturing and distribution. At the same time, researchers removed or weakened several other viral genes that promote infection and suppress the immune system. One measure of this is that the modified virus, called OE4, stimulates high levels of antibody production.

Dr. Moore and his team rewrote several of the viral genes in the OE4 strain using a process called codon-deoptimization, which makes it less likely for a re-engineered virus to mutate back to its original form. When examined via cryo-electron microscopy and cryo-electron tomography, OE4 virions were structurally very similar to standard RSV virions. The researchers used techniques that allow the virions to be preserved in their native states, said Co-Senior Author Elizabeth R. Wright, PhD, Associate Professor of Pediatrics at Emory University. Dr. Wright is Director of the Robert P. Apkarian Integrated Electron Microscopy Core, and a Georgia Research Alliance Distinguished Investigator.

Zunlong Ke, a Georgia Institute of Technology Graduate Student in Dr. Wright’s lab, analyzed cryo-ET data and found that that the majority of F proteins on both viruses preserved immediately after budding was in the pre-fusion conformation, while immuno-EM experiments revealed that OE4 had higher levels of the pre-fusion form of the F protein and lower levels of the attachment protein called G. This is the structural evidence that the vaccine candidate (OE4) is highly immunogenic though highly attenuated, Wright says.

OE4 vaccination could completely protect mice and cotton rats against later infection by standard forms of RSV. In contrast with a chemically inactivated RSV vaccine, OE4 did not result in enhanced lung disease in cotton rats. Christopher Stobart, PhD, now Assistant Professor of biology at Butler University, and Instructor Christina Rostad, PhD, are Co-First Authors of the paper. Cotton rat studies were performed at Baylor College of Medicine and Sigmovir Biosystems. Emory University has optioned the vaccine technology to a startup company, Meissa Vaccines Inc. Dr. Moore co-founded and serves as Chief Scientific Officer for Meissa Vaccines Inc. Drs. Moore, Stobart, Rostad, and co-authors Anne Hotard and Jia Meng are co-inventors in a patent application describing the RSV vaccine reported in the Nature Communications paper. The research was supported by the National Institute of Allergy and Infectious Diseases (R01AI087798, R21 AI101775, U19AI095227, T32AI074492), National Institute of General Medical Sciences (R01 GM114561), Georgia Research Alliance, Atlanta Pediatric Scholars program (K12HD072245) and a pilot grant from the Emory University-Children’s-Georgia Tech Center for Childhood Infections and Vaccines.

  

For more information:

Alanna Gardner

Public Relations Coordinator

404-785-7741

Alanna.Gardner@choa.org

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