On the avian flu frontMonoclonal antibodies effective against bird flu, seasonal flu

Researchers at the Dana-Farber Cancer Institute, Burnham Institute for Medical Research, and the Centers for Disease Control and Prevention (CDC) have reported the identification of human monoclonal antibodies (mAb) that neutralize an unprecedented range of influenza A viruses, including avian influenza A (H5N1) virus, previous pandemic influenza viruses, and some seasonal influenza viruses. These antibodies have the potential for use in combination with other treatments to prevent or treat certain types of avian and seasonal flu. The study was published online on 22 February in Nature Structural and Molecular Biology.

The antibodies identified by the team of scientists neutralize a broad range of influenza A subtypes because they bind to the highly conserved stem region of H5 type hemaglutinin (HA). Binding to the stem prevents a conformational change in the protein that is necessary for viral entry into the host cell, thereby preventing further infection of host cells and the rise of escape mutants. “The head portion of hemaglutinin is highly mutable, leading to the rise of forms of the virus that can evade neutralizing antibodies,” said Robert Liddington, Ph.D., professor and director, Infectious and Inflammatory Disease Center at Burnham and one of the investigators on the study. “However, the stem region of hemaglutinin is highly conserved because it undergoes a dramatic conformational change to allow entry of viral RNA into the host cell. It’s very difficult to get a mutation that doesn’t destroy that function, which explains why we aren’t seeing escape mutants and why these antibodies neutralize such a variety of strains of influenza.”

While more costly to produce than existing influenza drugs, therapeutic antibodies can be readily manufactured and stockpiled. In the event of a pandemic, the antibodies could be used in combination with antiviral therapies to contain the outbreak until a vaccine became available. The production of a new influenza vaccine takes six to nine months using conventional methods. “There are clear settings where human monoclonal antibodies can be used strategically for both the prevention and early treatment of influenza infection and disease,” said Wayne A. Marasco, M.D., Ph.D., associate professor of medicine at Dana-Farber and Harvard Medical School. “At-risk individuals, such as first responders and medical personnel, exposed family members and coworkers and patients who cannot make antibodies because of pre-existing medical conditions or advanced age, could all benefit from this new type of therapy.”

In the study, the team of scientists used a human antibody phage display