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Virginia Tech virologist developing more potent vaccine technology
May 05, 2009With applicability to many viruses
Blacksburg, Va. - Virginia Tech virologist Chris Roberts' goal is to develop a platform for a flu vaccine that allows rapid modifications to meet new strains of flu.
Since 90 percent of complicated flu cases occur among those over 65, the associate professor in biomedical sciences and pathobiology (http://www.vetmed.vt.edu/org/dbsp/) has been working on a novel flu vaccine for the elderly. That is still his aim, but he is now more motivated than ever to speed development of his cell culture-based vaccine technology that is more rapid than the egg-based growth system presently used to create vaccines.
Influenza is an enveloped virus. It obtains its envelope or membrane as it buds from the surface of the host cell it has invaded. Roberts is using this practice against the virus - introducing membrane-bound immune-system stimulatory molecules such as cytokines into cells in such a way that the virus will incorporate them as part of its envelope. "Using this approach, inactivated influenza vaccines can be created that have enhanced immunogenicity, meaning they can boost our immune response to the vaccine and hopefully provide better protection against invading viruses," Roberts said.
Normally, cytokines are secreted proteins that boost and direct the immune system's response to inflammation and infections. When a foreign particle gets into the body, the body ultimately responds by stimulating 1) B cells to secrete anti-viral antibodies, 2) cytotoxic T cells to kill infected host cells, and 3) helper T cells to regulate and control the response of both cell types. Antibodies work by recognizing and binding to specific components of the virus such as the glycoproteins on the surface of the virus (envelope). This serves to neutralize the ability of the virus to infect cells in the respiratory tract. A vaccination introduces weakened or killed forms of a virus so that the body recognizes the pathogen and begins producing antibodies to fight it. These antibodies are then ready to fight off infection should they encounter the virus.
Roberts' vaccine goes a step further and provides an immune-boosting signal on the surface of the vaccine.
Presently, vaccines are made from eggs and it generally takes one or two special pathogen-free eggs per dose. It also takes four to five months to prepare enough doses of the vaccine for a given year. Several companies are actively working to develop cell culture based vaccines for flu, such as is already used for polio and chickenpox vaccines, for instance. "The process could someday allow us to reduce the amount of time required to make flu vaccines," said Roberts. "Cell culture based vaccines would also help us respond more rapidly when new viral strains emerge."
Roberts' approach, to have the virus clothed in its own vaccine, capitalizes on the use of cell culture based systems for vaccine production. Roberts' group uses molecular biology techniques to fuse specific cytokines to components of the viral glycoproteins that facilitate their recognition by the virus assembly machinery. The resulting cytokine fusion proteins are then expressed in a virus permissive cell line and are actively incorporated into newly formed virus particles once those cells are infected with the virus. Now, when the virus leaves its host cell, it has cytokines bound to its outer surface and these particles are harvested, purified, and then chemically inactivated to create the vaccine. Importantly, these "killed vaccines," which Roberts' has dubbed FLU CYT-IVACs (for FLU CYTokine bearing Inactivated VACcine), still retain the bioactivity of cytokines.
The research has been tested in young adult mice and several CYT-IVAC formulations have shown promise in providing enhanced protection against viral pneumonia. Roberts noted, "Preliminary testing has also revealed that some of these FLU CYT-IVACs are better at protecting aged or old mice against viral pneumonia than non-modified vaccine."
He is already expanding this research to include the use of human specific cytokines in the FLU CYT-IVAC formulations. "Prior to being used as a human vaccine, these humanized FLU CYT-IVACs will have to undergo rigorous testing to ensure vaccine safety and this will require additional funding, which we are actively pursuing," Roberts said.
"The significance lies in the versatility of the cell culture-based vaccine platform; you can custom make a vaccine to tailor to the present need - such as swine flu," Roberts said. "And you can produce an immune-boosting response in populations with lower immunity."
Virginia Tech
Influenza is an enveloped virus. It obtains its envelope or membrane as it buds from the surface of the host cell it has invaded. Roberts is using this practice against the virus - introducing membrane-bound immune-system stimulatory molecules such as cytokines into cells in such a way that the virus will incorporate them as part of its envelope. "Using this approach, inactivated influenza vaccines can be created that have enhanced immunogenicity, meaning they can boost our immune response to the vaccine and hopefully provide better protection against invading viruses," Roberts said.
Normally, cytokines are secreted proteins that boost and direct the immune system's response to inflammation and infections. When a foreign particle gets into the body, the body ultimately responds by stimulating 1) B cells to secrete anti-viral antibodies, 2) cytotoxic T cells to kill infected host cells, and 3) helper T cells to regulate and control the response of both cell types. Antibodies work by recognizing and binding to specific components of the virus such as the glycoproteins on the surface of the virus (envelope). This serves to neutralize the ability of the virus to infect cells in the respiratory tract. A vaccination introduces weakened or killed forms of a virus so that the body recognizes the pathogen and begins producing antibodies to fight it. These antibodies are then ready to fight off infection should they encounter the virus.
Roberts' vaccine goes a step further and provides an immune-boosting signal on the surface of the vaccine.
Presently, vaccines are made from eggs and it generally takes one or two special pathogen-free eggs per dose. It also takes four to five months to prepare enough doses of the vaccine for a given year. Several companies are actively working to develop cell culture based vaccines for flu, such as is already used for polio and chickenpox vaccines, for instance. "The process could someday allow us to reduce the amount of time required to make flu vaccines," said Roberts. "Cell culture based vaccines would also help us respond more rapidly when new viral strains emerge."
Roberts' approach, to have the virus clothed in its own vaccine, capitalizes on the use of cell culture based systems for vaccine production. Roberts' group uses molecular biology techniques to fuse specific cytokines to components of the viral glycoproteins that facilitate their recognition by the virus assembly machinery. The resulting cytokine fusion proteins are then expressed in a virus permissive cell line and are actively incorporated into newly formed virus particles once those cells are infected with the virus. Now, when the virus leaves its host cell, it has cytokines bound to its outer surface and these particles are harvested, purified, and then chemically inactivated to create the vaccine. Importantly, these "killed vaccines," which Roberts' has dubbed FLU CYT-IVACs (for FLU CYTokine bearing Inactivated VACcine), still retain the bioactivity of cytokines.
The research has been tested in young adult mice and several CYT-IVAC formulations have shown promise in providing enhanced protection against viral pneumonia. Roberts noted, "Preliminary testing has also revealed that some of these FLU CYT-IVACs are better at protecting aged or old mice against viral pneumonia than non-modified vaccine."
He is already expanding this research to include the use of human specific cytokines in the FLU CYT-IVAC formulations. "Prior to being used as a human vaccine, these humanized FLU CYT-IVACs will have to undergo rigorous testing to ensure vaccine safety and this will require additional funding, which we are actively pursuing," Roberts said.
"The significance lies in the versatility of the cell culture-based vaccine platform; you can custom make a vaccine to tailor to the present need - such as swine flu," Roberts said. "And you can produce an immune-boosting response in populations with lower immunity."
Virginia Tech
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Initial Results Show Pregnant Women Mount Strong Immune Response To One Dose of 2009 H1N1 Flu Vaccine
Healthy pregnant women mount a robust immune response following just one dose of 2009 H1N1 influenza vaccine, according to initial results from an ongoing clinical trial sponsored by the National Institute of Allergy and Infectious Diseases (NIAID) of the National Institutes of Health.
Flu vaccine given to women during pregnancy keeps infants out of the hospital
Infants born to women who received influenza vaccine during pregnancy were hospitalized at a lower rate than infants born to unvaccinated mothers.
Global challenges and opportunities in fighting HIV/AIDS and neglected diseases
Responding to the HIV/AIDS pandemic and tackling so-called neglected tropical diseases are the focus of the November/December 2009 edition of Health Affairs.
Progress made on group B streptococcus vaccine
Scientists supported by the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, have completed a Phase II clinical study that indicates a vaccine to prevent Group B Streptococcus (GBS) infection is possible.
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