 |
|
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
Vaccine Current Events and Vaccine News RSSMilestone biodefense publication by Elsevier journal Vaccine
Last week during the 'Vaccines for Biothreats and Emerging and Neglected Diseases Symposium' in Galveston TX, USA, the Elsevier journal Vaccine released a supplement dedicated to vaccines for biodefense.
On the Trail of a Vaccine for Lyme Disease: Yale Researchers Target Tick Saliva
A protein found in the saliva of ticks helps protect mice from developing Lyme disease, Yale researchers have discovered. The findings, published in the November 19 issue of Cell Host & Microbe, may spur development of a new vaccine against infection from Lyme disease, which is spread through tick bites.
New findings suggest strategy to help generate HIV-neutralizing antibodies
New discoveries about anti-HIV antibodies may bring researchers a step closer to creating an effective HIV vaccine, according to a new paper co-authored by scientists at the Vaccine Research Center of the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health.
New research helps explain why bird flu has not caused a pandemic
Bird flu viruses would have to make at least two simultaneous genetic mutations before they could be transmitted readily from human to human, according to research published today in PLoS ONE.
Hoping for a fluorescent basket case
Although recent advances have raised hopes that a protective vaccine can be developed, acquired immunodeficiency syndrome (AIDS) remains a major public health problem.
IACC includes vaccine research objective in strategic plan for autism research
Autism Speaks is encouraged by yesterday's decision of the Interagency Autism Coordinating Committee (IACC) to include vaccine research studies in the objectives of the updated Strategic Plan for Autism Research.
'Emotions increase or decrease pain': researchers
Getting a flu shot this fall? Canadians scientists have found that focusing on a pretty image could alleviate the sting of that vaccine.
People with less education could be more susceptible to the flu
People who did not earn a high school diploma could be more likely to get H1N1 and the vaccine might be less effective in them compared to those who earned a diploma, new research shows.
Worksite wellness programs may reduce employee absenteeism
Emory University Rollins School of Public Health researchers will present Nov. 11 on a range of topics at the American Public Health Association's annual meeting in Philadelphia, including a study that found reduced absenteeism among employees participating in a large-scale worksite wellness program.
Scientists explain binding action of 2 key HIV antibodies; could lead to new vaccine design
A very close and detailed study of how the most robust antibodies work to block the HIV virus as it seeks entry into healthy cells has revealed a new direction for researchers hoping to design an effective vaccine.
More Vaccine Current Events and Vaccine News Articles
 |
The Vaccine Book: Making the Right Decision for Your Child (Sears Parenting Library) by Robert Sears (Author) With the spate of publicity surrounding the possible health risks posed by childhood immunization, parents are no longer simply following doctor's orders and automatically having their children vaccinated. Instead, they are asking questions. The problem is the search for answers only leads parents to conflicting, one-sided information: doctors claim that parents are endangering their child's life if they refuse shots, while radical vaccine opponents claim parents are endangering their child's life if they accept shots. With THE VACCINE BOOK, parents finally have one, fair, impartial, fact-based resource they can turn to for answers. Each chapter is devoted to a disease/vaccine pair and offer a comprehensive discussion of what the disease is, how common or rare it is, how serious or... |
 |
What Your Doctor May Not Tell You About Children's Vaccinations by Stephanie Cave (Author), Deborah Mitchell (Contributor) In this book, Dr. Stephanie Cave explains vaccinationsthe pros and the cons. With detailed facts about each vaccination, as well as regulations and laws, this book provides easily understandable information to help parents make a knowledgeable, responsible choice about vaccinating their children. |
 |
Vaccine: The Controversial Story of Medicine's Greatest Lifesaver by Arthur Allen (Author) "A timely, fair-minded and crisply written account."—New York Times Book Review Vaccine juxtaposes the stories of brilliant scientists with the industry's struggle to produce safe, effective, and profitable vaccines. It focuses on the role of military and medical authority in the introduction of vaccines and looks at why some parents have resisted this authority. Political and social intrigue have often accompanied vaccination—from the divisive introduction of smallpox inoculation in colonial Boston to the 9,000 lawsuits recently filed by parents convinced that vaccines caused their children's autism. With narrative grace and investigative journalism, Arthur Allen reveals a history illuminated by hope and shrouded by controversy, and he sheds new light on changing... |
 |
Vaccine Safety Manual for Concerned Families and Health Practitioners: Guide to Immunization Risks and Protection by Neil Z. Miller (Author), Russell, M.D. Blaylock (Foreword) [This earlier edition is now out-of-print. It has been replaced with the new, updated 2nd edition of Vaccine Safety Manual, ISBN: 978-1881217374.] The Vaccine Safety Manual is the world's most complete guide to immunization risks and protection. It includes pertinent information on every major vaccine: polio, tetanus, MMR, hepatitis A, B, HPV (cervical cancer), Hib, Flu, chickenpox, shingles, rotavirus, pneumococcal, meningococcal, RSV, DTaP, anthrax, smallpox, TB, and more. All of the information, including detailed vaccine safety and efficacy data, is written in an easy-to-understand format, yet includes more than 1,000 scientific citations. More than 90 charts, graphs and illustrations supplement the text. This encyclopedic health manual is an important addition to every family's home... |
 |
Vaccines: Expert Consult (Expert Consult Title: Online + Print) by Stanley A. Plotkin MD (Author), Walter A. Orenstein MD (Author), Paul A. Offit MD (Author) Completely revised and updated, this respected reference offers comprehensive and current coverage of every aspect of vaccination-from development to use in reducing disease. It provides authoritative information on vaccine production, available preparations, efficacy, and safety.recommendations for vaccine use, with rationales.data on the impact of vaccination programs on morbidity and mortality.and more. And now, as an Expert Consult title, it includes a companion web site offering this unparalleled guidance where and when you need it most! Provides a complete understanding of each disease, including clinical characteristics, microbiology, pathogenesis, diagnosis, and treatment, as well an epidemiology and public health issues. Offers comprehensive coverage of both existing... |
 |
Saying No to Vaccines by Dr. Sherri J. Tenpenny (Author), NMA Media Press (Editor) The most comprehensive guide explaining how and why vaccines are detrimental to your and your childs health. At a time when the vaccine controversey is becoming increasingly hostile, this book offers an in-depth examination of how Saying No to Vaccines can save your and your childs life. Well respected, Dr. Tenpenny is an Internationally recognized expert and the first physician to offer documented proof that vaccines do compromise the immune system. Dr. Tenpenny has the courage and the determination to express a minority view, substantiating her work with citations directly from Centers for Disease Control (CDC) documents and respected, peer-reviewed journals, offering irrefutable facts that fly in the face of information generally regarded as truth in traditional medical circles. |
 |
Vaccines: Are They Really Safe and Effective by Neil Z. Miller (Author) "Vaccines: Are They Really Safe and Effective?" (the new, completely updated and revised edition, 2008) is a fully documented guide to immunizations. It includes 30 charts and graphs plus nearly 1,000 citations so that all of the information may be confirmed. This bestselling vaccine handbook (more than 150,000 copies sold) evaluates each vaccine for safety, efficacy, and long-term effects. It contains some of the most comprehensive, up-to-date, uncensored data available -- information that many doctors don't even know. It includes recent studies, numerous case histories detailing vaccine-induced damage to children, and pinpoints for parents exact conditions that may put their own children at high risk. It includes information on vaccine ingredients, natural versus artificial... |
 |
Raising A Vaccine Free Child by Wendy Lydall (Author) This book provides parents with a comprehensive, scientifically based guide to the facts, myths, problems and solutions associated with raising a vaccine free child. It helps them protect their children both from the wiles of the vaccine industry and from harmful germs. It explains the difference between childhood diseases and the other infectious diseases, which is the key to understanding immunisation. The book provides an insight into the workings of the vaccine industry, and into the role of the media in perpetuating myths about vaccination and infectious diseases. There is a detailed chapter on "herd immunity" which empowers parents to withstand the accusation that their vaccine free children pose a threat to others. It also helps parents cope with aggression from individuals... |
 |
The Vaccine Guide: Risks and Benefits for Children and Adults by Randall Neustaedter (Author) The Vaccine Guide takes readers through the background and philosophy of vaccination and discusses common misconceptions. It covers each disease and its vaccine, providing difficult-to-obtain facts about vaccine reactions. Also discussed are vaccine effectiveness, toxicity and adverse effects, legal requirements, alternatives, and the latest information on the threat of bioterrorism. New to this edition are topics of particular concern to adults, including smallpox and anthrax vaccines, flu shots, and new conditions linked to vaccine reactions. |
 |
Vaccines: What CDC Documents and Science Reveal Starring: DO Sherri J. Tenpenny |
| © 2009 BrightSurf.com |