LIAI researchers discover new cellular mechanism that will significantly advance vaccine development

La Jolla Institute for Allergy & Immunology (LIAI) scientists have discovered one for the textbooks. Their finding, reported Friday in the scientific journal Immunity, illuminates a new, previously unknown mechanism in how the body fights a virus. The finding runs counter to traditional scientific understanding of this process and will provide scientists a more effective method for developing vaccines.

“Our research grew from the question, “why do you get good antibody responses to some parts of (virus) pathogens and poor responses to other parts?” said LIAI scientist Shane Crotty, Ph.D., the lead researcher on the paper, “Selective CD4 T cell help for antibody responses to a large viral pathogen: deterministic linkage of specificities.” Alessandro Sette, Ph.D., a renowned vaccine expert and director of the LIAI Center for Infectious Disease, also was a key contributor on the study. Dr. Crotty said the team studied the smallpox vaccine, considered the “gold standard” of vaccines, and found some startling answers.

“We expected one thing based on textbook knowledge and that didn't happen at all,” he said. It was known previously that getting a good antibody response requires two different cells of the immune system — B cells and CD4 T cells, both soldiers in the immune system's defensive army. Antibody responses are important because they help the body fight off viruses and they also are key to vaccine development. Surprisingly, however, Dr. Crotty said the researchers found that B cells and CD4 T cells recognize the same piece of the virus.

“Previously, it was thought that the CD4 T cell could react to any part of the virus, but now we realize it must be specific to the same part as the B cell,” he explained. “When you have a hundred different parts, this knowledge makes a big difference. It narrows down the search for the right antigens tremendously.”

Scientists use knowledge of which antigens (virus pieces) trigger an antibody attack to develop vaccines. Vaccines work by exposing the individual to a milder form of a particular virus, so that the body makes antibodies to fight off the virus. Consequently, if the individual is later exposed to the actual virus, the body already has an army of antibodies built up that can fight off this stronger viral attack before it can overtake the body and cause sickness.

With the knowledge gained from the LIAI study, scientists will now be able to more easily figure out the most important viral pieces to focus on in developing a vaccine. “The fact that it requires two components to fight the (virus) pathogen is important to understand,” Dr. Crotty said. “So now when we find out which viral pieces are producing a strong response from the B cells, we can cross check that against the viral pieces eliciting a good response from the CD4 T cells. The point at which these virus pieces cross – in other words where the same piece is eliciting a response from both the B cells and CD4 T cells – then we know we have found our best candidate for creating a vaccine.”

About LIAI
Founded in 1988, the La Jolla Institute for Allergy & Immunology is a nonprofit medical research center dedicated to increasing knowledge and improving human health through studies of the immune system. Scientists at the institute carry out research searching for cures for cancer, allergy and asthma, infectious diseases, and autoimmune diseases such as diabetes, inflammatory bowel disease and arthritis. LIAI's research staff includes more than 100 Ph.Ds.

Media Contact

Bonnie Ward EurekAlert!

All latest news from the category: Life Sciences and Chemistry

Articles and reports from the Life Sciences and chemistry area deal with applied and basic research into modern biology, chemistry and human medicine.

Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.

Back to home

Comments (0)

Write a comment

Newest articles

New yttrium-hydrogen compounds discovered

Researchers at the University of Bayreuth have made a significant scientific breakthrough by discovering new yttrium-hydrogen compounds having serious implications for the research on high-pressure superconductivity. High-pressure superconductivity refers to…

New AI model detects ninety percent of lymphatic cancer cases

Medical image analysis using AI has developed rapidly in recent years. Now, one of the largest studies to date has been carried out using AI-assisted image analysis of lymphoma, cancer…

UTA preps giant particle detectors for neutrino project

Excavation of caverns part of Fermilab’s Deep Underground Neutrino Experiment. With excavation work complete at the site where four gigantic particle detectors for the international Deep Underground Neutrino Experiment (DUNE) will be…

Partners & Sponsors