The Oxford/AstraZeneca vaccine has been found to induce long-term immune system protection.
This type of vaccine uses a harmless, modified version of a chimpanzee adenovirus (ChAdOx1) to enter human cells and trigger immune response.
The findings, published in the journal Nature Immunology, are based on studies conducted on animal models.
Paul Klenerman, Sidney Truelove professor of gastroenterology at the University of Oxford’s Nuffield Department of Medicine, and one of the lead authors of the paper, said:
“Millions of people will have received adenovirus vaccines around the world – not only the Oxford/AstraZeneca vaccine, but the J&J vaccine, and also the Chinese and Russian versions.
“The ultimate goal with these vaccines is the induction of long-term immune system protection using both antibodies and T cells.
“This research helps us to understand more on the process of vaccination, and why the effects on killer T cells are so prolonged.”
Previous research has found the AstraZeneca vaccine to produce strong T cell as well as antibody responses.
Antibodies are protective proteins produced by the immune system in response to infection.
The researchers looked at the mechanism behind adenovirus vaccine vectors for Covid-19, and observed that adenoviruses can get into long-lived tissue cells, which in turn formed small, well-organised clusters acting as “training grounds” for T cells.
They said this may explain how adenovirus vaccines generate robust long-term immune system responses.
Burkhard Ludewig, professor at the University of Zurich, head of the Medical Research Centre at Cantonal Hospital St Gallen, Switzerland, and also a lead author of the paper, said:
“Adenoviruses have co-evolved with humans over a very long time, and learned a lot about the human immune system in the process.
“Viruses are always the best teachers, and here they have taught us an important lesson about how best to boost killer T cell responses.
“The T cells that come from these cellular training camps appear to have a very high level of ‘fitness’.”
He added this technology could be used to develop vaccines for other deadly diseases.
Prof Ludewig added: “Hopefully we can put this to good use in designing new vaccines – vaccines that we still desperately need for diseases such as TB, HIV, hepatitis C and cancers.”