This new nasal spray vaccine may provide life-long protection against TB
Scientists at the Centenary Institute and the University of Sydney have developed a new inhaled nasal spray vaccine which may provide life-long protection against Tuberculosis (TB), according to a study published in the Journal of Medicinal Chemistry.
The study demonstrated that this new vaccine when administered mucosally to mice, enhanced pulmonary immunogenicity, inducing strong Th17 responses in the lungs and multifunctional peripheral T-lymphocytes, a type of T cells known to protect against TB.
The research program targeting the deadly disease has currently taken over five years of effort to implement. During that time Dr Ashhurst and a team of scientists have created the advanced synthetic TB vaccine and have now demonstrated its effectiveness using mouse models.
"Tuberculosis is a huge worldwide health problem. It's caused by a bacteria that infects the lungs after it's inhaled, is contagious and results in approximately 1.6 million deaths per year globally," said Dr Anneliese Ashhurst, co-lead author of the reported study and affiliated with both the Centenary Institute and the University of Sydney.
"Two peptides (small proteins) which are normally found in tuberculosis bacteria were synthesized and then bound extremely tightly to an adjuvant (a stimulant) that was able to kick-start the immune response in the lungs," said Dr Ashhurst.
"We were then able to show that when this vaccine was inhaled into the lungs, it stimulated the type of T cells known to protect against TB. Importantly, we then demonstrated that this type of vaccine could successfully protect against experimental airborne TB infection," she said.
There are an estimated two billion individuals carrying TB globally and up to 10% of these individuals develop the disease in their lifetime. More than 50 per cent of TB cases occur in the Asia Pacific region.
Professor Warwick Britton, Head of the Centenary Institute Tuberculosis Research Program and co-senior researcher on the project with Professor Richard Payne, School of Chemistry, University of Sydney, emphasized the importance of the work being done.
"There currently exists only one lone vaccine for TB (known as BCG) and this is only effective in reducing the risk of disease for infants," said Professor Britton.
"It fails to prevent infection or provide long term protection in older individuals and it isn't considered suitable for use in individuals with an impaired immune system. More effective vaccines are urgently required to save lives," he said.
Professor Britton is excited that the team's vaccine strategy - directly generating immunity in the lungs - has proven to be the right research approach to take.
"The important thing is that the vaccine actually gets to the lungs because that's where you first see TB. Ultimately, we would love to see a form of this vaccine available for use in an easily inhaled nasal spray which would provide life-long TB protection. Although this outcome is still many years away, we are certainly heading in the right direction. Our next steps will be to determine if our synthetic vaccine can be developed into a form suitable for use in humans," said Professor Britton.