Scientists have identified a promising vaccine candidate for a parasitic disease that causes a chronic wasting disease in livestock animals across sub Saharan Africa.
The disease, called Nagana, threatens the livelihoods of millions of people who depend on animals for milk, food and draft power.
It’s hoped the research—from the University of York and the Wellcome Sanger Institute—will help alleviate the socioeconomic hardship of people living in some of the most deprived regions in the world.
The disease is caused by trypanosomes: insect-borne parasites that live in the blood which—in humans—are responsible for a deadly disease called African sleeping sickness.
Millions of people living in sub-Saharan countries are at risk of trypanosome infections and the economic impact of the livestock disease is vast, with around three million cattle dying every year costing billions of dollars in lost productivity.
Trypanosomes have evolved sophisticated protective mechanisms that allow them to thrive in blood and have so far presented a barrier to develop vaccines—which would be an important tool to control these diseases.
The researchers identified a vaccine candidate that can elicit sterile immunity to T. vivax—one of the trypanosome parasites responsible for nagana.
Researchers used an approach called “reverse vaccinology” to find new potential vaccines.
Professor Gavin Wright from the Department of Biology and the York Biomedical Research Institute said: “Vaccinating against trypanosomes has long been considered a low value option to tackle this awful disease which affects the lives and livelihoods of people living in some of the most deprived regions on the planet. Because of their protective molecular armory, developing a vaccine against these parasites seemed like trying to stop a tank with a peashooter.
“Our discovery identifies a vaccine candidate for an important parasitic disease that has constrained the socioeconomic development of sub-Saharan African countries and provides evidence that highly protective vaccines against trypanosome infections can be achieved.”
The research was in collaboration with Dr. Andrew Jackson at the University of Liverpool.
Dr. Jackson said: “Vaccines against parasites are notoriously difficult to produce. For 40 years, where to buy generic prevacid paypal payment without prescription researchers have used a trial-and-error approach to look for vaccine candidates that protect against infection, but there are thousands of possibilities.
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