ºÚÁϳԹÏÍø

cow with lumpy skin disease symptoms in a green field
A single dose protein-based vaccine could be used if there were an outbreak in Australia. Image: Adobe
7 October 2022

Scientists at ºÚÁϳԹÏÍø are developing a protein-based vaccine to protect Australia’s beef industry from lumpy skin disease (LSD).

A collaboration between ºÚÁϳԹÏÍø’s (QAAFI) and The Department of Agriculture and Fisheries (DAF) is aiming for a single dose vaccine for the highly contagious viral disease which causes scabby skin nodules and swelling in cattle and buffalo.

Australia is currently LSD-free and from QAAFI’s said an outbreak would have severe economic and animal welfare consequences.

“It is arguably more of a risk to Australia than Foot and Mouth Disease (FMD) because it is spread by insects and ticks and the wind could blow a carrier ashore anywhere along the northern coast,” Professor Mahony said.

“Over the past few years LSD has spread through China, Vietnam, Thailand and Malaysia to reach the northern Indonesian island of Sumatra just months ago.

“Our goal is to develop a vaccine which could be used if there were an outbreak to help contain the virus and avoid the need for livestock to be culled.

“Existing vaccines for LSD are modified-live vaccines which come with risks including the potential reversion back to the disease-causing form of the virus and international trading partners rejecting vaccinated animals.”

Professor Mahony’s team hopes to have a prototype protein-based vaccine ready for testing by the end of this year.

It will be based on a single-dose cattle tick vaccine developed by QAAFI a few years ago in collaboration with Swinburne University of Technology with support from the CRC for Polymer and the Queensland Government.

Protein-based vaccines are safe and effective in controlling diseases and are generally acceptable to importers of cattle and beef products.

“Like the current COVID-19 immunisations, there is no single dose mRNA vaccine and where mustering and the weather are complex, multi-dose technologies for cattle are not user friendly,” Professor Mahony said.

“There’s also difficulty differentiating between infected and vaccinated animals so we’ve designed what we think is a novel antigen that will only initiate immune responses in vaccinated animals.

“This could accelerate the return to disease-free status for trading after an outbreak.”

At the same time, DAF scientists, led by Dr Beth Fowler, are working on in-field diagnostics, similar to COVID-19 RAT tests, to enable biosecurity authorities to start control methods as early as possible if an outbreak is detected.

“There are no simple, portable on-farm tests or tools available for rapid field diagnosis of LSD,” Dr Fowler said.

Media: Professor Tim Mahony, t.mahony@uq.edu.au, +61 (0)7 3346 6505, +61 (0)412 150 129; QAAFI comms, Natalie MacGregor, n.macgregor@uq.edu.au, +61 (0)409 135 651.