New Vaccine Created by Mizzou Researchers Protects Cattle from Deadly Tick-borne Disease
New anaplasmosis vaccine will benefit cattle and the ag economy.
September 3, 2024
by Brian Consiglio, University of Missouri
University of Missouri (Mizzou) researchers are working to develop the first-ever vaccine proven to protect cattle from a devastating tick-borne cattle disease known as bovine anaplasmosis. The research is vital to the state’s economy as it aims to protect Missouri’s $1.6 billion cattle industry.
Bovine anaplasmosis infects the red blood cells of cattle and causes hundreds of millions of dollars in economic losses nationwide each year and nearly $1 billion in losses worldwide, primarily due to reduced cattle production, treatment costs and deaths.
Roman Ganta, a McKee endowed professor in Mizzou’s College of Veterinary Medicine and a Bond Life Sciences Center researcher, led the study that created the new vaccine. The work involved genetically modifying the pathogen Anaplasma marginale, which causes bovine anaplasmosis, in a lab. By deleting a specific gene and then injecting the modified pathogen into cattle, the vaccinated cattle were successfully immunized against the disease.
“I often receive calls from cattle producers who are excited about our research and want to know how soon they can get the vaccine,” Ganta says. “There is currently no effective widely available vaccine for the disease, and cattle farmers are very worried about the disease harming or killing their cattle. We want to help farmers in Missouri, and around the world, and are working hard to come up with a viable solution.”
Moving the needle forward
Ganta, who has been researching molecular genetics and vector-borne diseases for more than 30 years, was hired at Mizzou in 2023 as part of MizzouForward, a 10-year, $1.5 billion transformational effort that focuses on faculty expansion, infrastructure growth and student success.
Throughout his career, Ganta has published more than 100 studies in peer-reviewed journals and earned more than $22 million in grants from organizations such as the National Institutes of Health (NIH), the USDA, the Centers for Disease Control and Prevention (CDC), industry partners, and foundations.
Working at a land-grant university, Ganta’s research will ultimately help improve the health of cattle and the agricultural economy throughout Missouri, particularly in rural areas.
“Mizzou has already made substantial contributions to protecting cattle against ticks.” — Roman Ganta
“Missouri is a hotbed for tick-borne diseases, and bovine anaplasmosis causes massive economic losses both here in Missouri and around the world,” Ganta says. “Mizzou has already made substantial contributions to protecting cattle against ticks. For example, many farmers currently give their cattle an antibiotic called chlortetracycline, which was first discovered at Mizzou’s Sanborn Field in 1945. While effective, that medicine doesn’t fully eliminate the infection, so this new vaccine is an innovative step forward to fully eliminate the infection.”
Ganta says the new vaccine has been proven to give immunized cattle protection against bovine anaplasmosis for at least a month, and he and his team are eager to conduct additional research to determine how long the genetically modified pathogen can provide immunity to cattle. Ganta is also collaborating with industry partners to discuss future distribution of the new vaccine, which has been patented, to cattle producers.
“The genetically modified-live vaccine offers protective immunity against wild-type Anaplasma marginale tick-transmission challenge” was recently published in Vaccine. Funding for the study was provided by the NIH and Russell L. Rustici Rangeland and Cattle Research Endowment, University of California, Davis.
Leading the charge in tick research
Mizzou has been on the frontlines of tick research for years. A 2021 Mizzou study found recent increases in both the number and severity of tick-borne diseases in the Midwest, particularly in the humid climates of Missouri, Kansas, Oklahoma and Arkansas. The documentation of which type of tick, as well as when and where ticks are present helps public health officials better understand the threat of tick-borne diseases to people, pets and livestock.
Researchers in Mizzou’s College of Veterinary Medicine and College of Health Sciences also were the first to identify the invasive longhorned tick in northern Missouri in 2022 and in Boone County, Mo., in 2023. Mizzou’s Veterinary Medical Diagnostic Laboratory helps livestock producers track down the causes of various health issues in an effort to support Missouri’s agriculture industry.
Editor’s note: Brian Consiglio is a research news strategist for the University of Missouri. [Lead photo by Abbie Lankitus.]
Angus Beef Bulletin EXTRA, Vol. 16, No. 9-A
Topics: Health , Industry News , News
Publication: Angus Beef Bulletin