April 24, 2018
After being awarded several grants from the U.S. Department of Agriculture, two researchers with the University of Florida Institute of Food & Agricultural Sciences are closer to preventing influenza in pigs and helping dairy producers get more milk for their buck.
John Driver and Tim Hackmann, both assistant professors in the department of animal sciences, were awarded close to a total of $700,000 from USDA’s National Institute of Food & Agriculture (NIFA).
“This reflects the impact and potential of animal sciences research here" at the University of Florida, said Driver, who will use his $100,000 NIFA grant to further research into influenza, which causes large economic losses in the pork industry. He will collaborate with Dr. William Castleman in the University of Florida College of Veterinary Medicine.
Driver’s project focuses on a special immune cells — natural killer T-cells (NKT) — that are known to have a role in battling flu.
Driver said they are interested in harnessing NKT, "which are found in pigs and humans. What makes them special is that, though they are very rare, they’re incredibly potent cells. The idea behind this grant is to see whether activating these cells at a high level will make the animal more resistant to diseases.”
The second objective of the grant is to see if animals that lack NKT cells are more affected or less affected by flu. “In the case of some diseases, you may actually be better off if you don’t have NKT cells, because the inflammation they cause can sometimes be harmful. Flu may be one of those diseases when NKT cells make you worse, not better,” he said.
Driver’s findings could also have implications for combating infectious diseases in people. “Flu has probably wiped out more humans than any other disease. By studying NKT cells in pigs, we could learn a lot about potential NKT cell therapies for humans,” he said.
Hackmann will use two NIFA grants totaling approximately $600,000 to understand how microbes play a role in dairy cattle nutrition and affect producers’ bottom lines.
Microbes in the animals' stomachs help break down carbohydrates in their feed. Right now, scientists don’t know which microbes breaking down which carbohydrates. Identifying these relationships could ultimately help make cattle feed more effective, he said.
Hackmann will begin by treating specific carbohydrates with fluorescent compounds and feeding them to microbes sampled from cattle. The microbes that metabolize this carbohydrate will glow under a microscope, he explained, and that will tell researchers which ones have processed that carbohydrate.
Hackmann’s companion project aims to increase the amount of protein available to cattle, which he calculated could save the dairy industry about $122 million per year.
Cattle get more than half their protein by digesting some of the microbes that live in their gut, he said. “What we want to do is increase the efficiency of protein production in microbes. Right now, they only direct about one-third of their energy toward growth. If microbes directed more energy to making protein, cattle would need less protein from food sources,” Hackmann explained.
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