FATTY ACIDS FOUND IN MILK MAY HELP CONTROL INFLAMMATORY DISEASES

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FATTY ACIDS FOUND IN MILK MAY HELP CONTROL INFLAMMATORY DISEASES
18 October 2005 - University of Wisconsin-Madison

One of the isomers of conjugated linoleic acid, a group of fatty acids found in milk, is a natural regulator of the COX-2 protein, which plays a significant role in inflammatory disease such as arthritis and cancer, according to a study published by University of Wisconsin-Madison researchers.

"It's clear from previous research that conjugated linoleic acid, or CLA, prevents inflammatory damage resulting from immune response," says Mark Cook, a professor of animal science in UW-Madison's College of Agricultural and Life Sciences. "We've identified the biochemical mechanism by which this occurs."

CLA, which is synthesized by microbial fermentation in the rumen of dairy cows, exists naturally in a number of structural forms. Cook's team determined that one of the variants inhibits the COX-2 protein by blocking a key cellular pathway. The COX-2 protein is known to play a significant role in many inflammatory diseases and is an important drug target for treating arthritis and cancer, Cook says.

While the amount of the anti-inflammatory isomer of CLA in milk is small relative to other fatty acids in milk, there may still be enough to elicit an effect if someone consumes dairy products every day, says Cook. He is planning a study, in collaboration with researchers in the dairy science and food science departments, to determine whether the amount of anti-inflammatory CLA in milk can be increased by changing dairy cow diets.

A poultry scientist, Cook's interest in CLA arose when he began to investigate what seemed at first to be a simple question: Why does a chick, or any other animal raised in a germ-free environment, grow faster than one raised in a conventional environment?

"In animal agriculture, you can see as much as a five to ten percent difference in weight at a given age in a growing animal because a secondary effect of immune response is that it suppresses growth," Cook says. The immune system protects the body by fighting disease, but the defense comes at a price, Cook says, including inflammation, muscle wasting and loss of appetite.

"Conventional wisdom dictates that you can increase growth by treating the animal with antibiotics to kill bacteria and avoid activating the immune defense system, but this raises long-term concerns about developing antibiotic resistance," he adds. "You can also suppress the animal's immune system, but that makes it much more susceptible to disease."

However, Cook is interested in another approach: Using CLA as a natural way to prevent "collateral damage" from the immune system's response to invading pathogens. "The ideal solution is to let the immune system fight bacteria, but at the same time to maintain the overall health of the system," he says.

Cook is one of many UW-Madison researchers who are interested in the health benefits of CLA. Others include Michael Pariza, director of the Food Research Institute and chair of the food microbiology and toxicology department; James Ntambi of the biochemistry department; and Dale Schoeller of the nutritional sciences department.

His collaborators on the recent study include Guangming Li, a postdoctoral fellow in animal sciences; David Barnes, a former assistant professor of animal sciences; Daniel Butz, a former research associate in nutritional sciences; and Dale Bjorling, a professor of surgical sciences.

The work was funded by a Thomsen Wisconsin Distinguished Graduate Fellowship, the College of Agricultural and Life Sciences, the University of Wisconsin-Madison, the Wisconsin Alumni Research Foundation, and by BASF and Natural Lipids, Inc.

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About: University of Wisconsin-Madison
In achievement and prestige, the University of Wisconsin-Madison has long been recognized as one of America’s great universities. A public, land-grant institution, UW-Madison offers a complete spectrum of liberal arts studies, professional programs and student activities. Many of its programs are hailed as world leaders in instruction, research and public service.

The university traces its roots to a clause in the Wisconsin Constitution, which decreed that the state should have a prominent public university. In 1848, Nelson Dewey, Wisconsin’s first governor, signed the act that formally created the university, and its first class, with 17 students, met in a Madison school building on February 5, 1849.

From those humble beginnings, the university has grown into a large, diverse community, with about 40,000 students enrolled each year. These students represent every state in the nation, as well as countries from around the globe, making for a truly international population.

UW-Madison is the oldest and largest campus in the University of Wisconsin System, a statewide network of 13 comprehensive universities, 13 freshman-sophomore transfer colleges and an extension service. One of two doctorate-granting universities in the system, UW-Madison’s specific mission is to provide "a learning environment in which faculty, staff and students can discover, examine critically, preserve and transmit the knowledge, wisdom and values that will help insure the survival of this and future generations and improve the quality of life for all."

The university achieves these ends through innovative programs of research, teaching and public service. Throughout its history, UW-Madison has sought to bring the power of learning into the daily lives of its students through innovations such as residential learning communities and service-learning opportunities. Students also participate freely in research, which has led to life-improving inventions from more fuel-efficient engines to cutting-edge genetic therapies.

Students, faculty and staff are motivated by a tradition known as the "Wisconsin Idea," described by UW President Charles Van Hise in 1904 as the compelling need to carry "the beneficent influence of the university ... to every home in the state." The Wisconsin Idea permeates the university’s work and helps forge close working relationships among university faculty and students and the state’s industries and government.

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