UBC researcher discovers ’control room’ that regulates immune responses
The approximately 50 million people in the U.S. who suffer from autoimmune diseases like HIV/AIDS, multiple sclerosis, and arthritis, may soon be able to control their immune responses, thanks to a breakthrough discovery by a researcher at the University of British Columbia in Vancouver, Canada.
Wilfred Jefferies, a professor at UBCs Biotechnology Laboratory, has discovered and characterized the mechanics of a cellular pathway that triggers immune responses. He and his team have also uncovered a specialized cell substructure, or organelle, that dictates exactly how the immune system will be activated.
“This discovery opens the door to the immune system control room,” says Jefferies, who is also a member of UBCs Biomedical Research Centre. “Weve found a mechanism that appears to act like a dial – it can turn immune system response up or down.”
Jefferies believes that it will take about five years for scientists to use this information to create new therapies – such as medication or vaccines – to regulate immune responses in humans.
The findings have enormous implications for patients because treatment may be targeted by adjusting the “dial”, says Jefferies. Immune responses may be increased to fight infection or reduced to help the body accept transplanted tissue or organs.
The work was recently published online in Nature Immunology and will be the topic of an editorial when the journal appears on newsstands in November.
The research findings can be used immediately to test exactly how the immune system responds to a variety of pathogenic organisms, including bacteria, viruses and tumours, says Jefferies, who is a member of UBCs departments of Microbiology and Immunology, Medical Genetics and Zoology.
Jefferies research focuses on dendritic cells. A network of specialized cells, dendritic cells act as sentinels of the immune system, detecting and relaying information about illness-causing organisms or pathogens. Jefferies and his team have identified a new organelle within dendritic cells that sorts pathogens without being harmed by them and controls signals given to the immune system. The signals turn immune responses up or down, according to the type of pathogen encountered.
The immune system protects the body from potentially harmful substances such as microorganisms, toxins, cancer cells, and blood or tissues from another person. Immune system disorders are conditions where the immune response is over-active, reduced or absent.
The research team includes UBC graduate students Greg Lizee, Jacqueline Tiong, Meimei Tian and Kaan Biron as well as post-doctoral fellow Gene Basha. UBC researchers, who conduct more than 5,225 investigations annually, attracted $377 million in research funding in 2002 / 2003.
NB. Editors: Electronic images of Dr. Jefferies as well as dendrite cells are available. A brief biography is attached.
Prof. Wilfred Jefferies completed his PhD at Oxford University after obtaining a BSc from University of Victoria in British Columbia.
His completed research training at centres that include Swedens Ludwig Institute for Cancer Research, part of the Karolinska Institute, one of Europes largest medical universities, as well as at the Swiss Institute for Experimental Cancer Research. In 1989, he was recruited to UBC by the late Michael Smith, 1993 Nobel Laureate in Chemistry.
Jefferies work has explored the function of a brain protein called melanotransferrin that plays a key role in iron transport in central nervous system. He and colleagues discovered a link between the action of this molecule and Alzheimers disease. Another area of interest is looking at how the immune system detects aggressive cancer cells and how viruses become recognized by host lymphocytes. He has been involved in using TAP genes to resurrect the immune response in patients with metastatic tumours and the development of new tumour vaccines.
The author of numerous publications, Jefferies is funded by major agencies such as the Canadian Institutes of Health Research, the National Cancer Institute of Canada and the Natural Sciences and Engineering Research Council of Canada.
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