July 29, 2010
A Breakthrough In Tuberculosis Research
Researcher discovers existing drugs can potentially target the disease's ability to spread
Often causing no symptoms in carriers of the disease, worldwide tuberculosis (TB) infects eight to ten million people every year, kills two million, and it is highly contagious as it is spread through coughing and sneezing. "It's a global health disaster waiting to happen, even here in Canada, but this new paradigm in TB research may offer an immediate opportunity to improve vaccination and treatment initiatives," explains Dr. Maziar Divangahi of McGill University and of the Research Institute of the McGill University Health Centre.
The way infected macrophages die is a determining factor in the development of immunity to TB. Macrophages can induce apoptosis, a type of cell death which keeps their membrane intact, trapping and reducing bacterial viability. However, TB bacteria induce another type of cell death called necrosis. Necrosis causes cell death by disrupting the cell membranes, which enables the bacteria to escape the cell. It may help to visualize a box with broken walls.
The key to the fate of the macrophages is the balance between two kinds of eicosanoids. Eicosanoids are molecules that contribute to the control of our immune system. The genetic code of TB bacteria enables it to tip this balance in favor of necrosis, and human genetic analysis revealed that modification in eicosanoids production is associated with susceptibility or resistance to TB. Fortunately, drugs that target the production of eicosanoids are already in use for treating other inflammatory diseases, such as rheumatoid arthritis.
"The next steps will be to see exactly how these drugs can be used to treat TB," said Divangahi.
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