Penn Researchers Provide Insights into How the Immune System Avoids Attacking Itself
Omschrijving
A finding by University of Pennsylvania School of Medicine researchers about how immune cells "decide" to become active or inactive may have applications in fighting cancerous tumors, autoimmune diseases, and organ transplant rejection. Pathology and Laboratory Medicine Professor Gary A. Koretzky, MD, PhD, director of the Signal Transduction Program at Penn's Abramson Family Cancer Research Institute describes, in the current online issue of Nature Immunology, one way in which T cells may develop tolerance to host cells and proteins. Koretzky and colleagues found that small fatty acids called diacylglycerols (DAGs), and the enzymes that metabolize them, are critical players in the molecular pathway that leads to activity versus inactivity.
Immune cells called T lymphocytes recognize invaders in the body, such as viruses, bacteria, tumor cells, or allergens. Normally, T cells are activated by a complex series of signals that end with the destruction of the foreign substance. However, some T cells are not activated, in fact they are inactivated by a process called anergy or tolerance. This process helps prevent immune cells from attacking themselves and other normal cells and proteins.
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Categorie: immuunsysteem
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