Scientists have found a mechanism in the immune systems of mice that can lead to the development of autoimmune disease when turned off. The findings shed light on the processes that lead to the ...

A study by the research team of Prof. Geert van Loo (VIB-UGent Center for Inflammation Research) has unraveled a critical molecular mechanism behind autoimmune and inflammatory diseases such as ...

Scientists at the Department of Infection and Immunity of the Luxembourg Institute of Health (LIH) revealed a novel mechanism through which the immune system can control autoimmunity and cancer. In ...

The mammalian immune system has an extraordinary potential for making receptors that sense and neutralize any chemical entity entering the body. Inevitably, some of these receptors recognize ...

The ability of a human body to resist pathogenic factors is under control of immune cells, the most important of which are lymphocytes. The first subtype called effector lymphocytes, contacts with ...

A study by the research team of Prof. Geert van Loo (VIB-UGent Center for Inflammation Research) has unraveled a critical molecular mechanism behind autoimmune and inflammatory diseases such as ...

The available T-cell repertoire — which is modified by interactions with self-peptide–MHC complexes in the thymus and in peripheral tissues — is a key factor in the development of autoimmune disease.

The T-cell branch of the immune system can respond to a virtually infinite variety of antigens, in part because it includes a very large repertoire of T-cell clones, each with a unique receptor for ...

Scientists at the Department of Infection and Immunity of the Luxembourg Institute of Health (LIH) revealed a novel mechanism through which the immune system can control autoimmunity and cancer. In ...