Neuroscience

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Alzheimer’s Disease in Mice Alleviated Promising Therapeutic Approach for Humans Pathological changes typical of Alzheimer’s disease were significantly reduced in mice by blockade of an immune system transmitter. A research team from Charité - Universitätsmedizin Berlin and the University of Zurich has just published a new therapeutic approach in fighting Alzheimer’s disease in the current issue of Nature Medicine. This approach promises potential in prevention, as well as in cases where the disease has already set in. The accumulation of particular abnormal proteins, including amyloid-ß (Aβ) among others, in patients’ brains plays a central role in this disease. Prof. Frank Heppner from the Department of Neuropathology at Charité and his colleague Prof. Burkhard Becher from the Institute for Experimental Immunology at the University of Zurich were able to show that turning off particular cytokines (immune system signal transmitters) reduced the Alzheimer’s typical amyloid-ß deposits in mice with the disease. As a result, the strongest effects were demonstrated after reducing amyloid-ß by approximately 65 percent, when the immune molecule p40 was affected, which is a component of the cytokines interleukin (IL)-12 and -23.

Alzheimer’s Disease in Mice Alleviated Promising Therapeutic Approach for Humans

Pathological changes typical of Alzheimer’s disease were significantly reduced in mice by blockade of an immune system transmitter. A research team from Charité - Universitätsmedizin Berlin and the University of Zurich has just published a new therapeutic approach in fighting Alzheimer’s disease in the current issue of Nature Medicine. This approach promises potential in prevention, as well as in cases where the disease has already set in.

The accumulation of particular abnormal proteins, including amyloid-ß (Aβ) among others, in patients’ brains plays a central role in this disease. Prof. Frank Heppner from the Department of Neuropathology at Charité and his colleague Prof. Burkhard Becher from the Institute for Experimental Immunology at the University of Zurich were able to show that turning off particular cytokines (immune system signal transmitters) reduced the Alzheimer’s typical amyloid-ß deposits in mice with the disease. As a result, the strongest effects were demonstrated after reducing amyloid-ß by approximately 65 percent, when the immune molecule p40 was affected, which is a component of the cytokines interleukin (IL)-12 and -23.

Filed under alzheimer alzheimer's disease interleukin immune system therapeutic approach neuroscience science

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