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Fp802

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Alzheimer's death switch found, scientists halt it in mice with FP802
science11 days ago

Alzheimer's death switch found, scientists halt it in mice with FP802

Researchers at Heidelberg University have identified a toxic complex formed by NMDA receptors and TRPM4 in the brain that they describe as a death switch driving neuron death in Alzheimer's disease. In mice, they used FP802, a TwinF Interface Inhibitor, to disrupt this complex, which slowed cognitive decline, preserved dendrites and synapses, and reduced amyloid plaques. The findings suggest a new therapeutic approach that targets the death switch rather than amyloid buildup, but human trials are not yet underway and results are limited to animal studies. Development with FundaMental Pharma is progressing toward potential clinical testing.

via Yahoo Creators|
#alzheimers-disease#death-switch#fp802
Brain 'death switch' linked to Alzheimer's progression could be blocked by FP802
science18 days ago

Brain 'death switch' linked to Alzheimer's progression could be blocked by FP802

Researchers at Heidelberg and Shandong University identified a toxic interaction between NMDA receptors and the TRPM4 channel—described as a 'death complex'—that worsens Alzheimer’s in a mouse model. They showed FP802, a novel neuroprotective drug, can block this interaction, slowing neurodegeneration, preserving synapses and mitochondria, and reducing amyloid deposits, offering a therapeutic approach distinct from amyloid removal. While promising, further pharmacological development, toxicology work, and clinical trials are needed before it could be used in humans, and researchers are also exploring potential ALS applications.

via New York Post|
#alzheimers-disease#fp802#neurodegeneration
Blocking the brain death switch in Alzheimer's slows disease in mice
health-and-medicine19 days ago

Blocking the brain death switch in Alzheimer's slows disease in mice

Researchers at Heidelberg University and Shandong University identified a toxic interaction between NMDA receptors (NMDAR) and the TRPM4 channel that forms a 'death complex' driving neuron loss in an Alzheimer's mouse model. They used FP802 to disrupt this complex, slowing disease progression, preserving memory, reducing synaptic and mitochondrial damage, and lowering beta-amyloid buildup. This approach targets a downstream mechanism rather than amyloid, offering a potential new therapeutic path, though human trials are years away.

via ScienceDaily|
#alzheimers-disease#death-complex#fp802