Researchers from the University of Southern California have discovered that a drug currently being developed to treat stroke patients could also prevent Alzheimer's disease. The study, which will be published January 15 in the Journal of Experimental Medicine shows that the genetically engineered protein 3K3A-APC protects the brains of mice with Alzheimer's-like symptoms, reducing memory loss 3K3A-APC is a genetically modified version of a human blood protein called activated protein C, which reduces inflammation and protects both neurons and the cells that line the walls of blood vessels from death and degeneration. 3K3A-APC has beneficial effects in various mouse models of disease, including traumatic brain injury and multiple sclerosis, and is currently being developed to treat stroke in humans, where it has been shown to be safe, well tolerated, and capable of reducing intracerebral bleeding
"Because of its neuroprotective, vasculoprotective, and anti-inflammatory activities in multiple models of neurological disorders, we investigated whether 3K3A-APC can protect the brain from the toxic effects or amyloid-beta toxin in a mouse model or Alzheimer's disease, "says Berislav V. Zlokovic, Director of the Zilkha Neurogenetic Institute at the Keck School of Medicine, University of Southern California. Toxic amyloid-beta peptides accumulate in the brain or Alzheimer's patients, leading to neurodegeneration and reduced blood flow. within the brain. Zlokovic and colleagues found that 3K3A-APC significantly reduced the accumulation of amyloid-beta in the brain of mice that usually produce large amounts of the toxic peptide. 3K3A-APC prevents these mice from losing their memory and helps maintain normal cerebral blood flow. The drug also suppressed inflammation within the brain, another common feature of Alzheimer's disease
Zlokovic and colleagues found that 3K3A-APC protects the brain by preventing nerve cells from producing and enzyme called BACE1
"Our present data support the idea that 3K3A-APC holds potential as an effective anti-amyloid-beta therapy for early stage Alzheimer's disease in humans," Zlokovic says.