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Animal Model Opens Way to Test Alzheimer鈥檚 Disease Therapies

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3D image of brain cells
Inflammatory cells (red and green) flood into part of the brain where neurons are affected by misfolded tau protein (orange). This model in rhesus macaque monkeys shows similarities to development of Alzheimer鈥檚 disease in humans and could open up ways to test new treatments. (Danielle Beckman, CNPRC)

Our knowledge of Alzheimer鈥檚 disease has grown rapidly in the past few decades, but it has proven difficult to translate fundamental discoveries about the disease into new treatments. Now researchers at the California National Primate Research Center at the University of California, Davis, have developed a model of the early stages of Alzheimer鈥檚 disease in rhesus macaques. The macaque model, in the journal Alzheimer鈥檚 & Dementia: The Journal of the Alzheimer鈥檚 Association could allow better testing of new treatments.

The model was developed by Professor John Morrison鈥檚 laboratory at the CNPRC, in collaboration with Professor Jeffrey Kordower of Rush University Medical Center and Paramita Chakrabarty, assistant professor at the University of Florida.

Alzheimer鈥檚 disease is thought to be caused by misfolding of the tau and amyloid proteins. Misfolded proteins spread through the brain, leading to inflammation and cell death. Tau protein is commonly found in neurons of the brain and central nervous system, but not elsewhere.

Researchers think that decades may elapse between the silent beginnings of the disease and the first signs of cognitive decline. Understanding what happens over these years could be key to preventing or reversing symptoms of Alzheimer鈥檚 disease. But it is difficult to study therapeutic strategies without a powerful animal model that resembles the human condition as closely as possible, Morrison said. Much research has focused on transgenic mice that express a human version of amyloid or tau proteins, but these studies have proven difficult to translate into new treatments.

New translational models needed

Humans and monkeys have two forms of the tau protein in their brains, but rodents only have one, said Danielle Beckman, postdoctoral researcher at the CNPRC and first author on the paper.

鈥淲e think the macaque is a better model, because it expresses the same versions of tau in the brain as humans do,鈥 she said.

Mice also lack certain areas of neocortex such as prefrontal cortex, a region of the human brain that is highly vulnerable to Alzheimer鈥檚 disease. Prefrontal cortex is present in rhesus macaques and critically important for cognitive functions in both humans and monkeys. There is a critical need for new and better animal models for Alzheimer鈥檚 disease that can stand between mouse models and human clinical trials, Beckman said.

Chakrabarty and colleagues created versions of the human tau gene with mutations that would cause misfolding, wrapped in a virus particle. These vectors were injected into rhesus macaques, in a brain region called the entorhinal cortex, which is highly vulnerable in Alzheimer鈥檚 disease.

Within three months, they could see that misfolded tau proteins had spread to other parts of the animal鈥檚 brains. They found misfolding both of the introduced human mutant tau protein and of the monkey鈥檚 own tau proteins.

鈥淭he pattern of spreading demonstrated unequivocally that tau-based pathology followed the precise connections of the entorhinal cortex and that the seeding of pathological tau could pass from one region to the next through synaptic connections,鈥 Morrison said. 鈥淭his capacity to spread through brain circuits results in the damage to cortical areas responsible for higher level cognition quite distant from the entorhinal cortex,鈥 he said.

The same team has previously established spreading of misfolded amyloid proteins in macaques, representing the very early stages of Alzheimer鈥檚 disease, by injecting short pieces of faulty amyloid. The new tau protein model likely represents a middle stage of the disease, Beckman said.

鈥淲e think that this represents a more degenerative phase, but before widespread cell death occurs,鈥 she said.

The researchers next plan to test if behavioral changes comparable to human Alzheimer鈥檚 disease develop in the rhesus macaque model. If so, it could be used to test therapies that prevent misfolding or inflammation.

鈥淲e have been working to develop these models for the last four years,鈥 Morrison said. 鈥淚 don鈥檛 think you could do this without a large collaborative team and the extensive resources of a National Primate Research Center.鈥

Additional co-authors on the paper are: at the California National Primate Research Center, Sean Ott, Amanda Dao, Eric Zhou and Kristine Donis-Cox; William Janssen, Icahn School of Medicine, New York; Scott Muller, Rush University School of Medicine, Chicago. Morrison also has an appointment at the Department of Neurology, 澳门六合彩资料库 Davis School of Medicine.

The work was supported by the NIH through a collaboration between the Office of Research Infrastructure Programs and National Institute of Aging, and by the Alzheimer鈥檚 Association.

Media Resources

John Morrison, California National Primate Research Center, jhmorrison@ucdavis.edu

Danielle Beckman, California National Primate Research Center, dbeckman@ucdavis.edu

Andy Fell, News and Media Relations, 530-304-8888, ahfell@ucdavis.edu

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