News Release

How protein tangles accumulate in the brain and cause neurological disorders

The appoptosin protein initiates a path that leads to the accumulation of tau, a key component of brain lesions

Peer-Reviewed Publication

Sanford-Burnham Prebys

LA JOLLA, Calif., September 2, 2015 - A new Sanford Burnham Prebys Medical Discovery Institute (SBP) study takes a step forward in understanding how similar, yet genetically unrelated neurodegenerative diseases, such as Alzheimer's disease, frontal temporal dementia, and progressive supranuclear palsy (PSP) are caused by the protein tau. The findings, published today in Neuron, create new opportunities to target this key protein that leads to the brain lesions found in patients with impaired motor functions and dementia.

"Our research shows how the abundance of a protein called appoptosin increases tau aggregates called tangles, which are toxic to the brain and lead to the progressive deterioration of the central nervous system," said Huaxi Xu, professor in the Degenerative Diseases Program at SBP. "By understanding how appoptosin drives this process, we can now look at ways to inhibit key triggering points and potentially slow the progression of this class of neurodegenerative diseases which are collectively known as tauopathies."

What are tauopathies?

Tauopathies are neurodegenerative diseases that are signified by the presence of irregular tangle-like clumps of the protein tau that appear in the brain and accumulate during as the disease progresses. Because tau tangles appear in numerous diseases such as Alzheimer's and PSP, it seemed likely that tau could be a key factor in causing neuron and brain malfunction in these diseases. However, how diseases such as PSP are triggered, and whether similar causes could generate these tau protein tangles were unknown.

Tau is a protein that maintains the integrity of long hollow tube structures called microtubules, which are major structural elements of cells. In neurons, microtubules form long extensions called axons where signals are rapidly transported over long distances when neurons communicate with each other. When tau becomes abnormally modified by hyperphosphorylation, or cleaved by the enzyme caspase-3, which itself can also facilitate its hyperphosphorylation, it loses its biological activity and goes through conformational changes that allow the protein to accumulate and form tangles.

Because it was largely unknown how caspase-3 is triggered to induce tau aggregation in tangles, determining the sequence of events that lead to tau cleavage and aggregation is one of the most important goals for the prevention and treatment of tauopathies.

Key findings of the paper

The new paper highlights a novel role for appoptosin in neurological tauopathy disorders such as PSP. PSP is a neurological disease with tau brain aggregates, where patients experience serious problems with balance, eye movement and thinking. Until now, genetic and biological triggers for PSP were unknown. By examining patients with PSP, it became apparent that variation in the DNA sequence of a single nucleotide (a SNP) was associated with the disease and correlated with elevated levels of appoptosin that increased caspase-mediated tau cleavage, tau aggregation, and synaptic dysfunction.

Neurodegenerative triggering factors appoptosin and caspase-3 cleaved tau were also found to be overabundant or over-activated in brain samples of patients with Alzheimer's disease and frontotemporal dementia, supporting the importance of their contribution to these neurodegenerative disorders.

"A better understanding of the mechanisms that cause neurofibrillary tangles is of clinical importance for developing therapeutic strategies to prevent and treat tauopathies," added Xu. "Our findings suggest that appoptosin and/or caspase-3 may be potential targets in the treatment of these neurodegenerative diseases."


This study was supported by NIH grants R01AG021173, R01AG038710, R01NS046673, R01AG1844, R01AG5131, R01AG11385, R01NS076411, PN2EY016525, and R01NS66072. Additional support was proved by the Alzheimer's Association, The Tanz Family Funds, the National Natural Science Foundation of China, the Down Syndrome Research, Treatment Foundation, the Larry L. Hillblom Foundation, and the Canadian Institutes of Health China-Canada AD Initiative.

About Sanford Burnham Prebys Medical Discovery Institute

Sanford Burnham Prebys Medical Discovery Institute (SBP) is an independent nonprofit research organization that blends cutting-edge fundamental research with robust drug discovery to address unmet clinical needs in the areas of cancer, neuroscience, immunity, and metabolic disorders. The Institute invests in talent, technology, and partnerships to accelerate the translation of laboratory discoveries that will have the greatest impact on patients. Recognized for its world-class NCI-designated Cancer Center and the Conrad Prebys Center for Chemical Genomics, SBP employs more than 1,100 scientists and staff in San Diego (La Jolla), Calif., and Orlando (Lake Nona), Fla. For more information, visit us at The Institute can also be found on Facebook at and on Twitter @SBPdiscovery.

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