Jun 6, 2018

Research Links Tau Protein to Cell Death in Alzheimer’s disease

New evidence suggests a mechanism by which progressive accumulation of Tau protein in brain cells may lead to Alzheimer’s disease.


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Scientists studied more than 600 human brains and fruit fly models of Alzheimer’s disease and found the first evidence of a strong link between Tau protein within neurons and the activity of particular DNA sequences called transposable elements, which might trigger neurodegeneration.

“We think our experiments reveal new and potentially important insights relevant for understanding Alzheimer’s disease mechanisms.”


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“One of the key characteristics of Alzheimer’s disease is the accumulation of Tau protein within brain cells, in combination with progressive cell death,” said author Dr. Joshua Shulman, associate professor of neurology and human genetics at Baylor College of Medicine . 
  • “In this study we provide novel insights into how accumulation of Tau protein may contribute to the development of Alzheimer’s disease.”
  • Although scientists have studied for years what happens when Tau forms aggregates inside neurons, it still is not clear why brain cells ultimately die. 
  • One thing that scientists have noticed is that neurons affected by Tau accumulation also appear to have genomic instability.
Genomic instability refers to an increased tendency to have alterations in the genetic material, DNA, such as mutations or other impairments. This means that the genome is not functioning correctly. Genomic instability is known to be a major driving force behind other diseases such as cancer. Our study focused on a new possible causal connection between Tau accumulation within neurons and the resulting genomic instability in Alzheimer’s disease.


Enter transposable elements

Previous studies of brain tissues from patients with other neurologic diseases and of animal models have suggested that the neurons not only present with genomic instability, but also with activation of transposable elements.

Transposable elements are short pieces of DNA that do not seem to contribute to the production of proteins that make cells function. They behave in a way similar to viruses; they can make copies of themselves that are inserted within the genome and this can create mutations that lead to disease.” ~ Shulman.
“Although most transposable elements are dormant or dysfunctional, some may become active in human brains late in life or in disease. That’s what led us to look specifically at Alzheimer’s disease and the possible association between Tau accumulation and activated transposable elements.”

  • Shulman and his colleagues began their investigations by studying more than 600 human brains from a population study run by co-author Dr. David Bennett at Rush University Medical Center in Chicago.
  • This population study followed participants throughout their lives and at death, allowing the researchers to examine their brains in detail postmortem. 

One of the evaluations is the amount of Tau accumulation across many brain regions. In addition, co-author Dr. Philip De Jager at the Broad Institute and Columbia University comprehensively profiled gene expression in the same brains.

“With this large amount of data, we looked to identify signatures of active transposable elements, but this was not easy,” Shulman said. 
“We therefore reached out to Dr. Zhandong Liu, a co-author in this study, and together we developed a new software tool to detect signatures of active transposable elements from postmortem human brains. Then we conducted a statistical analysis in which we compared the amount of active transposable elements signatures with the amount of Tau accumulation, brain by brain.” 

The researchers found a strong link between the amount of Tau accumulation in neurons and detectable activity of transposable elements.
“We identified individual transposable elements that were active when Tau aggregates were present. Surprisingly, we also found evidence that the activation of transposable elements was quite broad across the genome.” 
Other research has shown that Tau may disrupt the tightly packed architecture of the genome.

It is believed that tightly packed DNA limits gene activation, while opening up the DNA may promote it. Keeping the DNA tightly packed may be an important mechanism to suppress the activity of transposable elements that lead to disease.

The fact that Tau aggregates can affect that architecture of the genome may be one possible mechanism by which transposable elements are activated in Alzheimer’s disease. However, our studies in human brains only establish an association between Tau accumulation and activation of transposable elements. To determine whether Tau accumulation could in fact cause transposable element activation, we conducted studies with a fruit fly model of Alzheimer’s disease.”
  • In this fruit fly model of the disease, the researchers found that triggering Tau changes similar to those observed in human brains resulted in the activation of fruit fly transposable elements, strongly suggesting that Tau aggregates that disrupt the architecture of the genome can potentially mediate the activation of transposable elements and ultimately cause neurodegeneration.
We think our experiments reveal new and potentially important insights relevant for understanding Alzheimer’s disease mechanisms,” Shulman said. “There is still a lot of work to be done, but by presenting our results we hope we can stimulate others in the research community to help work on this problem.”
The study appears in the journal Cell Reports.


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Citation
How Tau aggregates can contribute to cell death in Alzheimer's disease
June 5, 2018
Source: Baylor College of Medicine
Summary: New evidence suggests a mechanism by which progressive accumulation of Tau protein in brain cells may lead to Alzheimer's disease.

Key contributors to this work include Dr. Joshua Shulman, Dr. Zhandong Liu, Caiwei Guo, Hyun-Hwan Jeong, Yi-Chen Hsieh at Baylor College of Medicine and Texas Children’s Hospital, Dr. Philip De Jager at the Broad Institute and Columbia University, and Hans-Ulrich Klein at Columbia University Medical Center and the Broad Institute.