A research team has identified genetic processes involved in the neurodegeneration that occurs in dementia -- an important step on the path toward developing therapies that could slow or halt the course of the disease. The findings appeared in the journal Nature Medicine.
The researchers discovered two major groups of genes involved in mutations that result in an overproduction of a protein called tau, a hallmark of the progressive loss of neurons seen in major forms of dementia. The study was largely done in mouse models of dementia, although the researchers performed additional experiments that indicated the same genetic process occurs in human brains.
Armed with that knowledge, the team searched a large database of the genetic effects of experimental drugs to identify those that might alter this loss of neurons, or neurodegeneration. In human cell cultures, the researchers showed that the use of these molecules interfered with neurodegeneration.
Although scientists have identified genes associated with dementia risk, there is little understanding of how those genes contribute to the cascade of events that lead brain cells to die.
The research team sought to solve that puzzle through an approach known as "systems biology," which applies powerful genomic and analytic tools to studying the genome holistically, taking into account the complex interactions of the thousands of genes and the cells and proteins they produce.
The researchers used systems biology to identify genetic processes in a mutation that results in the overproduction of tau in frontotemporal dementia, a form of early-onset dementia. A similar process also has been shown to play an important role in Alzheimer's disease and another form of dementia known as supranuclear palsy, which affects both movement and cognition.
The team hypothesized that a reason why research with mouse models of dementia often fails to produce results translatable to humans is that most mouse studies have relied on a single inbred strain.
To increase the likelihood that their findings would have broader implications, the researchers studied the mutation caused by frontotemporal dementia in three genetically distinct strains of mice. The team looked at the genetic activity occurring in different parts of and points of time in a degenerating brain.
In the study, two gene clusters were found to be associated with neurodegeneration across all three mouse models and in the susceptible regions of the brain.
Overexpression of miR-203, a hub of a putative regulatory microRNA (miRNA) module, recapitulates mRNA coexpression patterns associated with disease state and induces neuronal cell death, establishing this miRNA as a regulator of neurodegeneration. Using a database of drug-mediated gene expression changes, they identify small molecules that can normalize the disease-associated modules and validate this experimentally.
"There is still a significant amount of work that needs to be done to develop drugs that could be effectively used in humans against these targets, but this is an encouraging step," said the senior author.
Genes tied to dementia identified!
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