CHANGES IN EYE CAN PREDICT CHANGES IN BRAIN
Researchers at the
Gladstone Institutes and University of California, San Francisco have shown
that a loss of cells in the retina is one of the earliest signs of
frontotemporal dementia (FTD) in people with a genetic risk for the disorder --
even before any changes appear in their behavior.
Published in the Journal
of Experimental Medicine, the researchers, led by Gladstone investigator Li
Gan, PhD and UCSF associate professor of neurology Ari Green, MD, studied a
group of individuals who had a certain genetic mutation that is known to result
in FTD. They discovered that before any cognitive signs of dementia were
present, these individuals showed a significant thinning of the retina compared
with people who did not have the gene mutation.
"This finding
suggests that the retina acts as a type of 'window to the brain,'" said
Dr. Gan. "Retinal degeneration was detectable in mutation carriers prior
to the onset of cognitive symptoms, establishing retinal thinning as one of the
earliest observable signs of familial FTD. This means that retinal thinning
could be an easily measured outcome for clinical trials."
Although it is located
in the eye, the retina is made up of neurons with direct connections to the
brain. This means that studying the retina is one of the easiest and most
accessible ways to examine and track changes in neurons.
Lead author Michael
Ward, MD, PhD, a postdoctoral fellow at the Gladstone Institutes and assistant
professor of neurology at UCSF, explained, "The retina may be used as a
model to study the development of FTD in neurons. If we follow these patients over
time, we may be able to correlate a decline in retinal thickness with disease
progression. In addition, we may be able to track the effectiveness of a
treatment through a simple eye examination."
The researchers also
discovered new mechanisms by which cell death occurs in FTD. As with most
complex neurological disorders, there are several changes in the brain that
contribute to the development of FTD. In the inherited form researched in the
current study, this includes a deficiency of the protein progranulin, which is
tied to the mislocalization of another crucial protein, TDP-43, from the
nucleus of the cell out to the cytoplasm.
However, the
relationship between neurodegeneration, progranulin, and TDP-43 was previously
unclear. In follow-up studies using a genetic mouse model of FTD, the
scientists were able to investigate this connection for the first time in
neurons from the retina. They identified a depletion of TDP-43 from the cell
nuclei before any signs of neurodegeneration occurred, signifying that this
loss may be a direct cause of the cell death associated with FTD.
TDP-43 levels were
shown to be regulated by a third cellular protein called Ran. By increasing
expression of Ran, the researchers were able to elevate TDP-43 levels in the
nucleus of progranulin-deficient neurons and prevent their death.
"With these
findings," said Dr. Gan, "we now not only know that retinal thinning
can act as a pre-symptomatic marker of dementia, but we've also gained an
understanding into the underlying mechanisms of frontotemporal dementia that
could potentially lead to novel therapeutic targets."
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