| |
News from Yahoo! News U.S. June 27,
2007
Scientists eye an enzyme as
target in fighting autism
CHICAGO (AFP) - US researchers have reversed the symptoms of mental
retardation and autism in mice by inhibiting an enzyme that affects
the connections between brain cells, researchers said Wednesday.
In a series of experiments on mice, the MIT investigators showed
that they could undo the brain damage seen in a condition called
Fragile X syndrome by inhibiting a key brain chemical called PAK.
In humans, Fragile X syndrome (FXS) is the leading cause of mental
retardation and the most common genetic cause of autism -- the
complex and devastating developmental disorder that is now being
diagnosed in increasing numbers of children.
The study raises the intriguing possibility that the brain damage
seen in children with the condition can be rolled back and
identifies a specific target for potential drug therapies.
"It opens up a new avenue for drug research to treat this condition,"
said Susumu Tonegawa, a neuroscientist at the Massachusetts
Institute of Technology in Cambridge, Massachusetts, and lead author
of the paper.
MIT researchers began by creating a batch of mice that had been
genetically modified to have Fragile X, a condition in which the
neurons of the brain are structurally abnormal and functionally
impaired compared to regular nerve cells.
These transgenic mice had many of the behavioral problems seen in
kids with the condition: hyperactivity, attention deficits,
repetitive behaviors and poor social skills.
The investigators then cross-bred these mice with another batch of
mice that had been genetically modified to inhibit the activity of
the PAK (p21-activated kinase) enzyme which is instrumental in
shaping the formation of neuronal connections in the brain.
The researchers knew that when PAK was inactivated, the mice
developed neurons that had short, fat dendritic spines, with a
higher-than-usual capacity for relaying the electrical impulses that
pass between brain cells.
In other words, the shape and function of the dendritic spines in
the PAK mice was just the reverse of those seen in the brain cells
of the mice with Fragile X syndrome.
The researchers gambled that the two abnormalities would cancel each
other out, and that's exactly what the experiment showed.
The cross-bred mice had been genetically engineered so that the
inactivation of the PAK enzyme began two weeks into the mouse's life
cycle, which in human terms would be several years after birth.
Tests and autopsies showed that the PAK-blocking action restored
electrical communication between neurons in the brains of the double
mutant mice, correcting their behavioral abnormalities in the
process.
"This is very exciting because it suggests that PAK inhibitors could
be used for therapeutic purposes to reverse already established
mental impairments in fragile X children," said Eric Klann, a
professor at New York University's Center for Neural Science.
The study was conducted by Tonegawa and a postdoctoral student at
MIT's Picower Institute for Learning and Memory and appears in this
week's edition of the Proceedings of the National Academy of
Sciences.
Font:
http://news.yahoo.com/s/afp/20070627/ts_alt_afp/ushealthautism_070627131143
<----back |
|