It turns out that diabetic mouse
models specifically present a superior response to the induction of a MS like
pathology. This had not been noted
before and since the current protocol fell a long ways short, this looks to
fill the gap in the necessary experimental work.
Are we actually closer to a cure? I do not think so, but we can expect better repair
and even perhaps a decent level of control as this tool allows far better work
to be done.
We have noted steady advances in all
areas of neurological disease over the past two decades, but really no awe-inspiring
breakthrough that simply made the disease be actually outright cured or as in
AIDs, come under management that allows a roughly normal life for the victim.
Diabetic Mice Provide a Surprising Breakthrough for Multiple Sclerosis
Research
Thursday, January 5, 2012
New laboratory approach could aid brain recovery, TAU research finds
In humans, active periods of
the debilitating disease Multiple Sclerosis (MS) can last for mere minutes or
extend to weeks at a time. They're caused by lesions in the brain that
develop, partly heal, and then recur. Research into a cure has been
difficult, because to date scientists have not been able to replicate these
brain recurring symptoms in laboratory mice. That's frustrating because these
lab animals, known as animal "models," are the primary tool for
research into the mechanisms and potential treatments for MS.
But now, by using a mouse model for diabetes
instead, Dr. Dan Frenkel of Tel Aviv University's Department of Neurobiology, working alongside Prof. Yaniv Assaf and Ph.D. student Hilit Levy, may provide a surprising breakthrough for
research into a cure for MS. The team has discovered that when mice with
Type 1 Diabetes are injected with myelin protein — the insulating material that
coats neurons — they experience the periods of relapsing and remitting
disability associated with brain lesions in humans. And for the first time,
they've been able to monitor this brain lesion process using magnetic resonance
imaging.
Dr. Frenkel believes his finding will lead to
the development of more effective treatments for MS. This research has been
published in Experimental
Neurology.
Tracking lesions in the brain
MS, an autoimmune disease in
which the immune system attacks in the brain and inhibits the transfer of
signals between neurons, often leads to devastating disabilities such as
blindness and paralysis. From its onset, the disease attacks in peaks which
become increasingly more severe until patients are permanently disabled.
Traditionally, mouse model
populations for MS research have been created by injecting mice with myelin
protein emulsified in bacteria. With the addition of bacteria, the immune
system mobilizes against the myelin, creating an MS-like autoimmune response.
However, the disease does not
present in this model as it does in human sufferers — most mouse models
experience a single inflammatory peak which leaves them with permanent symptoms
such paralysis of the legs. The damage can be detected in the spinal cord, but
not in the brain.
"We discovered that when
we gave them the same myelin protein injection, a mouse model that develops
Type 1 Diabetes will instead exhibit peaks of inflammatory responses similar to
those of chronic progressive MS, which relapses and remits," Dr. Frenkel
says. The mice also suffer from brain lesions in addition to spinal cord
damage, making them a more viable model for studying and developing treatment
for MS in humans.
Using a special MRI machine
for imaging small animals, the researchers followed each mouse model over the
course of several months, noting the activity of the brain and the development
of lesions corresponding to peaks of inflammation. The lesions and the
inflammation in the brain can be followed in the same way within these animals
as in a human with MS, says Dr. Frenkel. "Now, we can follow the different
stages that occur after the autoimmune response is already triggered, and look
for different targets that will not only help to enhance recovery, but prevent
further damage as well."
Turning temporary recovery into permanent repair
Currently, all FDA approved
drugs on the market to treat MS were developed using traditional mouse models.
Their focus is to delay the clinical signs of the disease caused by
autoimmunity, lengthening the time between attacks. So far, this method has led
to a temporary fix, but not a cure. With his alternative mouse model, Dr.
Frenkel says, researchers can gather more information on how the brain heals
after an attack, and start to develop treatment options that mimic this natural
recovery process — turning temporary recovery into permanent repair.
"With the use of magnetic resonance imaging, we can follow the
brain lesions within the mouse model, and characterize the process of
relapsing," Dr. Frenkel says. They have already begun to develop
treatments with initial success. “We are looking at ways to encourage the glia
cells — cells in the brain that support the neurons — to promote brain repair,"
he says.
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