I recently came across the
following information about more recent research about Multiple Sclerosis mylein, that
there is an enzyme that when reduced can slow the progression of Multiple Sclerosis
in mice.
In the article entitled "Halting an Enzyme Can Slow Multiple Sclerosis in Mice" in Science Daily (Apr. 30, 2012) - Researchers studying Multiple Sclerosis (MS) have long been looking for the specific molecules in the body that cause lesions in myelin, the fatty, insulating cells that sheathe the nerves.
In the article entitled "Halting an Enzyme Can Slow Multiple Sclerosis in Mice" in Science Daily (Apr. 30, 2012) - Researchers studying Multiple Sclerosis (MS) have long been looking for the specific molecules in the body that cause lesions in myelin, the fatty, insulating cells that sheathe the nerves.
Nearly a decade ago, a group at Mayo Clinic found a
new enzyme, called Kallikrein 6, which is present in abundance in MS lesions
and blood samples and is associated with inflammation and demyelination in
other neurodegenerative diseases. In a study published this month in Brain
Pathology, the same group found that an antibody that neutralizes Kallikrein 6
is capable of staving off MS in mice.
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In the Science Daily article it went on to also say...We were able to slow the course of disease through early chronic stages, both in the brain and spinal cord," says lead author Isobel Scarisbrick, Ph.D., of the Mayo Clinic Department of Physical Medicine and Rehabilitation.
Researchers looked at mice representing a viral model of MS. The model is based on the theory that infection with viral infection early in life results in an eventual abnormal immune response in the brain and spinal cord.
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In the Science Daily article it went on to also say...We were able to slow the course of disease through early chronic stages, both in the brain and spinal cord," says lead author Isobel Scarisbrick, Ph.D., of the Mayo Clinic Department of Physical Medicine and Rehabilitation.
Researchers looked at mice representing a viral model of MS. The model is based on the theory that infection with viral infection early in life results in an eventual abnormal immune response in the brain and spinal cord.
One week after being infected with a virus, the mice showed elevated levels of Kallikrein 6 enzyme in the brain and spinal cord.
However, when researchers treated mice to produce an antibody capable of
blocking and neutralizing the enzyme, they saw a decrease in diseases effecting
the brain and spinal cord, including demyelination. The Kallikrein 6
neutralizing antibody had reduced inflammatory white blood cells and slowed the
depletion of myelin basic protein, a key component of the myelin sheath.
The findings in the MS model have implications for other conditions affecting the brain and spinal cord.
The findings in the MS model have implications for other conditions affecting the brain and spinal cord.
The group has previously
shown that the Kallikrein 6 enzyme, produced by immune cells, is elevated in
spinal cord injury, while other studies have shown it to be elevated in animal
models of stroke and patients with post-polio syndrome.
"These findings suggest Kallikrein 6 plays a role in the inflammatory and demyelinating processes that accompany many types of neurological conditions," says Dr. Scarisbrick.
"These findings suggest Kallikrein 6 plays a role in the inflammatory and demyelinating processes that accompany many types of neurological conditions," says Dr. Scarisbrick.
"In the early
chronic stages of some neurological diseases, Kallikrein 6 may represent a good
molecule to target with drugs capable of neutralizing its effects."
Other authors include Hyesook Yoon, Ph.D., Michael Panos, Nadya Larson, Ph.D., and Moses Rodriguez, M.D., all of Mayo Clinic; and Sachiko I. Blaber and Michael Blaber, Ph.D., of Florida State University.
Other authors include Hyesook Yoon, Ph.D., Michael Panos, Nadya Larson, Ph.D., and Moses Rodriguez, M.D., all of Mayo Clinic; and Sachiko I. Blaber and Michael Blaber, Ph.D., of Florida State University.
The
study was funded by the National Institutes of Health, the Christopher and Dana
Reeves Paralysis Foundation, and the National Multiple Sclerosis Society.
The research in this area may
show some promise in developing a therapy or treatment that may be able to help
reduce the Multiple Sclerosis mylein effects and damage, as well as the severe effects of Multiple Sclerosis on the body. Time will tell.