Normally muscles contract in order to support the body, but in a rare condition known as cataplexy the body's muscles "fall asleep" and become involuntarily paralyzed. Cataplexy is incapacitating because it leaves the affected individual awake, but either fully or partially paralyzed. It is one of the bizarre symptoms of the sleep disorder called narcolepsy.
"Cataplexy is characterized by muscle paralysis during cognitive awareness, but we didn't understand how this happened until now, said John Peever of the University of Toronto's Department of Cell & Systems Biology. "We have shown that the neuro-degeneration of the brain cells that synthesize the chemical hypocretin causes the noradrenaline system to malfunction. When the norandrenaline system stops working properly, it fails to keep the motor and cognitive systems coupled. This results in cataplexy – the muscles fall asleep but the brain stays awake."
Peever and Christian Burgess, also of Cell & Systems Biology used hypocretin-knockout mice (mice that experience cataplexy), to demonstate that a dysfunctional relationship between the noradrenaline system and the hypocretin-producing system is behind cataplexy. The research was recently published in the journal Current Biology in September.
The scientists first established that mice experienced sudden loss of muscle tone during cataplectic episodes. They then administered drugs to systematically inhibit or activate a particular subset of adrenergic receptors, the targets of noradrenaline. They were able to reduce the incidence of cataplexy by 90 per cent by activating noradrenaline receptors. In contrast, they found that inhibiting the same receptors increased the incidence of cataplexy by 92 per cent. Their next step was to successfully link how these changes affect the brain cells that directly control muscles.
They found that noradrenaline is responsible for keeping the brain cells (motoneurons) and muscles active. But during cataplexy when muscle tone falls, noradrenaline levels disappear. This forces the muscle to relax and causes paralysis during cataplexy. Peever and Burgess found that restoring noradrenaline pre-empted cataplexy, confirming that the noradrenaline system plays a key role.
Explore further: Researchers find new clue to cause of human narcolepsy
Medical Xpress on facebook
Related Stories
Researchers find new clue to cause of human narcolepsy
Jul 03, 2013
(Medical Xpress)—In 2000, researchers at the UCLA Center for Sleep Research published findings showing that people suffering from narcolepsy, a disorder characterized by uncontrollable periods of deep sleep, had 90 percent ...
Genetic study confirms the immune system's role in narcolepsy
May 03, 2009
Scientists funded by the National Institutes of Health have identified a gene associated with narcolepsy, a disorder that causes disabling daytime sleepiness, sleep attacks, irresistible bouts of sleep that can strike at ...
Study identifies how muscles are paralyzed during sleep
Jul 11, 2012
Two powerful brain chemical systems work together to paralyze skeletal muscles during rapid eye movement (REM) sleep, according to new research in the July 11 issue of The Journal of Neuroscience. The finding may help scient ...
Narcolepsy study finds surprising increase in neurons that produce histamine
Jun 03, 2013
A new study provides surprising evidence that people with narcolepsy have an increased number of neurons that produce histamine, suggesting that histamine signaling may be a novel therapeutic target for this potentially disabling ...
Brain can learn to overcome sleep apnea, scientists find
Feb 01, 2011
New research from the University of Toronto could provide some restful nights for the 18 million North Americans who suffer from obstructive sleep apnea.
Recommended for you
New antiviral response discovered in mammals
40 minutes ago
Many viral infections are nipped in the bud by the innate immune response. This involves specific proteins within the infected cell that recognize the virus and trigger a signalling cascade – the so-called interferon response. ...
Newly discovered gene regulator could precisely target sickle cell disease
40 minutes ago
A research team from Dana-Farber/Boston Children's Cancer and Blood Disorders Center and other institutions has discovered a new genetic target for potential therapy of sickle cell disease (SCD). The target, called an enhancer, ...
Molecule produced during exercise boosts brain health
2 hours ago
Research has shown that exercise is good for the brain. Now investigators have identified a molecule called irisin that is produced in the brain during endurance exercise and has neuroprotective effects. Researchers were ...
Circadian rhythms in skin stem cells protect us against UV rays
2 hours ago
Human skin must cope with UV radiation from the sun and other harmful environmental factors that fluctuate in a circadian manner. A study published by Cell Press on October 10th in the journal Cell Stem Cell has revealed that h ...
How a ubiquitous herpesvirus sometimes leads to cancer
2 hours ago
You might not know it, but most of us are infected with the herpesvirus known as Epstein-Barr virus (EBV). For most of us, the virus will lead at worst to a case of infectious mononucleosis, but sometimes, ...
Eat more, weigh less: Worm study provides clues to better fat-loss therapies for humans
2 hours ago
Scientists at The Scripps Research Institute (TSRI) have discovered key details of a brain-to-body signaling circuit that enables roundworms to lose weight independently of food intake. The weight-loss circuit is activated ...
User comments
© Medical Xpress 2011-2013, Phys.org network
Normally muscles contract in order to support the body, but in a rare condition known as cataplexy the body's muscles "fall asleep" and become involuntarily paralyzed. Cataplexy is incapacitating because it leaves the affected individual awake, but either fully or partially paralyzed. It is one of the bizarre symptoms of the sleep disorder called narcolepsy.
"Cataplexy is characterized by muscle paralysis during cognitive awareness, but we didn't understand how this happened until now, said John Peever of the University of Toronto's Department of Cell & Systems Biology. "We have shown that the neuro-degeneration of the brain cells that synthesize the chemical hypocretin causes the noradrenaline system to malfunction. When the norandrenaline system stops working properly, it fails to keep the motor and cognitive systems coupled. This results in cataplexy – the muscles fall asleep but the brain stays awake."
Peever and Christian Burgess, also of Cell & Systems Biology used hypocretin-knockout mice (mice that experience cataplexy), to demonstate that a dysfunctional relationship between the noradrenaline system and the hypocretin-producing system is behind cataplexy. The research was recently published in the journal Current Biology in September.
The scientists first established that mice experienced sudden loss of muscle tone during cataplectic episodes. They then administered drugs to systematically inhibit or activate a particular subset of adrenergic receptors, the targets of noradrenaline. They were able to reduce the incidence of cataplexy by 90 per cent by activating noradrenaline receptors. In contrast, they found that inhibiting the same receptors increased the incidence of cataplexy by 92 per cent. Their next step was to successfully link how these changes affect the brain cells that directly control muscles.
They found that noradrenaline is responsible for keeping the brain cells (motoneurons) and muscles active. But during cataplexy when muscle tone falls, noradrenaline levels disappear. This forces the muscle to relax and causes paralysis during cataplexy. Peever and Burgess found that restoring noradrenaline pre-empted cataplexy, confirming that the noradrenaline system plays a key role.
Explore further: Researchers find new clue to cause of human narcolepsy
Medical Xpress on facebook
Related Stories
Researchers find new clue to cause of human narcolepsy
Jul 03, 2013
(Medical Xpress)—In 2000, researchers at the UCLA Center for Sleep Research published findings showing that people suffering from narcolepsy, a disorder characterized by uncontrollable periods of deep sleep, had 90 percent ...
Genetic study confirms the immune system's role in narcolepsy
May 03, 2009
Scientists funded by the National Institutes of Health have identified a gene associated with narcolepsy, a disorder that causes disabling daytime sleepiness, sleep attacks, irresistible bouts of sleep that can strike at ...
Study identifies how muscles are paralyzed during sleep
Jul 11, 2012
Two powerful brain chemical systems work together to paralyze skeletal muscles during rapid eye movement (REM) sleep, according to new research in the July 11 issue of The Journal of Neuroscience. The finding may help scient ...
Narcolepsy study finds surprising increase in neurons that produce histamine
Jun 03, 2013
A new study provides surprising evidence that people with narcolepsy have an increased number of neurons that produce histamine, suggesting that histamine signaling may be a novel therapeutic target for this potentially disabling ...
Brain can learn to overcome sleep apnea, scientists find
Feb 01, 2011
New research from the University of Toronto could provide some restful nights for the 18 million North Americans who suffer from obstructive sleep apnea.
Recommended for you
New antiviral response discovered in mammals
40 minutes ago
Many viral infections are nipped in the bud by the innate immune response. This involves specific proteins within the infected cell that recognize the virus and trigger a signalling cascade – the so-called interferon response. ...
Newly discovered gene regulator could precisely target sickle cell disease
40 minutes ago
A research team from Dana-Farber/Boston Children's Cancer and Blood Disorders Center and other institutions has discovered a new genetic target for potential therapy of sickle cell disease (SCD). The target, called an enhancer, ...
Molecule produced during exercise boosts brain health
2 hours ago
Research has shown that exercise is good for the brain. Now investigators have identified a molecule called irisin that is produced in the brain during endurance exercise and has neuroprotective effects. Researchers were ...
Circadian rhythms in skin stem cells protect us against UV rays
2 hours ago
Human skin must cope with UV radiation from the sun and other harmful environmental factors that fluctuate in a circadian manner. A study published by Cell Press on October 10th in the journal Cell Stem Cell has revealed that h ...
How a ubiquitous herpesvirus sometimes leads to cancer
2 hours ago
You might not know it, but most of us are infected with the herpesvirus known as Epstein-Barr virus (EBV). For most of us, the virus will lead at worst to a case of infectious mononucleosis, but sometimes, ...
Eat more, weigh less: Worm study provides clues to better fat-loss therapies for humans
2 hours ago
Scientists at The Scripps Research Institute (TSRI) have discovered key details of a brain-to-body signaling circuit that enables roundworms to lose weight independently of food intake. The weight-loss circuit is activated ...
User comments
© Medical Xpress 2011-2013, Phys.org network
0 comments:
Post a Comment