Research Offers New Clue To Cause Of Human Narcolepsy
Subsequent work by this group and others demonstrated that hypocretin is an arousing chemical that keeps us awake and elevates both mood and alertness; the death of hypocretin cells, the researchers said, helps explain the sleepiness of narcolepsy. But it has remained unclear what kills these cells.
Now the same UCLA team reports that an excess of another brain cell type - this one containing histamine - may be the cause of the loss of hypocretin cells in human narcoleptics.
UCLA professor of psychiatry Jerome Siegel and colleagues report in the current online edition of the journal Annals of Neurology that people with the disorder have nearly 65 percent more brain cells containing the chemical histamine. Their research suggests that this excess of histamine cells causes the loss of hypocretin cells in human narcoleptics.
Narcolepsy is a chronic disorder of the central nervous system characterized by the brain's inability to control sleep-wake cycles. It causes sudden bouts of sleep and is often accompanied by cataplexy, an abrupt loss of voluntary muscle tone that can cause a person to collapse. According to the National Institutes of Health, narcolepsy is thought to affect roughly one in every 3,000 Americans. Currently, there is no cure.
Histamine is a body chemical that works as part of the immune system to kill invading cells. When the immune system goes awry, histamine can act on a person's eyes, nose, throat, lungs, skin or gastrointestinal tract, causing the symptoms of allergy that many people are familiar with. But histamine is also present in a type of brain cell.
For the study, researchers examined five narcoleptic brains and seven control brains from human cadavers. Prior to death, all the narcoleptics had been diagnosed by a sleep disorder center as having narcolepsy with cataplexy. These brains were also compared with the brains of three narcoleptic mouse models and to the brains of narcoleptic dogs.
The researchers found that the humans with narcolepsy had an average of 64 percent more histamine neurons. Interestingly, the team did not see an increased number of these cells in any of the animal models of narcolepsy.
"Humans and animals with narcolepsy share the same symptoms, but we did not see the histamine cell changes we saw in humans in the animal models we examined," said Siegel, who directs the Center for Sleep Research at the UCLA Semel Institute for Neuroscience and Human Behavior and is the senior author of the research. "We know that narcolepsy in the animal models is caused by engineered genetic changes that block hypocretin function. However, in humans, we did not know why the hypocretin cells die.
"Our current findings indicate that the increase of histamine cells that we see in human narcolepsy may cause the loss of hypocretin cells," he said.
The study results may also further our understanding of brain plasticity, Siegel noted. While scientists have known of the existence of neurogenesis - the process by which the brain is populated with new neurons - it was thought to function mainly to replace existing cells that had died.
"This paper shows for the first time that neuronal numbers can increase greatly and not just serve as replacement cells," he said. "In the current example, this appears to be pathological with the destruction of hypocretin, but in other circumstances, it may underlie recovery and learning and open new routes to treatment of a number of neurological disorders."
Siegel is also the chief of neurobiology research at the Sepulveda Veterans Affairs Medical Center in Mission Hills, Calif. Other authors on the study included Joshi John (first author), Thomas C. Thannickal, Ronald McGregor, Lalini Ramanathan and Carly Stone of UCLA; Marcia Cornford of Harbor–UCLA Medical Center; Hiroshi Ohtsu of Japan's Tohoku University; Seiji Nishino and Noriaki Sakai of Stanford University; and Akhiro Yamanaka of Japan's Nagoya University.
Funding for the study was provided by the Medical Research Service of the U.S. Department of Veterans Affairs (grants NS14610 and MH064109).
The UCLA Department of Psychiatry and Biobehavioral Sciences is the home within the David Geffen School of Medicine at UCLA for faculty who are experts in the origins and treatment of disorders of complex human behavior. The department is part of the Semel Institute for Neuroscience and Human Behavior at UCLA, a world-leading interdisciplinary research and education institute devoted to the understanding of complex human behavior and the causes and consequences of neuropsychiatric disorders.
University of California - Los Angeles
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