Brain-Cell Loss Found in Narcolepsy.For years, the Years, The the seven decades of Eleanor Pargiter’s life. [Br. Lit.: Benét, 1109] See : Time first line in Jerome M. Siegel's research-grant applications simply stated that the cause of narcolepsy narcolepsy, a sleep disorder characterized by excessive daytime sleepiness and recurring unwanted episodes of sleep ("sleep attacks"). People with narcolepsy may abruptly fall asleep at almost any time, including while talking, eating, or even walking. is unknown. Time for a new opening line. Following up on last year's discovery of gene mutations that cause forms of narcolepsy in dogs and mice (SN: 8/14/99, p. 100), Siegel and other investigators have now found that the human brand of this puzzling sleep disorder Sleep disorder Any condition that interferes with sleep. At least 84 have been identified, according to the American Sleep Disorders Association. Mentioned in: Insomnia, Night Terrors likely stems from the destruction of a small group of brain cells. "I don't think this degeneration is the cause of all human narcolepsy, but I'll bet I'll Bet was an NBC game show that aired from March 29 1965 to September 24 1965, that was created by Ralph Andrews. The host of this program was Jack Narz. It was a precursor of It's Your Bet, which aired with four different hosts during its four year run: Hal March, Tom it [accounts for] 90 percent plus, maybe even 99 percent plus," says Siegel of the University of California, Los Angeles UCLA comprises the College of Letters and Science (the primary undergraduate college), seven professional schools, and five professional Health Science schools. Since 2001, UCLA has enrolled over 33,000 total students, and that number is steadily rising. . His research team is one of two that identified the cell loss in the preserved brains of people who had narcolepsy when they were alive. Scientists speculate that they one day may cure narcolepsy or reduce its effects with drugs mimicking secretions of the missing nerve cells or even with braincell transplants. "This is really good news for human narcoleptics because now the pathway for therapy is clear," says Thomas Kilduff of SRI International (company) SRI International - One of the world's largest contract research firms. Founded in 1946 in conjuction with Stanford University as the Stanford Research Institute, they later became fully independent and were incorporated as a non-profit organisation under U.S. in Menlo Park, Calif. In 1880, French physician Jean Baptiste Edouard Gelineau coined the term narcolepsy, from the Greek for sleep attacks, to describe an uncontrollable and frequent need to sleep, even at inappropriate times. Today, physicians use narcolepsy to describe an often mocked but serious illness whose symptoms include sudden bouts of muscle weakness when the person is excited. The disorder afflicts an estimated 200,000 people in the United States. The new findings on narcolepsy's origins, which appear in the September NATURE MEDICINE and the September NEURON, were revealed several weeks ago at a retreat in Hawaii organized by Emmanuel Mignot of Stanford University. Mignot has managed a colony of narcoleptic dogs for many years and had promised his lab members a trip to Hawaii if they found the gene responsible for the disorder. Last year, Mignot's group reported that the dogs have a mutation in a gene encoding a cell-surface protein, or receptor, that allows nerve cells to respond to proteins called hypocretins. At the same time, scientists in Texas, who call the same proteins orexins, found that mice lacking the ability to make these neurotransmitters Neurotransmitters Chemicals within the nervous system that transmit information from or between nerve cells. Mentioned in: Bulimia Nervosa, Impotence, Pain, Withdrawal Syndromes develop symptoms similar to narcolepsy. Both results triggered a search for mutations in the human genes for the hypocretins and their receptors. Mignot's team, led by Juliette Faraco, quickly studied 74 narcolpetic people. Unexpectedly, they found just one mutation and that was in the rare case of a boy who showed symptoms of narcolepsy as an infant. The scientists, however, had other evidence that hypocretins are the key to the disorder: The neurotransmitters were missing in the cerebrospinal fluid cerebrospinal fluid (CSF) Clear, colourless liquid that surrounds the brain and spinal cord and fills the spaces in them. It helps support the brain, acts as a lubricant, maintains pressure in the skull, and cushions shocks. of most of the narcoleptics they studied. This suggested to Mignot and other researchers that those nerve cells that secrete secrete /se·crete/ (se-kret´) to elaborate and release a secretion. se·crete v. To generate and separate a substance from cells or bodily fluids. hypocretins (found primarily in the brain's hypothalamus hypothalamus (hī'pəthăl`əməs), an important supervisory center in the brain, rich in ganglia, nerve fibers, and synaptic connections. It is composed of several sections called nuclei, each of which controls a specific function. ) were missing or damaged in narcolepsy. Indeed, when Mignot's colleague Christelle Peyron studied brain tissue from two deceased narcoleptics, he was unable to find any nerve cells containing the genetic instructions to build the hypocretins. "It's almost like something came in with a scalpel and removed each of these cells," says Mignot, noting that brain cells that would normally be intertwined with the hypocretin-secreting cells were unscathed. At the Hawaii retreat, Siegel stunned his hosts by reporting almost the same findings: His group had also found a reduced number of hypocretin-making cells in the brains of deceased narcoleptics. "In the 25 years I've been in science, it was the most exciting meeting I've ever attended," says Kilduff, a former narcolepsy investigator who was part of the research team that discovered the hypocretins 2 years ago. Siegel's findings do differ somewhat from those of Mignot's team. In the four narcoleptic brains his team studied, 5 to 15 percent of the hypocretin-containing cells remained in place. Furthermore, Siegel and his colleagues documented evidence of gliosis, a proliferation of brain cells called glia, at the site of cell loss. Gliosis, which is often the result of inflammation within the brain, hints at a possible cause of the brain-cell loss in narcolepsy, says Siegel. For more than 2 decades, scientists have suspected that the disorder is the result of the body's immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. attacking its own tissue. The gliosis may be the aftermath of such an autoimmune attack, says Siegel. Mignot and his colleagues didn't detect gliosis or other signs of inflammation in the two brains they studied, but he agrees that an autoimmune attack is the most likely cause of the brain-cell loss. Determining what kills the hypocretin-making cells is crucial. Drugs that limit inflammation could fight narcolepsy if it indeed is an autoimmune disorder Autoimmune disorder A disorder caused by a reaction of an individual's immune system against the organs or tissues of the body. Autoimmune processes can have different results: slow destruction of a particular type of cell or tissue, stimulation of an organ into . Braincell transplants might also help, but if whatever kills the hypocretin-secreting cells continues even after all such cells are gone, transplants could be a waste of time. The first option for treating narcolepsy, predicts Kilduff, will be drugs that mimic the missing hypocretins. "To go from discovery of a neurotransmitter neurotransmitter, chemical that transmits information across the junction (synapse) that separates one nerve cell (neuron) from another nerve cell or a muscle. Neurotransmitters are stored in the nerve cell's bulbous end (axon). system ... to understanding the neuropathology neuropathology /neu·ro·pa·thol·o·gy/ (-pah-thol´ah-je) pathology of diseases of the nervous system. neu·ro·pa·thol·o·gy n. The study of diseases of the nervous system. of a disease in 30 months is probably unprecedented," he adds. "This is certainly the most important discovery for narcolepsy since its original description." In fact, Kilduff calls the new work the biggest discovery in sleep research in more than half a century. |
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