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Researchers alleviate symptoms of Rett syndrome in mice
February 02, 2006Rett syndrome is a debilitating neurological disorder occurring primarily in girls. While some existing therapies might ease particular symptoms of the condition, there is no current way to address the syndrome at a molecular level. Now, researchers at Whitehead Institute for Biomedical Research, in collaboration with scientists at Brandeis University, have dramatically reduced certain manifestations of Rett Syndrome in mice, marking a clear path in which to explore possible therapies for people.
"This is the first time we've successfully reduced the awful symptoms of Rett syndrome using transgenic techniques," says Whitehead Member Rudolf Jaenisch, senior author of the paper that will be published February 2 in the journal Neuron. "Once we understand the molecular mechanisms of the disease we may be able to design rational strategies that may eventually be useful for the improving the condition in people."
Rett syndrome, whose incidence is roughly 1 in 15,000, is caused by a defective gene on the X chromosome. Most boys with Rett syndrome die before birth. Girls with Rett develop normally until about six to eighteen months, when things begin to go terribly wrong. Their health deteriorates, and they begin to show symptoms such as loss of speech, loss of voluntary motor control, constant hand wringing and seizures.
In March 2001, researchers in the Jaenisch lab published a paper in Nature Genetics describing how they had created the first mouse with Rett syndrome by disabling a gene called MeCP2. Normally, MeCP2 regulates the activities of other genes, particularly those in the brain. When it is shut off completely, the mice become lethargic and a major class of cortical neurons became far less active-classic symptoms of Rett.
In the fall of 2003, Jaenisch and researchers at Children's Hospital Boston reported in the journal Science that MeCP2 interacted with a neuronal gene called Bdnf, a gene that's highly active in infants age 6 to 18 months-the same age at which Rett symptoms first appear. But since this study was conducted using explanted neurons in a laboratory dish, researchers still had many unanswered questions about the role of Bdnf in Rett disease progression in mice.
Qiang Chang, a postdoctoral scientist in the Jaenisch lab, began to explore this issue by studying the population of the MeCP2 knock-out mice that Jaenisch had reported on in 2001. His first finding, gleaned through analyzing brain tissue, was not altogether unexpected: Mice without MeCP2 also showed low expression levels of the BDNF protein. In fact, Chang discovered that when he knocked out Bdnf altogether in normal mice, symptoms similar to those observed in the Rett mice occurred. But to discover whether or not these finding might have therapeutic relevance, Chang needed to engage in some complex genetic tinkering.
Chang inserted an additional Bdnf gene into the early embryos of the MeCP2 knock-out mice. He designed the gene so that it would be free of all normal regulatory mechanisms, in effect ensuring that it remains in a state of constant activity. In other words, while MeCP2 was permanently shut off, the new Bdnf was permanently switched on, and at maximum capacity.
This time, the findings were striking.
With BDNF hyper-expressed, Chang witnessed a drastic reduction in certain Rett symptoms. The mice were far less lethargic, and activity in the cortical neurons increased. These mice also had slightly larger brains, a longer lifespan and later onset of disease than the other Rett mice.
"The next step," says Chang, "is to figure out exactly why this is happening. Exactly how much BDNF expression in the mouse brain do you need to achieve these results, and where does it occur?"
"Knowing more about the process and about the precise areas of the brain that are affected will give us options for exploring future therapies," explains Jaenisch, who is also a professor of biology at MIT.
"We're encouraged by these results," says Monica Coenraads, co-founder and director of research for Rett Syndrome Research Foundation, who helped support this work. "Should this prove to be therapeutically relevant, we look forward to participating in the transition from lab to clinic."
Whitehead Institute for Biomedical Research
In March 2001, researchers in the Jaenisch lab published a paper in Nature Genetics describing how they had created the first mouse with Rett syndrome by disabling a gene called MeCP2. Normally, MeCP2 regulates the activities of other genes, particularly those in the brain. When it is shut off completely, the mice become lethargic and a major class of cortical neurons became far less active-classic symptoms of Rett.
In the fall of 2003, Jaenisch and researchers at Children's Hospital Boston reported in the journal Science that MeCP2 interacted with a neuronal gene called Bdnf, a gene that's highly active in infants age 6 to 18 months-the same age at which Rett symptoms first appear. But since this study was conducted using explanted neurons in a laboratory dish, researchers still had many unanswered questions about the role of Bdnf in Rett disease progression in mice.
Qiang Chang, a postdoctoral scientist in the Jaenisch lab, began to explore this issue by studying the population of the MeCP2 knock-out mice that Jaenisch had reported on in 2001. His first finding, gleaned through analyzing brain tissue, was not altogether unexpected: Mice without MeCP2 also showed low expression levels of the BDNF protein. In fact, Chang discovered that when he knocked out Bdnf altogether in normal mice, symptoms similar to those observed in the Rett mice occurred. But to discover whether or not these finding might have therapeutic relevance, Chang needed to engage in some complex genetic tinkering.
Chang inserted an additional Bdnf gene into the early embryos of the MeCP2 knock-out mice. He designed the gene so that it would be free of all normal regulatory mechanisms, in effect ensuring that it remains in a state of constant activity. In other words, while MeCP2 was permanently shut off, the new Bdnf was permanently switched on, and at maximum capacity.
This time, the findings were striking.
With BDNF hyper-expressed, Chang witnessed a drastic reduction in certain Rett symptoms. The mice were far less lethargic, and activity in the cortical neurons increased. These mice also had slightly larger brains, a longer lifespan and later onset of disease than the other Rett mice.
"The next step," says Chang, "is to figure out exactly why this is happening. Exactly how much BDNF expression in the mouse brain do you need to achieve these results, and where does it occur?"
"Knowing more about the process and about the precise areas of the brain that are affected will give us options for exploring future therapies," explains Jaenisch, who is also a professor of biology at MIT.
"We're encouraged by these results," says Monica Coenraads, co-founder and director of research for Rett Syndrome Research Foundation, who helped support this work. "Should this prove to be therapeutically relevant, we look forward to participating in the transition from lab to clinic."
Whitehead Institute for Biomedical Research
Rett Syndrome Current Events and Rett Syndrome News RSSUnderstanding mental illness through gene-environment interactions
Biological Psychiatry, published by Elsevier, is very pleased to present a special section of its February 1st issue devoted to fundamental new insights into epigenetics, a field of research devoted to understanding how the environment can produce long-lasting or even heritable changes in gene function without altering the DNA sequence.
RSRT Advisor Makes Significant Discovery with Potential for Novel Therapeutic Approaches
A paper published online today in Nature Neuroscience reveals the presence of methyl CpG binding protein 2 (MeCP2) in glia. MeCP2 is a protein associated with a variety of neurological disorders, including Rett Syndrome, the most physically disabling of the autism spectrum disorders.
Autism Consortium members publish in PNAS: Mechanism, treatment for Rett syndrome -- top cause autism girls
The Autism Consortium, an innovative research, clinical and family collaboration dedicated to radically accelerating research and enhancing clinical care for autism spectrum disorders (ASDs), announced today that several Consortium members published a paper with significance for clinical trials in autism in the Proceedings of the National Academy of Sciences.
People with autism make more rational decisions, study shows
People with autism-related disorders are less likely to make irrational decisions, and are less influenced by gut instincts, according to research funded by the Wellcome Trust. The study adds to the growing body of research implicating altered emotional processing in autism.
Researchers find differences in swallowing mechanism of Rett syndrome patients
Researchers at Wake Forest University Baptist Medical Center have found that the reflux and swallowing problems that are common symptoms in patients with Rett syndrome and other neurological impairments, may be caused by a different mechanism than they are in healthy individuals.
Researchers link early stem cell mutation to autism
In a breakthrough scientific study published today in the Proceedings of the National Academy of Sciences, scientists at the Burnham Institute for Medical Research have shown that neural stem cell development may be linked to Autism.
Mental and physical exercise improves genetic mental impairment
Australian scientists have shown that mental and physical exercise can improve coordination and movement problems in Rett syndrome, a devastating genetic brain development disorder that primarily affects females.
Genetic analysis reveals range of Rett syndrome
The first comprehensive analysis of the clinical effects of genetic mutations involved in Rett syndrome will enable affected families to receive a more accurate indication of their child's prognosis.
Rett syndrome research reveals high fracture risk
Researchers at Perth's Telethon Institute for Child Health Research have found that girls and young women with Rett syndrome are nearly four times more likely to suffer a fracture.
Study finds first-ever genetic animal model of autism
By introducing a gene mutation in mice, investigators have created what they believe to be the first accurate model of autism not associated with a broader neuropsychiatric syndrome, according to research presented at the American College of Neuropsychopharmacology annual meeting.
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Understanding Rett Syndrome: A Practical Guide for Parents, Teachers, And Therapists by Barbro Lindberg (Author) The brand new edition of this unique book describes the difficulties and challenges of girls and women with Rett Syndrome, and proposes solutions that can help them in everyday life. Written from an educational perspective, and based on extensive practical, real-life experience, it also takes into consideration living conditions as a whole to provide practical and effective help for all those involved in the care of those with Rett Syndrome. Rett Syndrome is a severe neurological disorder with no cure affecting 1 out of every 10,000-15,000 female births worldwide. It is now known to result from a chromosomal defect that leads to problems such as mental retardation, serious motor handicaps, epileptic seizures, and difficulties with communication. This syndrome is found only in girls, and... |
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Keeping Katherine: A Mother's Journey to Acceptance by Susan Zimmermann (Author) Katherine was a beautiful, perfect baby for the first year of her life. Then, without warning, she changed forever. She started crossing her eyes. She cried at night for hours at a time and could not be soothed. She stopped saying words, stopped crawling, and began what would become a lifelong habit of wringing her hands. Hospital visits and consultations with doctors offered no answers to the mystery. Soon Katherine slipped away to a place her mother and father could never reach. In Keeping Katherine, Susan Zimmermann tells the story of her life with her daughter Katherine, who has Rett syndrome, a devastating neurological disorder. Writing with honesty and candor, Zimmermann chronicles her personal journey to accept the changed dynamic of her family; the strain of caring for a... |
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Rett Syndrome Awareness Ribbon Mouse Pad by MyHeritageWear.com The Rett Syndrome Ribbon proudly displayed on a mouse pad. There is no better way to achieve awareness for the meaning of the Rett Syndrome Ribbon than to display it on your mouse pad for everyone to see. The mouse pad measures at 9.25 x 7.75, it is machine washable, and the colors will not fade or run. Start gaining awareness today by presenting your Rett Syndrome Ribbon mouse pad at work or at home. It is certain to keep your mouse rolling in style all while gaining support and awareness! |
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Your Daughter Has Been Diagnosed With Rett Syndrome by Kim Isaac Greenblatt (Author) This book is for parents who just received a diagnosis of Rett Syndrome, their relatives, concerned friends and interested medical professionals. The book explains first hand reactions to the initial diagnosis as well as some coping mechanisms and suggestions for life strategies. Part of all sales go to Rett Syndrome research. Kim Isaac Greenblatt currently lives in West Hills, California. |
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Pathways to Learning in Rett Syndrome by Lewis (Author) Offering accessible advice on the special educational needs of girls with Rett syndrome, this volume aims to assist teachers in developing a working knowledge of the syndrome and suggests particular strategies in planning a curriculum which may help overcome the specific difficulties within the diagnosis. For parents, the book provides a picture of the special school system in this country and the educational implications for their daughters. It should also be of interest to those working with pupils with a more general type of profound learning disability. |
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The Rett Syndrome handbook: In words you can understand from those who understand by Kathy Hunter (Author) The Purpose of this publication is to circulate the most up to date information on Rett Syndrome. In words you can understand from those who understand | |
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Rett Syndrome Medical Guide by Qontro Medical Guides (Author) The Rett Syndrome Medical Guide is a publication which has been designed to better help readers understand Rett Syndrome. This Qontro Medical Guide has been designed with the reader in mind, and is a useful information source for readers at all levels looking to learn more about Rett Syndrome. The Rett Syndrome Medical Guide is highly recommended for those interested in understanding and learning more about Rett Syndrome. |
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Rett Syndrome - Clinical and Biological Aspects: Studies on 130 Swedish Females (Clinics in Developmental Medicine (Mac Keith Press)) by Bengt Hagberg (Editor) This volume provides a detailed survey of the clinical development of Rett syndrome from its earliest manifestations in childhood to adulthood. The volume surveys the developmental profile of the disease, its characteristic cluster of symptoms and signs, and categorizes the four main clinical stages in the development of motor disability. Particular emphasis is given to Rett syndrome variants and other clinical conditions which manifest themselves in a similar way to Rett syndrome. The development of scoliosis with age and disease stage is analysed. The neurophysiologic, neuropathologic and neurochemical characteristics are also examined. In addition, the volume looks at the molecular genetics of the syndrome, drug treatment and possible future developments. |
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The Rett Syndrome Handbook by Kathy Hunter (Author) | |
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The Official Parent's Sourcebook on Rett Syndrome: A Revised and Updated Directory for the Internet Age by Icon Health Publications (Author) This book has been created for parents who have decided to make education and research an integral part of the treatment process. Although it also gives information useful to doctors, caregivers and other health professionals, it tells parents where and how to look for information covering virtually all topics related to rett syndrome (also Autism, Dementia, Ataxia, and Loss of Purposeful Hand Use), from the essentials to the most advanced areas of research. The title of this book includes the word official. This reflects the fact that the sourcebook draws from public, academic, government, and peer-reviewed research. Selected readings from various agencies are reproduced to give you some of the latest official information available to date on rett syndrome. Given parents' increasing... |
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