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Clinical tests begin on medication to correct Fragile X defect
November 03, 2009NIH-supported scientists at Seaside Therapeutics in Cambridge, Mass., are beginning a clinical trial of a potential medication designed to correct a central neurochemical defect underlying Fragile X syndrome, the most common inherited cause of intellectual disability. There has to date been no medication that could alter the disorder's neurologic abnormalities. The study will evaluate safety, tolerability, and optimal dosage in healthy volunteers.
The work is the outcome of basic research that traced how an error in the fragile X mental retardation gene (FMR1) leads to changes in brain connections, called synapses. The changes in turn appear to be the mechanism for learning deficits in Fragile X syndrome. The new trial tests Seaside Therapeutics' novel compound, STX107, that selectively and potently targets the synaptic defect.
Thomas R. Insel, M.D., director of the National Institute of Mental Health, said, "This project is the culmination of years of fundamental research, first identifying the genetic mutation and later deciphering the biochemical consequences of this mutation. Now, with the initiation of this first clinical study, we move one step closer to understanding how this novel candidate may play a critical role in improving the lives of individuals with Fragile X Syndrome."
Randall Carpenter, M.D., president and chief executive officer of Seaside Therapeutics, and Mark Bear, Ph.D., Seaside's scientific founder, are leading the research. Dr. Bear is a Howard Hughes Medical Institute investigator and a professor of neuroscience at the Massachusetts Institute of Technology, Cambridge, Mass.
The National Institute of Mental Health, the Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), and the National Institute of Neurological Disorders and Stroke (NINDS) have provided grant support. Private foundations providing funding include the advocacy groups Autism Speaks and FRAXA Research Foundation.
Fragile X syndrome is the most common inherited cause of intellectual disability, affecting an estimated 1 in 4,000 males and 1 in 6,000 females. The syndrome causes a range of developmental problems, including learning disabilities and cognitive impairment. People with Fragile X syndrome may have anxiety and attention deficit hyperactivity disorder. About one-third of males with Fragile X syndrome also have autism or autistic-like behavior that affects communication and social interaction. Usually, males, who have only a single X chromosome, are more severely affected than females.
People with Fragile X have DNA mutations in the FMR1 gene that, in effect, turn off the gene. Research in recent years by Dr. Bear and colleagues has identified the molecular consequences of this silencing of FMR1. Normally, the protein product of the FMR1 gene acts to dampen the synthesis of proteins at synapses that are stimulated via a specific class of receptors on brain cells--metabotropic glutamate receptors (mGluRs). Without the brake provided by FMR protein, synaptic protein synthesis is excessive and connections do not develop normally.
This basic research provided the basis on which to develop medications that could correct the defect.
The current study will focus on a compound, designated STX107, that selectively inhibits one type of mGluR receptor, mGluR5. Evidence in mice with Fragile X-like symptoms suggests that reducing levels of mGluR5 can restore normal synaptic protein synthesis and improve function.
The initial phase 1 study of STX107 will involve healthy volunteers. If results suggest that the medication is safe and tolerable, the study will progress to a phase 2 test of dosage and efficacy in adults with Fragile X syndrome. If STX107 shows promise in adults, the compound will be assessed for pediatric safety (with funding from the Best Pharmaceuticals for Children Act [http://bpca.nichd.nih.gov/about/index.cfm] through NICHD) prior to initiating clinical trials in children.
NIH/National Institute of Mental Health
Randall Carpenter, M.D., president and chief executive officer of Seaside Therapeutics, and Mark Bear, Ph.D., Seaside's scientific founder, are leading the research. Dr. Bear is a Howard Hughes Medical Institute investigator and a professor of neuroscience at the Massachusetts Institute of Technology, Cambridge, Mass.
The National Institute of Mental Health, the Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), and the National Institute of Neurological Disorders and Stroke (NINDS) have provided grant support. Private foundations providing funding include the advocacy groups Autism Speaks and FRAXA Research Foundation.
Fragile X syndrome is the most common inherited cause of intellectual disability, affecting an estimated 1 in 4,000 males and 1 in 6,000 females. The syndrome causes a range of developmental problems, including learning disabilities and cognitive impairment. People with Fragile X syndrome may have anxiety and attention deficit hyperactivity disorder. About one-third of males with Fragile X syndrome also have autism or autistic-like behavior that affects communication and social interaction. Usually, males, who have only a single X chromosome, are more severely affected than females.
People with Fragile X have DNA mutations in the FMR1 gene that, in effect, turn off the gene. Research in recent years by Dr. Bear and colleagues has identified the molecular consequences of this silencing of FMR1. Normally, the protein product of the FMR1 gene acts to dampen the synthesis of proteins at synapses that are stimulated via a specific class of receptors on brain cells--metabotropic glutamate receptors (mGluRs). Without the brake provided by FMR protein, synaptic protein synthesis is excessive and connections do not develop normally.
This basic research provided the basis on which to develop medications that could correct the defect.
The current study will focus on a compound, designated STX107, that selectively inhibits one type of mGluR receptor, mGluR5. Evidence in mice with Fragile X-like symptoms suggests that reducing levels of mGluR5 can restore normal synaptic protein synthesis and improve function.
The initial phase 1 study of STX107 will involve healthy volunteers. If results suggest that the medication is safe and tolerable, the study will progress to a phase 2 test of dosage and efficacy in adults with Fragile X syndrome. If STX107 shows promise in adults, the compound will be assessed for pediatric safety (with funding from the Best Pharmaceuticals for Children Act [http://bpca.nichd.nih.gov/about/index.cfm] through NICHD) prior to initiating clinical trials in children.
NIH/National Institute of Mental Health
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Melatonin is an effective treatment for sleep problems in children with autism
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Research breakthrough targets genetic diseases
A cure for debilitating genetic diseases such as Huntington's disease, Friedreich's ataxia and Fragile X syndrome is a step closer to reality, thanks to a recent scientific breakthrough.
Biologists discover link between CGG repeats in DNA and neurological disorders
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Promising new drug being evaluated as possible treatment option for fragile X syndrome
A pilot trial of an oral drug therapy called fenobam has shown promising initial results and could be a potential new treatment option for adult patients with Fragile X syndrome (FXS).
M.I.N.D. Institute researchers call for fragile X testing throughout the lifespan
Writing in this week's Journal of the American Medical Association, UC Davis M.I.N.D. Institute researchers urge physicians to test for mutations of the fragile X gene in patients of all ages.
UCR researchers propose minocycline as a promising drug for patients with Fragile X syndrome
A UC Riverside-led team of biomedical scientists has found that a readily available drug called minocycline, used widely to treat acne and skin infections, can be used to treat Fragile X syndrome, the most common inherited cause of mental impairment and the most common cause of autism.
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Children with Fragile X Syndrome: A Parents' Guide by Jayne Dixon Weber (Editor) Fragile X syndrome is believed to be the most common genetic cause of mental retardation, even more common than Down syndrome. It can result in a wide range of developmental delays, learning disabilities, and physical characteristics-which all tend to be more pronounced in boys than in girls. At last, there is a comprehensive book on fragile X syndrome for parents. The first and only book of its kind, Children with Fragile X Syndrome provides a complete, sensitive introduction to fragile X syndrome, an inherited, genetic condition caused by a mutation on the X chromosome. This new guide is written by renowned professionals and experienced parents, who offer an in-depth look at the issues and concerns affecting children and their families. It covers: diagnosis; parental... |
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Fragile X Syndrome: Diagnosis, Treatment, and Research (Johns Hopkins Series in Contemporary Medicine and Public Health) by Randi Jenssen Hagerman MD (Editor), Paul J. Hagerman MD PhD (Editor) Univ. of California, Davis. Text discusses the clinical approach to diagnosing the disorder, supported by the latest research in epidemiology, molecular biology and genetics, and neuropsychology. Also presents data on treatment: genetic counseling, pharmacotherapy, intervention, and gene therapy. Previous edition: c1996. Softcover, hardcover also available. |
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ABC News Nightline Fragile X Syndrome (2 DVD set) Michael and Lisa Kelly decided some years ago that they wanted to work together and work at home so they could spend more time with their two boys, Dillon and Ryan. The Kelley's older son Dillon has "Fragile X syndrome," a disease which manifests itself as a form of mental retardation. According to the National Fragile X Foundation, Fragile X (FXS) is, "the most common cause of inherited mental impairment. This impairment can range from learning disabilities to more severe cognitive or intellectual disabilities. Symptoms also can include characteristic physical and behavioral features and delays in speech and language development." ABC News introduces you to this remarkable family coping with a child with FXS while trying to give both of their sons normal and happy lives. Anchor:... |
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Fragile X Syndrome: A Guide for Teachers by Suzann Saunders (Author) Fragile X Syndrome is thought to be the most common inherited cause of learning difficulties. However many people have never heard of it and those who have, including many of the professionals who work with those affected by it, have little knowledge or understanding of the condition. This book brings up to date research with information and advice from teachers who are discovering, first hand, the best ways of educating children with Fragile X. It is much needed support and advice that will help teachers to understand the child with Fragile X and encourage maximum educational progress. / While the book is aimed at teachers, it is also an excellent resource for parents, therapists and any professional working with a child who has Fragile X. |
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Supporting Children with Fragile X Syndrome by Learning Servic (Author) Off-the-shelf support containing all the vital information practitioners need to know about Fragile X Syndrome, this book includes: * Definition of Fragile X Syndrome and its educational implications * Ideas on how to improve access to the curriculum * Advice on how to manage support staff * Guidance on coordinating home and school liaison |
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Fragile X Fragile Hope: Finding Joy In Parenting A Child with Special Needs by Elizabeth Griffin (Author) Elizabeth Griffin's son Zack has fragile X syndrome-the most common known cause of inherited mental impairment-and is among the 20 percent of people with fragile X who have autism. Whether you are a parent of a child with special needs or you struggle with unresolved grief, chronic stress, or depression, "Fragile X, Fragile Hope" shows without a doubt that you can survive, and more than survive, you can find your way back to a joy-filled life. |
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Speech & Language Development & Intervention in Down Syndrome & Fragile X Syndrome (Communication and Language Intervention Series) by Joanne E. (Author), Ph.D. Roberts (Author), Joanne E. (Editor), Ph.D. Roberts (Editor), Robin S. Chapman (Editor), Steven F. Warren (Editor) This book presents the latest research on speech and language development and relevant assessment and intervention for individuals who have Fragile X Syndrome (FXS) or Down Syndrome (DS). The book reviews the current state of knowledge on both syndromes across the lifespan. |
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Educating Children with Fragile X Syndrome: A Multi-Professional View by D. Dew-HugHes (Author) Featuring contributions from professionals working and researching in a wide variety of fields, the book provides invaluable information, support, and guidance on educating a child with Fragile X. |
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