 |
|
Chemical chaperone could open door to treatment of neurological disorder
February 06, 2008An unexpected finding turned out to be a clue leading researchers at Washington University School of Medicine in St. Louis to propose a new treatment approach for Niemann-Pick disease, a rare, deadly neurodegenerative disorder.
To overcome the genetic defect in Niemann-Pick disease, the researchers suggest that chemical compounds could potentially "chaperone" mutant protein molecules through the cell's quality control machinery. And they believe the approach also could be useful for more common diseases - such as cystic fibrosis - that stem from a similar type of defect.
Their findings are reported in advance online publication in the Journal of Biological Chemistry.
Daniel S. Ory, M.D., associate professor of medicine, and colleagues in the Center for Cardiovascular Research originally began to study Niemann-Pick type C disease because of its link to cholesterol metabolism - the genetic abnormality at the root of the disease serves as a tool for investigating how cholesterol moves about in cells.
Niemann-Pick type C, the rarest form of Niemann-Pick disease, usually affects school-aged children, but the disease may occur at any time from early infancy to adulthood. Symptoms may include unsteadiness of gait, clumsiness, slurred speech, learning difficulties, progressive intellectual decline, seizures and tremors. Niemann-Pick type C disease is fatal, and no life-extending treatment exists.
As the result of their latest research, Ory and colleagues want to follow up with an investigation of a different treatment modality than has previously been proposed. Prior avenues of treatment research emphasized using gene therapy to repair the genetic defect, but such an approach is fraught with numerous difficulties. Ory's group believes that Niemann-Pick type C and other diseases like it might be treated more readily with chemical compounds able to compensate for the effect of the disease's underlying genetic mutation.
Niemann-Pick type C disease is a recessive inherited trait that can originate in one of more than 200 different mutations in the NPC1 gene, which lies on chromosome 18. The mutations lead to production of abnormal NPC1 protein. Normally, NPC1 protein plays an essential role in moving cholesterol out of cells, and if it doesn't function, cholesterol and other lipids accumulate.
Most scientists assumed that Niemann-Pick type C mutations produced NPC1 protein that didn't work correctly. So when a routine test in the Ory lab of a mutated NPC1 protein showed that the protein was in fact active in living cells, the researchers did a double take.
"It is unequivocal that the mutation causes disease in human patients," says Ory, also associate professor of cell biology and physiology. "Yet the mutated protein seemed functional when we introduced it into cells."
When they looked for the explanation for this aberration, Ory and colleagues found that a small proportion of the mutant protein actually could do the job of normal NPC1 protein. It turned out that the mutation caused most newly minted NPC1 protein molecules to fold into the wrong shape or to assume their final shape slowly so that the cell's quality control checkpoints rejected them. But some of the mutant protein molecules assumed the correct shape and made it to their proper destination.
That suggested to the team that Niemann-Pick type C disease possibly could be treated with chemicals that assist the mutant proteins produced in patients. Ory refers to these as chemical chaperones and indicates this approach could help the large NPC1 proteins during the process of folding their long, complex chains so that more of the mutant proteins fold properly and pass through the cell's quality control checkpoints.
In collaboration with the National Institutes of Health Chemical Genomics Center, Ory will next screen more than 200,000 compounds to see which ones increase the amount of mutant NPC1 that folds into a functional form.
"The screening can be done in as little as two weeks because the facility in Rockville, Md., has a huge library of compounds and state-of-the-art robotic equipment that can perform the tests at very high speed," Ory explains. "Then we will bring the compounds that show a positive effect to our laboratory and validate them on cell lines from Niemann-Pick patients. After that we will work with a pharmaceutical partner to take the ones that are effective in cells and make sure they will be safe and effective in people."
Although Niemann-Pick disorders are rare, affecting fewer than 2,000 people worldwide, Ory says that it is likely the chemical chaperone approach to therapy could also be useful for other disorders caused by genetic mutations that lead to protein misfolding. This includes cystic fibrosis, a lung and digestive system disorder that affects 70,000 children and adults around the world.
Washington University School of Medicine
Daniel S. Ory, M.D., associate professor of medicine, and colleagues in the Center for Cardiovascular Research originally began to study Niemann-Pick type C disease because of its link to cholesterol metabolism - the genetic abnormality at the root of the disease serves as a tool for investigating how cholesterol moves about in cells.
Niemann-Pick type C, the rarest form of Niemann-Pick disease, usually affects school-aged children, but the disease may occur at any time from early infancy to adulthood. Symptoms may include unsteadiness of gait, clumsiness, slurred speech, learning difficulties, progressive intellectual decline, seizures and tremors. Niemann-Pick type C disease is fatal, and no life-extending treatment exists.
As the result of their latest research, Ory and colleagues want to follow up with an investigation of a different treatment modality than has previously been proposed. Prior avenues of treatment research emphasized using gene therapy to repair the genetic defect, but such an approach is fraught with numerous difficulties. Ory's group believes that Niemann-Pick type C and other diseases like it might be treated more readily with chemical compounds able to compensate for the effect of the disease's underlying genetic mutation.
Niemann-Pick type C disease is a recessive inherited trait that can originate in one of more than 200 different mutations in the NPC1 gene, which lies on chromosome 18. The mutations lead to production of abnormal NPC1 protein. Normally, NPC1 protein plays an essential role in moving cholesterol out of cells, and if it doesn't function, cholesterol and other lipids accumulate.
Most scientists assumed that Niemann-Pick type C mutations produced NPC1 protein that didn't work correctly. So when a routine test in the Ory lab of a mutated NPC1 protein showed that the protein was in fact active in living cells, the researchers did a double take.
"It is unequivocal that the mutation causes disease in human patients," says Ory, also associate professor of cell biology and physiology. "Yet the mutated protein seemed functional when we introduced it into cells."
When they looked for the explanation for this aberration, Ory and colleagues found that a small proportion of the mutant protein actually could do the job of normal NPC1 protein. It turned out that the mutation caused most newly minted NPC1 protein molecules to fold into the wrong shape or to assume their final shape slowly so that the cell's quality control checkpoints rejected them. But some of the mutant protein molecules assumed the correct shape and made it to their proper destination.
That suggested to the team that Niemann-Pick type C disease possibly could be treated with chemicals that assist the mutant proteins produced in patients. Ory refers to these as chemical chaperones and indicates this approach could help the large NPC1 proteins during the process of folding their long, complex chains so that more of the mutant proteins fold properly and pass through the cell's quality control checkpoints.
In collaboration with the National Institutes of Health Chemical Genomics Center, Ory will next screen more than 200,000 compounds to see which ones increase the amount of mutant NPC1 that folds into a functional form.
"The screening can be done in as little as two weeks because the facility in Rockville, Md., has a huge library of compounds and state-of-the-art robotic equipment that can perform the tests at very high speed," Ory explains. "Then we will bring the compounds that show a positive effect to our laboratory and validate them on cell lines from Niemann-Pick patients. After that we will work with a pharmaceutical partner to take the ones that are effective in cells and make sure they will be safe and effective in people."
Although Niemann-Pick disorders are rare, affecting fewer than 2,000 people worldwide, Ory says that it is likely the chemical chaperone approach to therapy could also be useful for other disorders caused by genetic mutations that lead to protein misfolding. This includes cystic fibrosis, a lung and digestive system disorder that affects 70,000 children and adults around the world.
Washington University School of Medicine
Neurological Disorder Current Events and Neurological Disorder News RSSNew brain findings on dyslexic children
The vast majority of school-aged children can focus on the voice of a teacher amid the cacophony of the typical classroom thanks to a brain that automatically focuses on relevant, predictable and repeating auditory information, according to new research from Northwestern University.
Packages of care for epilepsy in low- and middle-income countries
In the second in a six part series on treating mental health problems in resource-poor settings, Caroline Mbuba and Charles Newton (Centre for Geographic Medicine Research, Kenya Medical Research Institute, Kilifi, Kenya) discuss "packages of care" for treating epilepsy.
Mayo Clinic identifies 2 genes as potential therapeutic targets for multiple sclerosis
A Mayo Clinic study has found that two genes in mice were associated with good central nervous system repair in multiple sclerosis (MS).
Jefferson Headache Center study shows novel, orally inhaled migraine therapy effective
A new study conducted at the Jefferson Headache Center at Thomas Jefferson University Hospital in Philadelphia, Pennsylvania shows an investigational, orally-inhaled therapy is effective in treating migraines.
Discovery of genetic mutation in Leigh syndrome
Researchers at the Montreal Neurological Institute and Hospital (The Neuro), McGill University have discovered a genetic mutation underlying late-onset Leigh syndrome, a rare inherited metabolic disorder characterized by the degeneration of the central nervous system.
The downside of microtubule stability
Stalled microtubules might be responsible for some cases of the neurological disorder Charcot-Marie-Tooth (CMT) disease.
New Jefferson study may redefine how a chronic auto-immune disease is diagnosed
New research from Jefferson Hospital for Neuroscience (JHN) may redefine how Chronic Inflammatory Demyelinating Polyneuropathy (CIDP) is diagnosed.
Rutgers Research Tackles Childhood Epilepsy
Rutgers researchers have discovered a potential new way to treat childhood epilepsy using a widely available therapeutic drug.
Neurological disorder in golden retriever dogs caused by a mutation in mitochondrial DNA
Sensory ataxic neuropathy (SAN) is a recently identified neurological disorder in Golden Retriever dogs with onset during puppyhood.
Carnegie Mellon Researchers Identify New Drug To Prevent Seizure Progression in Model of Epilepsy
Carnegie Mellon University researchers have identified a new anticonvulsant compound that has the potential to stop the development of epilepsy. The findings are published in the current issue of the journal Epilepsia.
More Neurological Disorder Current Events and Neurological Disorder News Articles
 |
Handbook of Neurological Speech and Language Disorders (Neurological Disease and Therapy) by Kirshner (Author) Vanderbilt University, Nashville, Tennessee. Reference on speech and language disorders with new information from neuroanatomy, brain imaging, and behavioral techniques. For neurologists, neuropsychologists, and speech-language pathologists. |
 |
ABC News Specials Medical Mysteries Series-Episode #1 Medical science has progressed exponentially in recent times, but scientists are still left with unanswered questions when it comes to the human body. "Medical Mysteries" looks at some of the rarest disorders and syndromes in medicine today. First ABC News examines two cases in which individuals either sleepwalked to their death or caused themselves serious injury while in a dream state. Then, hear the story of a modern day "sleeping beauty," but instead of a fairy tale it's a disease. Medically referred to as Kleine-Levin Syndrome (KLS), the neurological disorder manifests itself in an unexplainable urge to sleep continuously for periods up to 23 hours a day. The disease, which affects an estimated 500 people worldwide, completely removes people from day-to-day life for weeks or... |
 |
Neurological Biotechnology Nutrition Disorder Phokus Group (Primary Contributor) |
 |
Neuropsychological Neurology: The Neurocognitive Impairments of Neurological Disorders by A. J. Larner (Author) Essential to the management of patients suffering from neurological disorders is an understanding of the cognitive aspects of these conditions. This book begins with an outline of the various cognitive domains and how they can be tested, before covering in depth the cognitive deficits seen not only in prototypical neurodegenerative cognitive disorders (Alzheimer's disease, frontotemporal dementias, Huntington's disease, prionoses), but also in other common neurological disorders which may be complicated by cognitive impairment (stroke, multiple sclerosis, Parkinson's disease, brain tumours). This book is an essential reference text for all neurologists, not just those with an interest in cognitive disorders; and for general physicians and specialists who deal with any endocrine,... |
 |
ABC News Nightline A Troubled Mind A look at the movie "A Beautiful Mind" that offers what many consider the first realistic look at schizophrenia. ABC News analyzes the movie, and the disease, through the eyes of people who know what it is really like. Airdate: 3/22/2002 This product is manufactured on demand using DVD-R recordable media. Amazon.com's standard return policy will apply. |
 |
Narcolepsy Directed By: (c) Information Television Network |
 |
Sterling Silver St Dymphna Medal and 24-inch Chain by A Great Jewelry Co. Sterling Silver St Dymphna Medal and 24-inch Chain - Picture shown above is not actual size, it is to showcase the fine craftsmanship and quality. See measurements for actual size. |
 |
The Everything Parent's Guide To Sensory Integration Disorder: Get the Right Diagnosis, Understand Treatments, And Advocate for Your Child (Everything: Parenting and Family) by Terri Mauro (Author), Sharon A. Cermak (Technical Editor) Ten percent of the U.S. population has Sensory Integration Disorder-also known as Sensory Processing Disorder-which is characterized by the inability of the brain to accurately process information coming from the senses. For kids living with Sensory Integration Disorder, the world can be a scary place, full of potentially stressful experiences. Kids with Sensory Integration Disorder can howl in discomfort over the feel of a shirt tag or a sock seam on bare skin. They may find the sound of a whisper to be as loud and frightening as a siren, and may perceive the caring touch of a parent or jostling in the school lunch line as equivalent to an assault. The Everything Parent's Guide to Sensory Integration Disorder: Provides an in-depth definition of Sensory Integration Disorder... |
 |
ABC News Nightline Echoes of Autism: Brother's Keeper A look at emotions and autism: Can people with autism feel love and heart-break the same way non-autistic people do? ABC News Nightline correspondent John Donvan profiles Paul DeSavino, a 36-year-old New Jersey man living with autism who says he's in love. But does he really know what it means to be in love and to connect? His mother, Marlene, describes how his condition makes it more difficult for him to connect with others. "He goes off into his own little world and that's the difficult part in having a relationship. It's because he leaves them. He could leave them cold and he can't open himself up. He doesn't know how to do that yet." In part two of John's series, it's not a story about those who have autism but those touched by it. The people linked to autism because their brothers... |
 |
Neurological and Psychiatric Disorders (Current Clinical Neurology) by Frank I. Tarazi (Editor), John A. Schetz (Editor) A comprehensive, systematic, and advanced review of the scientific, preclinical, and clinical aspects of several major mental illnesses. The illnesses covered range from neurological disorders including Alzheimer's disease, Huntington's disease, and Parkinson's disease, to psychiatric disorders including schizophrenia, autism spectrum disorders, Tourette's syndrome and tic disorders, obsessive-compulsive disorder, unipolar depression, bipolar disorder, and attention deficit hyperactivity disorder. For each disorder, the authors uniformly discuss its incidence and prevalence, etiology, molecular targets and mechanisms of action, brain structures and pathways, animal models, signs and symptoms, genetics, treatments, and related medical terminology. |
| © 2009 BrightSurf.com |