 |
|
Researchers restore missing protein in rare genetic brain disorder
September 08, 2009UCSF researchers have successfully used protease inhibitors to restore to normal levels a key protein involved in early brain development. Reduced levels of that protein have been shown to cause the rare brain disorder lissencephaly, which is characterized by brain malformations, seizures, severe mental retardation and very early death in human infants.
The findings offer a proof-of-principle, at least in mice, that the genetic equivalent to human lissencephaly, also known as "smooth brain" disease, can be treated during pregnancy and effectively reversed to produce more normal offspring. Findings are reported in the September issue of "Nature Medicine" and found online at http://www.nature.com.
While the progress is still in animal models, the work is significant in being the first successful attempt to use protease inhibitors to reverse a severe brain defect that is known to be caused by limited quantities of one key gene, the researchers say.
The hope is that this approach also could be used to treat other defects in utero, or even those manifesting after birth, when caused by a partial deficiency in one gene, according to Anthony Wynshaw-Boris, MD, PhD, who is chief of the UCSF Division of Genetics in the Department of Pediatrics, and a member of the UCSF Institute for Human Genetics.
"Researchers have not considered it possible to treat such a pervasive, early developmental brain disorder as lissencephaly," said Wynshaw-Boris, who collaborated on the paper with Shinji Hirotsune, MD, PhD, in the Osaka City University Graduate School of Medicine. "Not only were we able to show a clear cellular effect from using these protease inhibitors, but also were able to treat the disorder in utero."
The work is the culmination of 15 years of collaborative research in the Wynshaw-Boris and Hirotsune labs into the cause and mechanisms of lissencephaly, which is caused by a deletion or loss of one copy of the LIS1 gene and affects an estimated one in 50,000-100,000 infants.
In 1998, the team published a paper on work that Hirotsune did in the Wynshaw-Boris laboratory, in which he produced a mouse with the same mutation that displayed defective brain development. They have continued to collaborate on understanding the mechanism of action of LIS1 since Hirotsune set up his independent laboratory in Japan.
The current research found, using these mice, that the protein calpain degrades the LIS1 protein to less than half its normal levels near the surface of the cells. The team then used a specific small-molecule protease inhibitor of calpain in these mice. At a cellular level, the protease inhibitors enabled LIS1 protein to be expressed at near-normal levels.
The team then gave daily injections of a calpain inhibitor to pregnant mice whose fetuses had the mouse-model of this defect. The resulting offspring had more normal brains and showed no sign of mental retardation.
"This study is really a proof-of-principle not only for treating complex developmental brain disorders, but also for any disorder with reduced protein levels where proteases normally play some role in breaking down that protein," Hirotsune said. "This will be much more difficult to apply to humans, because of the safety issues involved, but it could lead to new therapies that might be effective for a wide range of developmental disorders."
Scientists have known that loss of one of the two copies of the human form of the gene, known as LIS1, prevents immature nerve cells from migrating from deep in the brain up to the surface of the emerging cerebral cortex.
As a result, these immature cells stall at mid-point in their migration, causing the brain to develop a smooth surface, devoid of the convoluted nerve tissue that enables humans to think and function. The resulting disease, lissencephaly, varies in severity, but always leads to retardation, seizures and early childhood death.
University of California - San Francisco
The hope is that this approach also could be used to treat other defects in utero, or even those manifesting after birth, when caused by a partial deficiency in one gene, according to Anthony Wynshaw-Boris, MD, PhD, who is chief of the UCSF Division of Genetics in the Department of Pediatrics, and a member of the UCSF Institute for Human Genetics.
"Researchers have not considered it possible to treat such a pervasive, early developmental brain disorder as lissencephaly," said Wynshaw-Boris, who collaborated on the paper with Shinji Hirotsune, MD, PhD, in the Osaka City University Graduate School of Medicine. "Not only were we able to show a clear cellular effect from using these protease inhibitors, but also were able to treat the disorder in utero."
The work is the culmination of 15 years of collaborative research in the Wynshaw-Boris and Hirotsune labs into the cause and mechanisms of lissencephaly, which is caused by a deletion or loss of one copy of the LIS1 gene and affects an estimated one in 50,000-100,000 infants.
In 1998, the team published a paper on work that Hirotsune did in the Wynshaw-Boris laboratory, in which he produced a mouse with the same mutation that displayed defective brain development. They have continued to collaborate on understanding the mechanism of action of LIS1 since Hirotsune set up his independent laboratory in Japan.
The current research found, using these mice, that the protein calpain degrades the LIS1 protein to less than half its normal levels near the surface of the cells. The team then used a specific small-molecule protease inhibitor of calpain in these mice. At a cellular level, the protease inhibitors enabled LIS1 protein to be expressed at near-normal levels.
The team then gave daily injections of a calpain inhibitor to pregnant mice whose fetuses had the mouse-model of this defect. The resulting offspring had more normal brains and showed no sign of mental retardation.
"This study is really a proof-of-principle not only for treating complex developmental brain disorders, but also for any disorder with reduced protein levels where proteases normally play some role in breaking down that protein," Hirotsune said. "This will be much more difficult to apply to humans, because of the safety issues involved, but it could lead to new therapies that might be effective for a wide range of developmental disorders."
Scientists have known that loss of one of the two copies of the human form of the gene, known as LIS1, prevents immature nerve cells from migrating from deep in the brain up to the surface of the emerging cerebral cortex.
As a result, these immature cells stall at mid-point in their migration, causing the brain to develop a smooth surface, devoid of the convoluted nerve tissue that enables humans to think and function. The resulting disease, lissencephaly, varies in severity, but always leads to retardation, seizures and early childhood death.
University of California - San Francisco
Brain Disorder Current Events and Brain Disorder News RSSBrain defect implicated in early schizophrenia
In the first functional magnetic resonance imaging (fMRI) study of its kind, neurologists and psychiatrists at Columbia University have identified an area of the brain involved in the earliest stages of schizophrenia and related psychotic disorders.
LSUHSC research helps link schizophrenia to specific DNA region
For the first time, an international group of researchers has found genetic evidence linking schizophrenia to a specific region of DNA - on chromosome 6.
Hitting cell hot spot could help thwart Parkinson's disease
The latest work to 'turn off the taps' in the brain and stop a chemical being released in excess amounts - which can lead to Parkinson's Disease - will be presented at The British Pharmacological Society's Summer Meeting in Edinburgh.
Fatal brain disease at work well before symptoms appear
University of Florida scientists have discovered why a paralyzing brain disorder speeds along more rapidly in some patients than others - a finding that may finally give researchers an entry point toward an effective treatment for amyotrophic lateral sclerosis, often referred to as ALS or Lou Gehrig's disease.
New gene linked to autism risk, especially in boys
UCLA scientists have discovered a variant of a gene called CACNA1G that may increase a child's risk of developing autism, particularly in boys.
UCLA scientists reveal how deadly pediatric disorder develops in brain
A deadly brain disorder in toddlers may find its first treatment in drugs for Alzheimer's disease.
World's largest DNA scan for autism uncovers new gene variant for disorder
UCLA scientists, in partnership with 30 research institutions across the country, have identified a new gene variant that is highly common in autistic children.
Autism may be linked to being firstborn, breech births or moms 35 or older
Children who are firstborn or breech or whose mothers are 35 or older when giving birth are at significantly greater risk for developing an autism spectrum disorder, University of Utah School of Medicine researchers have reported in a new study with Utah children.
Antibody key to treating variant CJD, scientists find
Scientists at the University of Liverpool have determined the atomic structure of the 'binding' between a brain protein and an antibody that could be key to treating patients with diseases such as variant CJD.
Decoding Funny Faces to Detect Disease
Like Russell Crowe's character in A Beautiful Mind, life is often difficult for the 2.4 million Americans with schizophrenia. A late or incorrect diagnosis and the lack of effective treatment options can destroy a sufferer's quality of life.
More Brain Disorder Current Events and Brain Disorder News Articles
 |
The Anxious Brain: The Neurobiological Basis of Anxiety Disorders and How to Effectively Treat Them by Steven M. Prinz (Author), Margaret Wehrenberg (Author) Therapists and their clients benefit from understanding how anxiety is generated in the brain, how it can become panic or unbounded worry, and ultimately how the brain re-establishes the neurochemical balance that is basic to a state of well-being. These insights in the brain underlying mental phenomena put anxiety into a perspective that makes it easier to become calm, and provides the bases for effective intervention with thought exercises, breathing techniques, and behavioral adaptations. The Anxious Brain is a timely clinical guide. Current statistics show that up to one-third of Americans suffers a panic attack during their lifetime and up to eight percent is currently suffering from one of the anxiety disorders. Medication, once considered the first line of ... |
 |
Change Your Brain, Change Your Life: The Breakthrough Program for Conquering Anxiety, Depression, Obsessiveness, Anger, and Impulsiveness by Daniel G. Amen (Author) BRAIN PRESCRIPTIONS THAT REALLY WORK In this breakthrough bestseller, you'll see scientific evidence that your anxiety, depression, anger, obsessiveness, or impulsiveness could be related to how specific structures in your brain work. You're not stuck with the brain you're born with. Here are just a few of neuropsychiatrist Dr. Daniel Amen's surprising--and effective--"brain prescriptions" that can help heal your brain and change your life: To Quell Anxiety and Panic: ¸ Use simple breathing techniques to immediately calm inner turmoil To Fight Depression: ¸ Learn how to kill ANTs (automatic negative thoughts) To Curb Anger: ¸ Follow the Amen anti-anger diet and learn the nutrients that calm rage To Conquer Impulsiveness and Learn to Focus: ¸ ... |
 |
Brain Science and Psychological Disorders: New Perspectives on Psychotherapeutic Treatment by F. Scott Kraly (Author) Readers with little background in neuroscience and physiology may find themselves at a loss trying to navigate between the knowns and the unknowns when it comes to understanding the intricacies of the brain. Brain Science and Psychological Disorders demystifies the field of neuroscience, offering a brisk, digestible narrative of how malfunctioning neurons and neurochemicals can result in psychological disorders. In doing so, Kraly explains the roles of pharmacotherapy and psychotherapy in helping to repair various mental health problems, including depression and mania, anxiety, substance abuse, bulimia and anorexia, ADHD, and schizophrenia. . |
 |
The Thing That Ate Floyd by Relief Society, Sweet Babys, Kamala & the Karnivores, Steelpole Bathtub, East Bay Mud, Crimpshrine, Operation Ivy, Surrogate Brains, Complete Disorder |
 |
Silver Swarovski Crystals Ribbon Pin Brooch: Brain Cancer & Brain Disorder or Disability Awareness by PSDZ This Silver Ribbon Pin symbolizes the fight against: Brain Cancer & Brain Disorders or Disabilities. Dozens of sparkling, Swarovski Crystals have been hand set in this piece and skilled artisans have finished it in a glossy, Silver Enamel. A meaningful and beautiful brooch. Height: 1.75 Inch Width: .75 Inch Each of these items has been hand enameled by skilled artisans, and set with genuine, Swarovski Crystals. The pins frame is crafted from fine pewter. Our Collection adds the definitive touch to any gift-giving occasion. Also, this collection has been issued in limited editions and each piece will become a valuable keepsake to its owner, for years to come. Please see other items in this collection in our Amazon Store: PSDZ. Jewelry Boxes, Business Card Holders, Music... |
 |
Sprudio Subliminal Cd: Obsessive-compulsive Disorder - With NLP and Brain Wave Generator Technology and Ocean Waves by Sprudio Ocean Waves and Nature sound (birds, delicate chimes,rain, jungle noises can be in on the background. Not all Cds has the same background. About this CD The writers of Monk like to make light of this disorder, but people who suffer from it are not having a good time. If youre one of them, you understand. You might do well to acquire a new tool to reduce your discomfort- subliminal audio can help you relax and forget about small annoyances. This CD is crafted with neuro-linguistic (NLP) technology and brainwave generators, relaxing Ocean waves and nature sounds to help you. A silent track is present at the end, as well. We carry the same title with music and Ocean Sound. This one has only Ocean Waves and Nature Sound. |
 |
ABC News Primetime Deep-Brain Stimulation Could mood-altering electrodes be inserted into the brain to literally help a severely depressed person become happy? ABC News reports on Deep Brain Stimulation (DBS), currently part of an extraordinary experiment in psychic surgery that only 50 patients worldwide have undergone. In an exclusive report, ABC News follows two women on their journey to discover whether DBS can help give them their lives back. One of the women, Cindy Warren, suffers from severe depression and has tried numerous treatments unsuccessfully, while the other woman, Kelly, suffers from obsessive compulsive disorder. Both women undergo a five hour experimental operation, where tiny electrodes are implanted in their brains -- in an attempt to rewire their mood centers. But while the procedure has been successfully... |
 |
Blame It on the Brain?: Distinguishing Chemical Imbalances, Brain Disorders, and Disobedience (Resources for Changing Lives) by Edward T. Welch (Author) Depression, Attention Deficit Disorder, Alcoholism, Homosexuality. Research suggests that more and more behaviors are caused by brain function or dysfunction. But is it ever legitimate to blame misbehavior on the brain? How can I know whether ?My brain made me do it?? Viewing brain problems through the lens of Scripture, Edward T. Welch distinguishes genuine brain disorders from problems rooted in the heart. Understanding that distinction will enable pastors, counselors, families, and friends to help others-or themselves-deal with personal struggles and responsibilities. While focusing on a few common disorders, Dr. Welch lays out a series of practical steps adaptable to a wide range of conditions, habits, or addictions. |
 |
Brain Disorders Awareness Ribbon Mouse Pad by MyHeritageWear.com The Brain Disorders Ribbon proudly displayed on a mouse pad. There is no better way to achieve awareness for the meaning of the Brain Disorders 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 Brain Disorders Ribbon mouse pad at work or at home. It is certain to keep your mouse rolling in style all while gaining support and awareness! |
 |
Bright Brain Soft Chew - 30 Fruity Soft Chews by Irwin Naturals Bright Brain contains Omega-3 oil, an Essential Fatty Acid that not only improves learning ability, focus and concentration, it also impacts the very development and future of your childs growing brain. |
| © 2009 BrightSurf.com |