 |
|
Neural stem cells reduce Parkinson's symptoms in monkeys
June 13, 2007New Haven, Conn.-Primates with severe Parkinson's disease were able to walk, move, and eat better, and had diminished tremors after being injected with human neural stem cells, a research team from Yale, Harvard, the University of Colorado, and the Burnham Institute report today in Proceedings of the National Academy of Sciences.
These results are promising, but it will be years before it is known whether a similar procedure would have therapeutic value for humans, said the lead author, D. Eugene Redmond Jr., professor of psychiatry and neurosurgery at Yale.
"Not only are stem cells a potential source of replacement cells, they also seem to have a whole variety of effects that normalize other abnormalities," Redmond said. "The human neural stem cells implanted into the primates survived, migrated, and had a functional impact. It's an important step, but there are a number of studies that need to be done before determining if this would be of any value in clinical settings."
Parkinson's disease is caused by a degeneration of dopamine neurons in an area of the midbrain known as the substantia nigra, which is responsible for dopamine production. Reduced production of dopamine in late stage Parkinson's causes symptoms such as severe difficulty in walking, fewer movements, delays in moving, lack of appetite, difficulty eating, periods of remaining motionless known as "freezing," and head and limb tremors.
In this study five of eight monkeys with advanced Parkinson's were injected with human neural stem cells and three received sham injections. The monkeys were observed four months before and four months after surgery. Those injected with human neural stem cells improved progressively for the entire post-treatment period and were significantly different from the monkeys that received sham injections. Twenty-one additional monkeys were studied for up to eight months for other biological effects of the stem cells. No tumors or toxic effects were found.
Redmond said a small number of the human neural stem cell progeny differentiated into neurons that contained tyrosine hydroxylase and dopamine transporter. Cell progeny containing these markers suggest that the microenvironment within and around the brain lesions still permits development of a dopamine phenotype by responsive progenitor cells. The stem cells also made a growth factor that has been shown to improve dopamine function.
The neural stem cells are derived from fetal brain and are not embryonic stem cells. Monkeys with "chimeric" human neural cell-bearing brain regions showed no indication of behaviors that were not typical of the species.
Yale University
Parkinson's disease is caused by a degeneration of dopamine neurons in an area of the midbrain known as the substantia nigra, which is responsible for dopamine production. Reduced production of dopamine in late stage Parkinson's causes symptoms such as severe difficulty in walking, fewer movements, delays in moving, lack of appetite, difficulty eating, periods of remaining motionless known as "freezing," and head and limb tremors.
In this study five of eight monkeys with advanced Parkinson's were injected with human neural stem cells and three received sham injections. The monkeys were observed four months before and four months after surgery. Those injected with human neural stem cells improved progressively for the entire post-treatment period and were significantly different from the monkeys that received sham injections. Twenty-one additional monkeys were studied for up to eight months for other biological effects of the stem cells. No tumors or toxic effects were found.
Redmond said a small number of the human neural stem cell progeny differentiated into neurons that contained tyrosine hydroxylase and dopamine transporter. Cell progeny containing these markers suggest that the microenvironment within and around the brain lesions still permits development of a dopamine phenotype by responsive progenitor cells. The stem cells also made a growth factor that has been shown to improve dopamine function.
The neural stem cells are derived from fetal brain and are not embryonic stem cells. Monkeys with "chimeric" human neural cell-bearing brain regions showed no indication of behaviors that were not typical of the species.
Yale University
Neural Stem Cells Current Events and Neural Stem Cells News RSSExperts meet on need for new rules to govern world's fragile polar regions
A new co-ordinated international set of rules to govern commercial and research activities in both of Earth's polar regions is urgently needed to reflect new environmental realities and to temper pressure building on these highly fragile ecosystems, according to several of the experts convening in Iceland for a UN-affiliated conference marking the International Polar Year.
Childhood brain tumor traced to normal stem cells gone bad
An aggressive childhood brain tumor known as medulloblastoma originates in normal brain "stem" cells that turn malignant when acted on by a known mutant, cancer-causing oncogene, say researchers from Dana-Farber Cancer Institute and the University of California, San Francisco (UCSF).
MIT identifies cells for spinal-cord repair
A researcher at MIT's Picower Institute for Learning and Memory has pinpointed stem cells within the spinal cord that, if persuaded to differentiate into more healing cells and fewer scarring cells following an injury, may lead to a new, non-surgical treatment for debilitating spinal-cord injuries.
UNC study ties ending moderate drinking to depression
Scientific evidence has long suggested that moderate drinking offers some protection against heart disease, certain types of stroke and some forms of cancer.
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.
Scientists Find Stem Cells For the First Time in the Pituitary
A team of researchers led by scientists at Cold Spring Harbor Laboratory have for the first time identified stem cells that allow the pituitary glands of mice to grow even after birth.
Scientists ask whether microscaffolding can help stem cells rebuild brain after stroke damage
Inserting tiny scaffolding into the brain could dramatically reduce damage caused by strokes the UK National Stem Cell Network Annual Science Meeting will hear today (10 April).
Protein protects embryonic stem cells' versatility and self-renewal
A protein known as REST blocks the expression of a microRNA that prevents embryonic stem cells from reproducing themselves and causes them to differentiate into specific cell types, scientists at The University of Texas M. D. Anderson Cancer Center report in the journal Nature.
Post brain injury: New nerve cells originate from neural stem cells
Most cells in the human brain are not nerve cells, but supporting cells (glial cells). They serve as a framework for nerve cells and play an important role in the wound reaction that occurs with injuries to the brain.
Building brains: Mammalian-like neurogenesis in fruit flies
A new way of generating brain cells has been uncovered in Drosophila. The findings, published this week in the online open access journal Neural Development, reveal that this novel mode of neurogenesis is very similar to that seen in mammalian brains, suggesting that key aspects of neural development could be shared by insects and mammals.
More Neural Stem Cells Current Events and Neural Stem Cells News Articles
 | Neural Stem Cells: Methods and Protocols (Methods in Molecular Biology) Although there has been an explosion of interest and technology in the study of neural stem cells, many questions related to stem cell properties and neural stem cell lineage and differentiation still linger. Neural Stem Cells, 2nd Edition revises and expands upon the successful first edition in order to provide the most current, cutting-edge methods of today for the scientists working to... |
 | Neural Stem Cells (Methods in Molecular Biology) (Methods in Molecular Biology) In Neural Stem Cells: Methods and Protocols, internationally recognized experts from academic, clinical, and pharmaceutical laboratories describe in great detail the most frequently used cellular, molecular, and electrophysiological methods to isolate, characterize, and utilize neural stem cells. These readily reproducible techniques introduce the various sources of stem/progenitor cells, provide... |
 | Neural Development and Stem Cells (Contemporary Neuroscience) This extensively expanded and updated edition reflects the enormous increase in our knowledge of the development of the nervous system. Working from a new understanding that the regionalization of stem cells occurs early in development and that this bias appears to persist even after prolonged culture, Dr. Rao has added additional chapters on olfactory epithelial stem cells and retinal stem... |
 | Neural Stem Cells: Development and Transplantation Neural Stem Cells: Development and Transplantation provides comprehensive, critical and insightful reviews by leading experts in this exciting field of research. This volume will provide the latest data on neural stem cell properties and their therapeutic applications. This volume will be particularly useful for students, basic scientists, and clinicians in the academic or industrial sectors who... |
 | Neural Stem Cells for Brain and Spinal Cord Repair (Contemporary Neuroscience) (Contemporary Neuroscience) Active neuroscientists survey NSCs as potential tools for central nervous system and spinal cord repair by explaining their clinically significant fundamental properties, manipulations, and potential therapeutic paradigms. Their discussion of the fundamental biology of NSCs illustrates the signaling pathways that regulate stem cell division and differentiation, and defines the methods of NSC... |
| Neural stem cells can differentiate into mature neurons in regions of cerebral cortex, study finds.(Brief Article): An article from: Transplant News This digital document is an article from Transplant News, published by Transplant Communications, Inc. on June 30, 2000. The length of the article is 375 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser.Citation... | |
| StemCells obtains neural stem cell patent.(StemCells Inc.): An article from: BIOTECH Patent News This digital document is an article from BIOTECH Patent News, published by Biotech Patent News on January 1, 2003. The length of the article is 430 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser.Citation DetailsTitle:... | |
| Adult, embryonic murine neural stem cells could have broad implications for humans, scientists say.: An article from: Transplant News This digital document is an article from Transplant News, published by Transplant Communications, Inc. on February 14, 1999. The length of the article is 423 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser.Citation... | |
| Neural stem cells showing promise as treatment for aggressive form of brain cancer, scientists find.(International Pages)(Brief Article): An article from: Transplant News This digital document is an article from Transplant News, published by Transplant Communications, Inc. on April 10, 2000. The length of the article is 492 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser.Citation... | |
 | Neural Stem Cells, An Issue of Neurosurgery Clinics (The Clinics: Surgery) by A. Quinones-Hinojosa, N. Sanai "Neural stem cells have the capacity to generate all of the multiple cell types found in the brain and spinal cord, thus, they have the potential to repair tissue injured by trauma or disease. The Guest Editors are researchers and clinicians who have done extensive work on human neural stem cells and the regeneration of neural cells in the brain. This issue of the Neurosurgery Clinics discusses... |
| © 2008 BrightSurf.com |