 |
|
Human ES cells progress slowly in myelin's direction
April 09, 2009Scientists from the University of Wisconsin, USA, report in the journal Development (http://dev.biologists.org) the successful generation from human embryonic stem cells of a type of cell that can make myelin, a finding that opens up new possibilities for both basic and clinical research.
The cells the researchers made are called oligodendrocytes, which are responsible for making myelin in the central nervous system. Myelin forms an insulating sheath that surrounds nerve fibres, both protecting them and speeding up the transmission of nerve impulses. Its loss or damage has serious consequences, as is seen in the condition of multiple sclerosis, because without it nerves lose the ability to transmit impulses to each other and to function properly.
Unlike human embryonic stem (ES) cells, it's relatively easy to persuade mouse ES cells to turn into oligodendrocytes; it's often done by exposing these cells to a protein called Sonic Hedgehog, which produces oligodendrocytes in the spinal cord of developing embryos. Now Su-Chun Zhang and his co-workers show in the May issue of Development (dev.biologists.org) that treating human ES cells with this same protein also turns them into oligodendrocytes - they just take longer to do it, 14 weeks as opposed to the 2 weeks taken by mouse ES cells. They also report another difference between mouse and human ES cells: a growth factor called Fgf2 that promotes oligodendrocyte development in mouse ES cells actually stalls it in human ES cells.
As Dr Zhang reveals, these findings were quite unexpected. 'This was quite a surprise given that this is exactly how we direct mouse ES cells to become oligodendrocytes. But we have discovered an unexpected twist in the cell's response to the same external factor', explained Dr Zhang. 'It nevertheless explains why so many research groups have failed to persuade human neural stem cells to become oligodendrocytes for the past decade.'
As Dr Zhang went on to discuss, these findings are also of clinical importance. 'We are now able to generate a relatively enriched population of oligodendrocyte precursor cells that may be used to repair lost myelin sheaths. These findings also raise awareness of the direct translatability of animal studies to human biology. In this regard, the human oligodendrocytes generated from human ES cells or the generation of disease-induced pluripotent stem cells can provide a useful tool in the future for screening pharmaceuticals directly on human cells.'
The Company of Biologists
As Dr Zhang reveals, these findings were quite unexpected. 'This was quite a surprise given that this is exactly how we direct mouse ES cells to become oligodendrocytes. But we have discovered an unexpected twist in the cell's response to the same external factor', explained Dr Zhang. 'It nevertheless explains why so many research groups have failed to persuade human neural stem cells to become oligodendrocytes for the past decade.'
As Dr Zhang went on to discuss, these findings are also of clinical importance. 'We are now able to generate a relatively enriched population of oligodendrocyte precursor cells that may be used to repair lost myelin sheaths. These findings also raise awareness of the direct translatability of animal studies to human biology. In this regard, the human oligodendrocytes generated from human ES cells or the generation of disease-induced pluripotent stem cells can provide a useful tool in the future for screening pharmaceuticals directly on human cells.'
The Company of Biologists
Oligodendrocytes Current Events and Oligodendrocytes News RSSUCI embryonic stem cell therapy restores walking ability in rats with neck injuries
The first human embryonic stem cell treatment approved by the FDA for human testing has been shown to restore limb function in rats with neck spinal cord injuries - a finding that could expand the clinical trial to include people with cervical damage.
Scientists demonstrate link between genetic defect and brain changes in schizophrenia
Researchers at the University of North Carolina at Chapel Hill School of Medicine have found that the 22q11 gene deletion - a mutation that confers the highest known genetic risk for schizophrenia - is associated with changes in the development of the brain that ultimately affect how its circuit elements are assembled.
Rethinking Alzheimer's disease and its treatment targets
The standard explanation for what causes Alzheimer's is known as the amyloid hypothesis, which posits that the disease results from of an accumulation of the peptide amyloid beta, the toxic protein fragments that deposit in the brain and become the sticky plaques that have defined Alzheimer's for more than 100 years.
Neural stem cells offer potential treatment for Alzheimer's disease
UC Irvine scientists have shown for the first time that neural stem cells can rescue memory in mice with advanced Alzheimer's disease, raising hopes of a potential treatment for the leading cause of elderly dementia that afflicts 5.3 million people in the U.S.
New clue into how brain stem cells develop into cells which repair damaged tissue
The joint research, funded by the National Multiple Sclerosis Society and the UK MS Society as well as the National Institutes of Health and Howard Hughes Medical Institute, was conducted by scientists at the University of California San Francisco (UCSF) and University of Cambridge and was published today (01 July) in the journal Genes and Development.
MS study offers theory for why repair of brain's wiring fails
Scientists have uncovered new evidence suggesting that damage to nerve cells in people with multiple sclerosis accumulates because the body's natural mechanism for repair of the nerve coating called "myelin" stalls out.
Neural stem cell differentiation factor discovered
Neural stem cells represent the cellular backup of our brain. These cells are capable of self-renewal to form new stem cells or differentiate into neurons, astrocytes or oligodendrocytes.
UCF team's advanced nerve cell system could help cure diabetic neuropathy, related diseases
Multiple sclerosis, diabetic neuropathy, and other conditions caused by a loss of myelin insulation around nerves can be debilitating and even deadly, but adequate treatments do not yet exist.
One size does not fit all
Statins, a commonly prescribed class of drugs used by millions worldwide to effectively lower blood cholesterol levels, may actually have a negative impact in Multiple Sclerosis (MS) patients treated with high daily dosages.
Avastin effective at delaying brain tumor progression in recurrent disease
The use of Avastin alone to treat a subgroup of recurrent Grade 3 brain tumors showed it was safe and effective at delaying tumor progression, according to a retrospective study of 22 patients conducted by a researcher at the Seattle Cancer Care Alliance.
More Oligodendrocytes Current Events and Oligodendrocytes News Articles
 |
Advances in Multiple Sclerosis and Experimental Demyelinating Diseases (Current Topics in Microbiology and Immunology) by Moses Rodriguez (Author), Moses Rodriguez (Editor) There is a need for a paradigm shift in our thinking about the pathogenesis of multiple sclerosis. Challenging Charcot s hypothesis that inflammatory response is the primary contributor to demyelination, Dr. Rodriguez and colleagues take a fresh, bold look at the causes and possible treatments of MS. Assuming oligodendrocyte injury as a prerequisite to MS, the authors explore viruses, toxins and genetic defects as possible culprits. They present novel methods to interrupt and reverse demyelination. This book examines the correlation between axonal loss and clinical deficits, including the implied role of the CD8+ T cell and perforin. It assesses proteases, specifically, kallikrein 6, which are strongly associated with active demyelination. By directing natural... |
|
Studies of oligodendrocyte development using a tissue culture model: A dissertation in anatomy and structural biology by Patricia Ann Eccleston (Author) | |
|
Exploration of culture conditions that support the growth of human oligodendrocyte progenitors and examination of neuronal expression of a unique G-Protein, Gαz by Danielle M Kerkovich (Author) |
| © 2009 BrightSurf.com |