 |
|
Human stem cells delay start of Lou Gehrig's disease in rats
October 16, 2006Researchers at Johns Hopkins have shown that transplanting human stem cells into spinal cords of rats bred to duplicate Lou Gehrig's disease delays the start of nerve cell damage typical of the disease and slightly prolongs life. The grafted stem cells develop into nerve cells that make substantial connections with existing nerves and do not themselves succumb to Lou Gehrig's, also known as amyotrophic lateral sclerosis (ALS). The study is published in this week's issue of Transplantation.
"We were extremely surprised to see that the grafted stem cells were not negatively affected by the degenerating cells around them, as many feared introducing healthy cells into a diseased environment would only kill them," says Vassilis Koliatsos, M.D., an associate professor of pathology and neuroscience at Hopkins.
Although all the rats eventually died of ALS, Koliatsos believes his experiments offer "proof of principle" for stem cell grafts and that a more complete transplant of cells-already being planned - along the full length of the spine to affect upper body nerves and muscles as well might lead to longer survival in the same rats.
"We only injected cells in the lower spine, affecting only the nerves and muscles below the waist," he noted. "The nerves and muscles above the waist, especially those in the chest responsible for breathing, were not helped by these transplanted stem cells."
The research team used so-called SOD-1 rats, animals engineered to carry a mutated human gene for an inherited form of ALS. As in human ALS, the rats experience slow nerve cell death where all the muscles in the body eventually become paralyzed. The particular SOD-1 rats in the study developed an "especially aggressive" form of the disease.
Adult rats not yet showing symptoms were injected in the lower spine with human neural stem cells-cells that can in theory become any type found in the nervous system. As a comparison, the researchers injected rats with dead human stem cells, which would not affect disease progression. Both groups of rats were treated with drugs to prevent transplant rejection.
The rats were weighed and tested for strength twice a week for 15 weeks. Weight loss, according to Koliatsos, indicates disease onset. On average, rats injected with live stem cells started losing weight at 59 days and lived for 86 days after injection, whereas control rats injected with dead stem cells started losing weight at 52 days and lived for 75 days after injection.
The rats were coaxed to crawl uphill on an angled plank, and their overall strength was calculated by considering the highest angle they could cling to for five seconds without sliding backwards. While all the rats grew progressively weaker, those injected with live cells did so much more slowly than those injected with dead cells.
Close examination of the transplanted cells also revealed that more than 70 percent of them developed into nerve cells, and many of those grew new endings connecting to other cells in the rat's spinal cord.
"These stem cells differentiate massively into neurons," says Koliatsos, "a pleasant surprise given that the spinal cord has long been considered an environment unfavorable to this type of transformation."
Another important feature of the transplanted cells is their ability to make nerve-cell-specific proteins and growth factors. The researchers measured five-times more of one particular factor, known as GNDF (short for glial cell derived neurotrophic factor) in spinal cord fluid. The transformation of the transplanted cells also may allow them to deliver these growth factors to other cells in the spinal cord through physical connections.
Cautioning that clinical applications are still far from possible, Koliatsos hopes to take further advantage of his rodents with ALS to learn as much as possible about how human stem cells behave when transplanted.
Johns Hopkins Medical Institutions
"We only injected cells in the lower spine, affecting only the nerves and muscles below the waist," he noted. "The nerves and muscles above the waist, especially those in the chest responsible for breathing, were not helped by these transplanted stem cells."
The research team used so-called SOD-1 rats, animals engineered to carry a mutated human gene for an inherited form of ALS. As in human ALS, the rats experience slow nerve cell death where all the muscles in the body eventually become paralyzed. The particular SOD-1 rats in the study developed an "especially aggressive" form of the disease.
Adult rats not yet showing symptoms were injected in the lower spine with human neural stem cells-cells that can in theory become any type found in the nervous system. As a comparison, the researchers injected rats with dead human stem cells, which would not affect disease progression. Both groups of rats were treated with drugs to prevent transplant rejection.
The rats were weighed and tested for strength twice a week for 15 weeks. Weight loss, according to Koliatsos, indicates disease onset. On average, rats injected with live stem cells started losing weight at 59 days and lived for 86 days after injection, whereas control rats injected with dead stem cells started losing weight at 52 days and lived for 75 days after injection.
The rats were coaxed to crawl uphill on an angled plank, and their overall strength was calculated by considering the highest angle they could cling to for five seconds without sliding backwards. While all the rats grew progressively weaker, those injected with live cells did so much more slowly than those injected with dead cells.
Close examination of the transplanted cells also revealed that more than 70 percent of them developed into nerve cells, and many of those grew new endings connecting to other cells in the rat's spinal cord.
"These stem cells differentiate massively into neurons," says Koliatsos, "a pleasant surprise given that the spinal cord has long been considered an environment unfavorable to this type of transformation."
Another important feature of the transplanted cells is their ability to make nerve-cell-specific proteins and growth factors. The researchers measured five-times more of one particular factor, known as GNDF (short for glial cell derived neurotrophic factor) in spinal cord fluid. The transformation of the transplanted cells also may allow them to deliver these growth factors to other cells in the spinal cord through physical connections.
Cautioning that clinical applications are still far from possible, Koliatsos hopes to take further advantage of his rodents with ALS to learn as much as possible about how human stem cells behave when transplanted.
Johns Hopkins Medical Institutions
Testosterone therapy may prevent Alzheimer's disease
Researchers at the University of Southern California have discovered a direct link between loss of testosterone and the development of an Alzheimer's-like disease in mice. They also discovered that testosterone treatment slows progression of the disease.
More Lou Gehrigs Disease Current Events and Lou Gehrigs Disease News Articles
 |
River of Hope: My Journey with Kathy in Search of Healing from Lou Gehrig's Disease by David Tank (Author) This true story chronicles the frustrations and joys of Kathy Tank as she fought to beat Lou Gehrig's disease (ALS), which she refered to as this monster within me. Told from the perspective of her husband, River of Hope reveals how a regimen of pharmaceutically-based medical care failed Kathy nearly every step of the way and how she discovered a sense of hope through alternative approaches to treating her disease. Kathy's story of determination and hope, her fight to beat a disease that the experts told her was unbeatable, is both inspiring and tragic, hopeful and heartbreaking. Along her journey you will be introduced to some of the wonderful, caring people whom Kathy met when she stepped outside of established medicine. River of Hope is a rare and intimate look into a... |
 |
Als-Lou Gehrig's Disease (Diseases and People) by Mary Dodson Wade (Author) |
 |
The Pride of the Yankees (Collector's Edition) Starring: Gary Cooper, Teresa Wright, Babe Ruth, Walter Brennan, Dan Duryea Directed By: Sam Wood Also With: Samuel Goldwyn (Producer), Casey Robinson (Writer), Damon Runyon (Writer), Herman J. Mankiewicz (Writer), Jo Swerling (Writer), Paul Gallico (Writer), Vincent Lawrence (Writer) His talent made him a legend. His courage made him a hero. Gary Cooper is nothing short of wonderful (The Motion Picture Guide) in this moving true story of Lou Gehrig, the Hall-of-Fame ballplayer who reached the heights of stardom only to face tragedy with a dignity that inspired a nation. Nominated* for eleven Academy AwardsÂ(r), including Best Picture, The Pride of the Yankees is a glorious [and] inspiring (The Hollywood Reporter) sports classic. LouGehrig's boyhood dreams come true when he signs on with the New York Yankees and takes the field alongside his idol, Babe Ruth. In fact, Lou considers himself 'the luckiest man in the world until unthinkable misfortune strikes, and he must summon all his courage to face his toughest battle yet. |
 |
Lou Gehrig's Disease Awareness Ribbon Mouse Pad by MyHeritageWear.com The Lou Gehrig's Disease Ribbon proudly displayed on a mouse pad. There is no better way to achieve awareness for the meaning of the Lou Gehrig's Disease 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 Lou Gehrig's Disease Ribbon mouse pad at work or at home. It is certain to keep your mouse rolling in style all while gaining support and awareness! |
|
Ecological Formulas Sphingolin Caps 60's (Use of This Product May Benefit Those with Myelin Diseases Such As Multiple Sclerosis (Ms) and Amyotrophic Lateral Sclerosis (Als -Lou Gehrig's Disease) by Ecological Formulas This product, from Ecological Formulas, is an extract of bovine myelin sheath and is a rich source of myelin protective proteins. Use of this product may benefit those with myelin diseases such as multiple sclerosis (MS) and amyotrophic lateral sclerosis (ALS -Lou Gehrig's Disease) | |
 |
Lou Gehrig's Disease Big Dipper (Primary Contributor) |
 |
Episode 1 Directed By: Gary Johnstone Also With: Dan Korn (for Discovery Channel) (Producer), Rachel Bell (for IWC Media) (Producer), Acorn (Writer) |
 |
Our Journey of Nineteen Month's in Hell with Lou Gehrig's Disease: (Charles Hale's Story) by Kathy Hale (Author) CHARLES JAMES HALE The major question is how, how did he get Amyotrophic Lateral Sclerosis? Lou Gehrig's Disease is a disease with so much rage, so much determination to destroy anything or anyone that is in it's path. What was once thought to be rare and very seldom even heard of is now in this world and waiting to attack an innocent healthy body. The world need's to be warned that this devil's disease is lerking and waiting for it's next prey. Pray that it's not you or your loved one's. And never take love for granted, because it may be gone tomorrow. |
 |
ALS Awareness Key Chain, Oregon & SW Washington Chapter by Abernook Show support and spread ALS awareness with the swarovski crystal and bali silver keychain. This bracelet is designed using Swarovski crystals and Bali silver. Spouses, family and friends can now show their support and spread knowledge and awareness about the disease. A portion of the proceeds is being given to the ALS Association. Also available, ALS Bracelet, Earrings and Purse Charm |
 |
ALS Awareness Loop, ALSA New Mexico Chapter by Abernook This mini bracelet was designed to adorn wheelchairs, rear view mirrors, back packs and purses (as a purse charm). Now you can show your support any time. Made with Swarovski Crystals, Bali Silver along with a silver awareness charm. A portion of the proceeds is being donated to the ALS Chapters. |
| © 2009 BrightSurf.com |