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Treatment extends survival in mouse model of spinal muscular atrophy
February 23, 2007Drug therapy can extend survival and improve movement in a mouse model of spinal muscular atrophy (SMA), new research shows. The study, carried out at the NIH's National Institute of Neurological Disorders and Stroke (NINDS), suggests that similar drugs might one day be useful for treating human SMA.
"This study shows that treatment can be effective when started after the disease appears," says Kenneth H. Fischbeck, M.D., of the NINDS, who helped lead the new study. The finding is important because most children with SMA are diagnosed after symptoms of the disease become obvious, he adds. The report appears in the February 22, 2007, advance online publication of The Journal of Clinical Investigation.*
SMA is the most common severe hereditary neurological disease of childhood, affecting one in every 8,000-10,000 children. Babies with the most common form of the disease, called SMA type I, develop symptoms before birth or in the first few months of life and have severe muscle weakness that makes it difficult for them to breathe, eat, and move. They usually die by age two. Other forms of SMA are not as severe, but still cause significant disability. While some symptoms of SMA can be alleviated, there is currently no treatment that can change the course of the disease.
SMA is caused by mutations in a gene called SMN1. Investigators studying the genetics of SMA have found that there is another gene, called SMN2, on the same chromosome. While the normal form of SMN1 produces a full-length functional protein, most of the protein produced by SMN2 is truncated and unable to function. The relatively small amount of normal SMN protein produced by the SMN2 gene can reduce the severity of the disease. Therefore, investigators are searching for drugs that can increase the amount of normal protein produced by this gene.
The new study, directed by Dr. Fischbeck's colleague Charlotte J. Sumner, M.D., at NINDS, tested a drug called trichostatin A (TSA) that is in a class of drugs called histone deacetylase (HDAC) inhibitors. These drugs increase the activity of certain genes in the body.
Previous studies have shown that HDAC inhibitors can increase the amount of SMN2 expression in cultured cells and that treating pregnant mice with an HDAC inhibitor can increase the survival of their babies with SMA. Preliminary clinical trials are now underway to test several HDAC inhibitors in children who have SMA. However, the drugs in those clinical trials are weak HDAC inhibitors with other biological effects that may limit their usefulness for treating this disease. More importantly, none of the previous studies has demonstrated that HDAC inhibitors can extend survival when delivered after symptoms appeared. In the new study, the investigators tested TSA, which is a potent HDAC inhibitor, in cells from SMA patients and in a mouse model of SMA. They found that the drug increased the amount of SMN2 gene activity in both the cultured cells and the mouse model.
Next, the researchers gave daily injections of TSA to the SMA mice, starting when the mice were 5 days old. By that time, the mice showed clear symptoms of disease: they were significantly underweight and they had a markedly impaired righting reflex, or ability to get on their feet after being placed on their backs. The treated mice lived 19 percent longer, on average, than mice that did not receive TSA. About three-fourths of the treated mice had improved survival compared to control mice. The other fourth showed no improvement.
The treated mice had less weight loss and better righting reflexes, walking ability, and forelimb grip strength than mice that did not receive TSA. Examination showed that the TSA-treated mice also had larger neurons in the spinal cord, thicker muscle fibers, and more muscle mass than untreated mice. "This is a proof-of-concept experiment," says Dr. Sumner. "It clearly demonstrates that this treatment can ameliorate the disease in mice." While the results are exciting, there are still no studies that have proven the effectiveness of HDAC inhibitors in humans, she cautions.
The investigators are now testing whether treatment with TSA earlier in the disease process will work better than the delayed treatment in this study. They also plan to test other HDAC inhibitors in mice and to study exactly how the drugs influence the disease process. While TSA is expensive to produce and it is not approved for clinical use, similar drugs being developed to treat cancer and other diseases may be useful for treating SMA, Dr. Sumner says.
NIH/National Institute of Neurological Disorders and Stroke
SMA is caused by mutations in a gene called SMN1. Investigators studying the genetics of SMA have found that there is another gene, called SMN2, on the same chromosome. While the normal form of SMN1 produces a full-length functional protein, most of the protein produced by SMN2 is truncated and unable to function. The relatively small amount of normal SMN protein produced by the SMN2 gene can reduce the severity of the disease. Therefore, investigators are searching for drugs that can increase the amount of normal protein produced by this gene.
The new study, directed by Dr. Fischbeck's colleague Charlotte J. Sumner, M.D., at NINDS, tested a drug called trichostatin A (TSA) that is in a class of drugs called histone deacetylase (HDAC) inhibitors. These drugs increase the activity of certain genes in the body.
Previous studies have shown that HDAC inhibitors can increase the amount of SMN2 expression in cultured cells and that treating pregnant mice with an HDAC inhibitor can increase the survival of their babies with SMA. Preliminary clinical trials are now underway to test several HDAC inhibitors in children who have SMA. However, the drugs in those clinical trials are weak HDAC inhibitors with other biological effects that may limit their usefulness for treating this disease. More importantly, none of the previous studies has demonstrated that HDAC inhibitors can extend survival when delivered after symptoms appeared. In the new study, the investigators tested TSA, which is a potent HDAC inhibitor, in cells from SMA patients and in a mouse model of SMA. They found that the drug increased the amount of SMN2 gene activity in both the cultured cells and the mouse model.
Next, the researchers gave daily injections of TSA to the SMA mice, starting when the mice were 5 days old. By that time, the mice showed clear symptoms of disease: they were significantly underweight and they had a markedly impaired righting reflex, or ability to get on their feet after being placed on their backs. The treated mice lived 19 percent longer, on average, than mice that did not receive TSA. About three-fourths of the treated mice had improved survival compared to control mice. The other fourth showed no improvement.
The treated mice had less weight loss and better righting reflexes, walking ability, and forelimb grip strength than mice that did not receive TSA. Examination showed that the TSA-treated mice also had larger neurons in the spinal cord, thicker muscle fibers, and more muscle mass than untreated mice. "This is a proof-of-concept experiment," says Dr. Sumner. "It clearly demonstrates that this treatment can ameliorate the disease in mice." While the results are exciting, there are still no studies that have proven the effectiveness of HDAC inhibitors in humans, she cautions.
The investigators are now testing whether treatment with TSA earlier in the disease process will work better than the delayed treatment in this study. They also plan to test other HDAC inhibitors in mice and to study exactly how the drugs influence the disease process. While TSA is expensive to produce and it is not approved for clinical use, similar drugs being developed to treat cancer and other diseases may be useful for treating SMA, Dr. Sumner says.
NIH/National Institute of Neurological Disorders and Stroke
Spinal Muscular Atrophy Current Events and Spinal Muscular Atrophy News RSSResearchers identify drug candidate for treating spinal muscular atrophy
A chemical cousin of the common antibiotic tetracycline might be useful in treating spinal muscular atrophy (SMA), a currently incurable disease that is the leading genetic cause of death in infants.
ISU researchers find possible treatment for Spinal Muscular Atrophy
Spinal Muscular Atrophy is the second-leading cause of infant mortality in the world.
UCLA stem cells scientists make electrically active motor neurons from iPS cells
Stem cells scientists at UCLA showed for the first time that human induced pluripotent stem (iPS) cells can be differentiated into electrically active motor neurons, a discovery that may aid in studying and treating neurological disorders.
MU logo News Bureau University of Missouri About the News Bureau Contact Us Home / News Releases / 2009 MU Researchers Discover Target that Could Ease Spinal Muscular Atrophy Symptoms
There is no cure for spinal muscular atrophy (SMA), a genetic disorder that causes the weakening of muscles and is the leading genetic cause of infant death, but University of Missouri researchers have discovered a new therapeutic target that improves deteriorating skeletal muscle tissue caused by SMA. The new therapy enhanced muscle strength, improved gross motor skills and increased the lifespan in a SMA model.
Patient-derived induced stem cells retain disease traits
hen neurons started dying in Clive Svendsen's lab dishes, he couldn't have been more pleased. The dying cells - the same type lost in patients with the devastating neurological disease spinal muscular atrophy - confirmed that the University of Wisconsin-Madison stem cell biologist had recreated the hallmarks of a genetic disorder in the lab, using stem cells derived from a patient.
Molecular Therapy for Spinal Muscular Atrophy Closer to Clinical Use
Spinal muscular atrophy, a neurodegenerative disorder that causes the weakening of muscles, is the leading cause of infant death and occurs in 1 in 6,000 live births.
Genetic test for spinal muscular atrophy should be offered to all couples, says the ACMG
Carrier screening for spinal muscular atrophy (SMA)-a serious genetic disease affecting approximately 1 in 10,000 infants that causes progressive muscle weakness and death-should be made available to all families, according to a new practice guideline issued by the American College of Medical Genetics (ACMG).
Penn researchers gain new insights on spinal muscular atrophy
Researchers from the University of Pennsylvania School of Medicine discovered that the effect of a protein deficiency, which is the basis of the neuromuscular disease spinal muscular atrophy (SMA), is not restricted to motor nerve cells, suggesting that SMA is a more general disorder.
Cold Spring Harbor Laboratory Scientists Devise Potential Approach To Treat Spinal Muscular Atrophy
In the neuromuscular disease called spinal muscular atrophy, or SMA, a protein deficiency caused by a single gene mutation leads to serious damage in growing nerve cells and the muscles they control.
CSHL shows correcting rna splicing may help treat spinal muscular atrophy
RNA splicing antisense technology studied at Cold Spring Harbor Laboratory (CSHL) effectively corrected an mRNA splicing defect found in spinal muscular atrophy (SMA) patients, and is now ready to be tested in mouse models.
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