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Cold Spring Harbor Laboratory Scientists Devise Potential Approach To Treat Spinal Muscular Atrophy
April 07, 2008Cold Spring Harbor, NY - 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.
Now, in laboratory experiments, researchers at Cold Spring Harbor Laboratory (CSHL) and Isis Pharmaceuticals have induced cells to replenish the protein by activating an existing, slightly modified copy of the mutant gene. These early results hold out hope for one day successfully treating this often-fatal disease.
SMA, which affects about one out of every 6,000 newborns, occurs when the baby inherits a defective version of a gene called SMN1 from both its mother and father. The protein that this gene produces performs cellular "housekeeping" activities, says CSHL professor Adrian Krainer, Ph.D., who led the research team, so "it's hard to explain why it matters more in motor neurons" that are afflicted by SMA than in other cells.
A Backup Copy
Some SMA patients are affected more profoundly than others, in part because a second version of the gene, SMN2, also produces the protein, and makes up for some of the deficit. "All these patients, although they're missing a critical gene, have this second gene that in healthy people is not necessary," says Dr. Krainer.
Over time, subtle mutations have arisen that make the second gene produce much less of the critical protein, even though it still has all of the pieces needed to make the final protein. Instead, the mutations trigger the cellular machinery to omit one major piece of the protein, without which it rapidly degrades.
Researchers have known for years that some sections of the genetic information are left out during the intricate process that ends in the production of protein. The first step of this process, which is called transcription, involves copying DNA into a strand of RNA. This RNA is then "edited" by special enzymes that remove some sections and splice the others back together before the RNA is used to make protein. For many genes, the various sections can be mixed and matched, so that a single gene produces more than one kind of protein. Once considered a curiosity, this "alternative splicing," of the RNA strand is now viewed as common, says Krainer, who is an expert on the topic.
Alternative Ways of Splicing RNA
When he first learned about SMA, Dr. Krainer says, "I was extremely excited, because I realized that what we knew about splicing could be applied" to the disease. All the researchers needed to do was to alter the splicing of the second copy of the gene to include the missing piece.
Dr. Krainer and his team sought to change the splicing by introducing synthetic molecules, called antisense oligonucleotides or ASOs, that precisely match various sections of the RNA. They reasoned that if these molecules stuck to the right part of the RNA, they might redirect the splicing process in the desired way. The researchers injected promising ASOs into mice that had an added, human version of the SMN2 gene. As they had hoped, the gene produced much more of the RNA for the critical protein, including the section that is usually omitted, in tissues where the ASOs accumulate.
Before this approach can be tried in patients, several additional issues must be addressed. Researchers will also need to find out, for example, whether the ASOs really benefit growing animals with SMA and how and when they should be administered to affect the nervous system. Still, in contrast to approaches that change splicing patterns for many genes, Krainer expects the highly targeted ASOs may have fewer side effects.
Cold Spring Harbor Laboratory
Dr. Krainer and his team sought to change the splicing by introducing synthetic molecules, called antisense oligonucleotides or ASOs, that precisely match various sections of the RNA. They reasoned that if these molecules stuck to the right part of the RNA, they might redirect the splicing process in the desired way. The researchers injected promising ASOs into mice that had an added, human version of the SMN2 gene. As they had hoped, the gene produced much more of the RNA for the critical protein, including the section that is usually omitted, in tissues where the ASOs accumulate.
Before this approach can be tried in patients, several additional issues must be addressed. Researchers will also need to find out, for example, whether the ASOs really benefit growing animals with SMA and how and when they should be administered to affect the nervous system. Still, in contrast to approaches that change splicing patterns for many genes, Krainer expects the highly targeted ASOs may have fewer side effects.
Cold Spring Harbor Laboratory
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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.
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Genetic test for spinal muscular atrophy should be offered to all couples, says the ACMG
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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.
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.
Treatment extends survival in mouse model of spinal muscular atrophy
Drug 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.
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