Mouse study shows new therapy may reverse muscular dystrophy.For people with the most common type of muscular dystrophy muscular dystrophy (dĭs`trōfē), any of several inherited diseases characterized by progressive wasting of the skeletal muscles. There are five main forms of the disease. , one faulty gene wreaks devastating dev·as·tate tr.v. dev·as·tat·ed, dev·as·tat·ing, dev·as·tates 1. To lay waste; destroy. 2. To overwhelm; confound; stun: was devastated by the rude remark. consequences. Researchers have now found a way to deliver a working copy of the gene to the entire muscular system in mice that suffer from the muscle-wasting ailment. With one injection into the bloodstream, the animals' conditions improved markedly. "No one's been able to get a delivery system to work very well before," says Jeffrey S. Chamberlain of the University of Washington in Seattle. "We were able to show a very significant effect in halting and reversing this disease." To the genome of a virus that doesn't trigger an immune response immune response n. An integrated bodily response to an antigen, especially one mediated by lymphocytes and involving recognition of antigens by specific antibodies or previously sensitized lymphocytes. or replicate in mice or people, the researchers added the dystrophin dys·tro·phin n. A structural protein found in small amounts in normal muscle but absent or present in abnormal amounts in individuals with muscular dystrophy. gene, the faulty version of which causes Duchenne muscular dystrophy Duchenne muscular dystrophy (DMD) The most severe form of muscular dystrophy, DMD usually affects young boys and causes progressive muscle weakness, usually beginning in the legs. . The investigators also included a promoter gene that ensured that only muscle cells would manufacture the protein encoded by the dystrophin gene. That protein acts like a girder girder In building construction, a large main supporting beam, commonly of steel or reinforced concrete, that carries a heavy transverse (crosswise) load. In a floor system, beams and joists transfer their loads to the girders, which in turn frame into the columns. in a building, providing structural support to muscle cells. Without it, muscle tissue develops holes and tears. The researchers injected the engineered virus, along with a chemical to facilitate its diffusion through blood vessels Blood vessels Tubular channels for blood transport, of which there are three principal types: arteries, capillaries, and veins. Only the larger arteries and veins in the body bear distinct names. , into mice with muscular dystrophy. Weeks later, the scientists examined these animals' muscles, including those in the arms, legs, and ribs, and compared them with muscles of similar mice that hadn't received an injection. "The [treated] muscles looked tremendously better under the microscope," says Chamberlain. He and his colleagues report their results in the August Nature Medicine. One injection into the bloodstream spread the virus--and the dystrophin gene it carries--to skeletal muscles Skeletal muscles Muscles that move the skeleton. All of the muscles under voluntary control are skeletal muscles. Mentioned in: Creatine Kinase Test and the heart. "This research shows that it's possible to deliver a therapeutic gene throughout the body," comments Thomas A. Rando of Stanford University, who studies muscle diseases. "That's been a real hurdle." Because the dystrophin protein in the test functioned only in muscle cells, the procedure overcomes an additional obstacle to gene therapy--limiting a therapeutic gene's activity to the desired cells and tissues. Other experimental attempts at gene therapy for muscular diseases rely on local injections directly into muscle, and any beneficial effects are limited to that area. This research sets a new standard for gene delivery to the entire muscular system, says Rando. The same gene-delivery method could prove useful for treating a variety of muscular disorders, including heart disease and muscle wasting associated with aging, Rando says. Adding to the technique's promise is evidence that the virus infiltrated many organ systems. To target genetic therapies to disorders of organs such as the liver and kidney, investigators might load viruses with different combinations of healthy genes and promoters, Chamberlain speculates. While the treatment appears to be safe and effective in mice, it's too soon to say whether it will be suitable for use in people. Chamberlain is embarking on safety studies in larger mammals and hopes to begin human-safety studies in a few years. Well before the results become available, this new method will provide laboratory and clinical researchers with a powerful new means of gene delivery, says Kevin P. Campbell of the University of Iowa Not to be confused with Iowa State University. The first faculty offered instruction at the University in March 1855 to students in the Old Mechanics Building, situated where Seashore Hall is now. In September 1855, the student body numbered 124, of which, 41 were women. in Iowa City. |
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