Early fix: prion disease remedied in mice.Mad cow disease mad cow disease: see prion. mad cow disease or bovine spongiform encephalopathy (BSE) Fatal neurodegenerative disease of cattle. Symptoms include behavioral changes (e.g. and other brain disorders stemming from prion prion (prī`ŏn), infectious agent thought to cause a group of diseases known as prion diseases or transmissible spongiform encephalopathies. proteins have long resisted cure. Now, in a test in mice, a prion disease caught early has been reversed. Prions--misfolded versions of a natural protein called PrP--trigger normal PrP to misfold in the same way. Over time, prion infection kills so many neurons that the brain becomes riddled with holes. In the new study, neurologist Giovanna R. Mallucci of the Institute of Neurology in London and her colleagues tested whether shutting off the prions' supply of PrP could alter the course of disease. They worked with genetically engineered genetically engineered adjective Recombinant, see there mice that make PrP only for the first 9 weeks of life and normal mice that make PrP indefinitely. The researchers infected both groups, shortly after birth, with prions that cause scrapie scrapie: see prion. in sheep. At 8 weeks of age, mice in both groups showed cognitive deficits. For example, mice normally spend more time exploring unfamiliar sets of objects than known ones. But the infected mice spent the same time examining strange or familiar arrangements of blocks, indicating that the animals had forgotten familiar arrangements. The mice also lost some of their natural inclination to gather food pellets. Over the next several weeks, the normal mice continued to decline. However, the transgenic mice, which stopped making PrP, showed improvements, says Mallucci. By 12 weeks of age, they had regained memory and motivation. Brain changes paralleled the behavioral changes. At 8 weeks old, the mice had lost function at many brain synapses, the junctions where messages are transmitted between neurons. But transgenic mice recovered synapse synapse (sĭn`ăps), junction between various signal-transmitter cells, either between two neurons or between a neuron and a muscle or gland. A nerve impulse reaches the synapse through the axon, or transmitting end, of a nerve cell, or neuron. function soon after their PrP production stopped, Mallucci and her colleagues report in the Feb. 1 Neuron. While PrP'S natural role is poorly understood (SN: 2/4/06, p. 68), mice lacking it don't seem to suffer consequences, she adds. This and previous work indicate that the body can clear prions once the PrP supply is eliminated, says Howard J. Federoff, a physician and neuroscientist at the University of Rochester The University of Rochester (UR) is a private, coeducational and nonsectarian research university located in Rochester, New York. The university is one of 62 elected members of the Association of American Universities. School of Medicine and Dentistry in New York. "This heralds an opportunity for therapeutic development that many in the past might have thought worthless," he says. The new study showed that brain impairments occurred in the mice before the appearance of large accumulations of prions and extensive cell death. "They are seeing [behavioral] alterations before there is massive damage in the brain," says neuroscientist Claudio A. Soto of the University of Texas Medical Branch "UTMB" redirects here. For other system schools, see University of Texas System. The University of Texas Medical Branch (UTMB) is a component of the University of Texas System located in Galveston, Texas, about 50 miles (80 km) southeast of downtown Houston. in Galveston. "This is very important because [that's when] these changes are still reversible." Eventually, scientists might develop drugs to neutralize PrP, devise a gene therapy to silence the gene encoding PrP, or interfere with RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic to stop the protein's production, Mallucci says. However, identifying patients in early stages of prion diseases might be difficult, says Soto. It's hard to distinguish the initial damage in prion diseases from deficiencies caused by more-common conditions, such as Alzheimer's disease, he says. Mallucci hypothesizes that a still-unknown toxic substance is released when prions convert PrP.--N. SEPPA SEPPA Southeastern Professional Photographers Association SEPPA St Edmund's Past Pupils Association |
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