Clue to Lou Gehrig's disease emerges.Amyotrophic lateral sclerosis amyotrophic lateral sclerosis (ALS) (ā'mīətrōf`ik, sklĭrō`sĭs) or motor neuron disease, (ALS Als (äls), Ger. Alsen, island, 121 sq mi (313 sq km), Sønderjylland co., S Denmark, in the Lille Bælt, separated from the mainland by the narrow Alensund. ), the neurodegenerative disease Neurodegenerative disease A disease in which the nervous system progressively and irreversibly deteriorates. Mentioned in: Amnesia that killed baseball legend Lou Gehrig and slays about 1 in 1,000 people, has largely defied explanation. An inherited enzyme defect enzyme defect A structural or functional defect in an enzyme needed to catalyze a normal biochemical reaction in the body. See Enzyme, Inborn error of metabolism. identified in 1993 accounts for only a few percent of the cases. Now, researchers have evidence suggesting that many ALS cases, perhaps the majority, result from abnormal genetic instructions that leave the brain and spinal cord unable to sponge up glutamate glutamate /glu·ta·mate/ (gloo´tah-mat) a salt of glutamic acid; in biochemistry, the term is often used interchangeably with glutamic acid. glu·ta·mate n. 1. A salt of glutamic acid. , a potentially destructive amino acid. The resulting glutamate buildup presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. causes the disease's cardinal feature-the death of the nerve cells, or neurons, that control the body's muscles. Neurons normally release small amounts of glutamate to signal neighboring cells. Yet because exposure to large quantities of this neurotransmitter can kill neurons, cell surface proteins known as glutamate transporters must quickly recycle the amino acid. At last week's Society for Neuroscience For other uses, see SFN (disambiguation). The Society for Neuroscience (SfN) is a professional society for basic scientists and physicians around the world whose research is focused on the study of the brain and nervous system. meeting in Washington, D.C., Jeffrey D. Rothstein of Johns Hopkins University Johns Hopkins University, mainly at Baltimore, Md. Johns Hopkins in 1867 had a group of his associates incorporated as the trustees of a university and a hospital, endowing each with $3.5 million. Daniel C. in Baltimore and his colleagues described a study of one glutamate transporter, EAAT EAAT excitatory amino acid transporter EAAT Escadrille Avions de l'Armee de Terre 2. When the researchers examined tissues from 20 people who had died of ALS, they found that 10 had frequently harbored mutations in the genetic instructions used to construct that crucial transporter. To build proteins, cells normally use a gene's exons, its protein-coding regions, to create messenger RNA (mRNA) molecules. The protein-making equipment of cells reads these strands of mRNA to determine which amino acids to link together. In their study of brain and spinal cord tissue from people who had died of ALS, Rothstein's group examined the mRNAs created from the gene for EAAT2. In half of the patients, the researchers found abnormal mRNAs. Some lacked a copy of one of the gene's exons. Others contained introns, non-protein-coding regions of the EAAT2 gene, in place of the gene's final exon Exon In split genes, a portion that is included in the ribonucleic acid (RNA) transcript of a gene and survives processing of the RNA in the cell nucleus to become part of a spliced messenger RNA (mRNA) or structural RNA in the cell cytoplasm. . The scientists found that these mRNAs do not produce functional glutamate transporters. To determine whether the mutant mRNAs were specific to ALS, Rothstein's group examined brain and spinal cord tissue from 24 people who had died of other neurodegenerative diseases or non-neurological causes. None of these tissues had the mutant mRNAs. The mutant mRNAs and the resulting absence of EAAT2 may explain an earlier finding by Rothstein's group that ALS patients have problems clearing glutamate (SN: 3/26/94, p. 203). "This is very exciting. It sounds like a substantial step forward in understanding the loss of glutamate transport. It helps strengthen the original finding," says Dennis W. Choi of Washington University in St. Louis “Washington University” redirects here. For other uses, see Washington (disambiguation). Washington University in St. Louis is a private, coeducational, research university located in St. Louis, Missouri. . The glutamate transporter EAAT2 is found only on glia, the support cells that surround neurons. Though nerve cells possess their own forms of glutamate transporters, EAAT2 appears to be the most effective glutamate sponge. Rothstein's group reported in the March Neuron that eliminating this glutamate transporter in rats triggers an ALS-like neurodegeneration that results in paralysis. "These proteins are critical for the clearance of extracellular glutamate. If the proteins are not present, neurons die," says Rothstein. Why are the mRNAs produced incorrectly? The EAAT2 gene may contain mutations, though researchers have not identified any so far. Rothstein also speculates that the abnormal mRNAs may result from mutations in a second gene, whose protein is involved in creating the mRNAs. A defect in glutamate clearance might explain the rare, inherited form of ALS attributed to an abnormal version of an enzyme called superoxide dismutase (SOD). Rothstein's group has some evidence that the enzyme's actions alter EAAT2 proteins. "We don't know how the mutant SOD is toxic. It might injure the glutamate transporter," he says. Cautioning that the group's results are preliminary, Rothstein says he and his colleagues plan to seek further proof that a shortage of glutamate transporters underlies many ALS cases. Nonetheless, he remains hopeful that the identification of the mRNA mutations will lead to a test enabling physicians to diagnose ALS early in the disease process. Moreover, confirming that glutamate is the central player in neuron death from ALS would narrow the focus of researchers searching for potential therapies, says Rothstein. |
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