N-acetylaspartate, or NAA, is the acetylated form of the amino acid aspartate, and it is present exclusively in the nervous system. Indeed, NAA is one of the most highly concentrated chemicals found in the brain of humans and animals, and yet the functions served by this brain-specific metabolite remain elusive, and controversial. Despite the uncertainties surrounding the functions of NAA in the development and operation of the nervous system, this molecule has attracted the attention of researchers and clinicians for two distinct reasons. First, the acetyl proton on NAA gives off a very prominent signal in water-suppressed, proton magnetic resonance spectroscopy (MRS), which permits clinicians to monitor levels of NAA in the brains of patients in a non-invasive manner. Because NAA is found primarily in neurons, and because the levels in the brain have been found to change rapidly after injury, or slowly during neurodegenerative diseases, MRS has become a preferred method of analyzing nerve cell dysfunction and death without surgical intervention. The second reason that NAA has attracted attention in recent years is that a congenital genetic disorder of NAA metabolism has been found to be the cause of the neurodegenerative disorder known as Canavan's disease. Canavan's disease is an inherited leukodystrophy that involves myelination pathologies of cortical white matter, leading to death within 10 years of birth. The genetic mutation results in a defective enzyme that de-acetylates NAA in the brain, resulting in a significant rise in NAA levels in the brain and urine. This enzyme, known as aspartoacylase (ASPA), appears to be involved in the process of myelination, such that a defective enzyme results in a disruption of the myelination of nerve fibers during development. The purpose of this symposium is to bring together investigators from around the world who are interested in the study of NAA, and the roles it plays in neuronal development and functioning. It is hoped that bringing researchers and clinicians together in such a forum will facilitate rapid progress in this emerging field, and will help lead to discoveries that can alleviate the suffering caused by a deadly, inheritable infantile disease. TOC:Preface.- Introduction.- Expression of N-Acetylaspartate and N-Acetylaspartate metabolism in Neural Cells.- NAA Synthesis and Functional Roles.- Identity of the High-Affinity Sodium/Carboxylate Cotransporter NAC3 as the NAA Transporter.- The Knockout Mouse for Canavan Disease and the Human Counterpart.- Function of NAA and NAAG in Brain.- Control of Brain Volume During Hypoosmolar and Hyperosmolar Conditions.- Physiological Role of N-Acetylaspartate.- Defective Myelin Lipid Synthesis as a Pathogenic Mechanism in Canavan Disease.- Mutation Analysis of the Aspartoacylase Gene in Non-Jewish Patients with Canavan Disease.- Does ASPA Gene Mutation in Canavan Disease Alter Oligodendrocyte Development?.- Quantitation of NAA in the Brain by Magnetic Resonance Spectroscopy.- N-Acetyl-l-Aspartate in Multiple Sclerosis.- NAA and Highger Cognitive Function in Humans.- In Vivo NMR Measures of NAA and the Neurobiology of Schizophrenia.- N-Acetyl Aspartate as a Marker of Neuronal Injury in Neurodegenerative Disease.- Regulation of NAA-Synthesis in the Human Brain In Vivo. Canavan's Disease, Alzheimer's Disease and Schizophrenia.- Magnetic Resonance Spectroscopy for Monitoring Neuronal Integrity in Amyotrophic Lateral Sclerosis.- Hypo-Acetylaspartia: Clinical and Biochemical Follow-up of a Patient.- Cellular Localization of NAAG.- Synthesis of N-Acetylaspartylglutamate (NAAG) and N-Acetylaspartate (NAA) in Axons and Glia of the Crayfish Medial Giant Nerve Fiber.- NAAG as Neurotransmitter.- Glutamate Carboxypeptidase II (NAALADase) Inhibition as a novel Therapeutic Strategy.- N-Acetylaspartylglutamate (NAAG) in Spinal Cord Injury and Disease.- N-Acetylaspartylglutamate (NAAG) in Pelizaeus-Merzbacher Disease.- Concluding Remarks.
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