Biosynthesis of NAAG by an enzyme‐mediated process in rat central nervous system neurons and glia

The peptide transmitter N‐acetylaspartylglutamate (NAAG) is present in millimolar concentrations in mammalian spinal cord. Data from the rat peripheral nervous system suggest that this peptide is synthesized enzymatically, a process that would be unique for mammalian neuropeptides. To test this hypo...

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Bibliographic Details
Published in:Journal of neurochemistry Vol. 90; no. 4; pp. 989 - 997
Main Authors: Gehl, Laura M., Saab, Omar H., Bzdega, Tomasz, Wroblewska, Barbara, Neale, Joseph H.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Ltd 01-08-2004
Blackwell
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Summary:The peptide transmitter N‐acetylaspartylglutamate (NAAG) is present in millimolar concentrations in mammalian spinal cord. Data from the rat peripheral nervous system suggest that this peptide is synthesized enzymatically, a process that would be unique for mammalian neuropeptides. To test this hypothesis in the mammalian CNS, rat spinal cords were acutely isolated and used to study the incorporation of radiolabeled amino acids into NAAG. Consistent with the action of a NAAG synthetase, inhibition of protein synthesis did not affect radiolabel incorporation into NAAG. Depolarization of spinal cords stimulated incorporation of radiolabel. Biosynthesis of NAAG by cortical astrocytes in cell culture was demonstrated by tracing incorporation of [3H]‐glutamate by astrocytes. In the first test of the hypothesis that NAA is an immediate precursor in NAAG biosynthesis, [3H]‐NAA was incorporated into NAAG by isolated spinal cords and by cell cultures of cortical astrocytes. Data from cerebellar neurons and glia in primary culture confirmed the predominance of neuronal synthesis and glial uptake of NAA, leading to the hypothesis that while neurons synthesize NAA for NAAG biosynthesis, glia may take it up from the extracellular space. However, cortical astrocytes in serum‐free low‐density cell culture incorporated [3H]‐aspartate into NAAG, a result indicating that under some conditions these cells may also synthesize NAA. Pre‐incubation of isolated spinal cords and cultures of rat cortical astrocytes with unlabeled NAA increased [3H]‐glutamate incorporation into NAAG. In contrast, [3H]‐glutamine incorporation in spinal cord was not stimulated by unlabeled NAA. These results are consistent with the glutamate–glutamine cycle greatly favoring uptake of glutamine into neurons and glutamate by glia and suggest that NAA availability may be rate‐limiting in the synthesis of NAAG by glia under some conditions.
ISSN:0022-3042
1471-4159
DOI:10.1111/j.1471-4159.2004.02578.x