The purpose of the present work was to determine the identity of the enzymes that synthesize N-acetylaspartylglutamate (NAAG), the most abundant dipeptide present in vertebrate central nervous system (CNS), and -citrylglutamate, a structural analogue of NAAG present in testis and immature brain. Previous evidence suggests that NAAG is not synthesized on ribosomes but presumably is synthesized by a ligase. As attempts to detect this ligase in brain extracts failed, we searched the mammalian genomes for putative enzymes that could catalyze this type of reaction. Mammalian genomes were found to encode two putative ligases homologous to Escherichia coli RIMK, which ligates glutamates to the C terminus of ribosomal protein S6. One of them, named RIMKLA, is almost exclusively expressed in the CNS, whereas RIMKLB, which shares 65% sequence identity with RIMKLA, is expressed in CNS and testis. Both proteins were expressed in bacteria or HEK293T cells and purified. RIMKLA catalyzed the ATP-dependent synthesis of N-acetylaspartylglutamate from N-acetylaspartate and L-glutamate. RIMKLB catalyzed this reaction as well as the synthesis of -citrylglutamate. The nature of the reaction products was confirmed by mass spectrometry and NMR. RIMKLA was shown to produce stoichiometric amounts of NAAG and ADP, in agreement with its belonging to the ATP-grasp family of ligases. The molecular identification of these two enzymes will facilitate progress in the understanding of the function of NAAG and -citrylglutamate.
N-Acetylaspartylglutamate (NAAG),3 the most abundant dipeptide in the CNS, is present in brain and in the spinal cord, most particularly in neurons of the anterior horn (1). NAAG can be released from neurons upon calcium depolarization (reviewed in Ref. 1) and is a substrate for two glial peptidases, glutamate carboxypeptidase-II (2) and, to a lower extent, glutamate carboxypeptidase-III (3), which are anchored to the plasma membrane with their catalytic site oriented toward the outside of the cell. NAAG long has been thought to be a neurotransmitter able to bind to the metabotropic glutamate receptors mGluR3 (4). Two recent reports suggest, however, that the effects of NAAG as a neurotransmitter are due to a 0.5% glutamate contamination present in commercial NAAG (5, 6). The function of NAAG is, therefore, presently unknown.-Citrylglutamate (BCG), which is structurally close to NAAG, is less well characterized. It was first identified in newborn rat brain, where its concentration reaches 0.5-1 mol/g at birth and then decreases with age (7). BCG also was detected in kidneys and heart and to a much lower extent in intestine, spinal cord, and lung of newborn rats. The content of BCG in all organs decreased with age to the noticeable exception of testes, where its concentration increases during sexual maturation and remains constant in adulthood (8,9). BCG is present not only in the testes of mammals but also in those of amphibians and fishes. There is evidence in germinal cells for a role in spermatogenesis (9). BCG rec...
