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Title: GTP cyclohydrolase I feedback regulatory protein is expressed in serotonin neurons and regulates tetrahydrobiopterin biosynthesis. Author: Kapatos G, Hirayama K, Shimoji M, Milstien S. Journal: J Neurochem; 1999 Feb; 72(2):669-75. PubMed ID: 9930739. Abstract: Tetrahydrobiopterin, the coenzyme required for hydroxylation of phenylalanine, tyrosine, and tryptophan, regulates its own synthesis through feedback inhibition of GTP cyclohydrolase I (GTPCH) mediated by a regulatory subunit, the GTP cyclohydrolase feedback regulatory protein (GFRP). In the liver, L-phenylalanine specifically stimulates tetrahydrobiopterin synthesis by displacing tetrahydrobiopterin from the GTPCH-GFRP complex. To explore the role of this regulatory system in rat brain, we examined the localization of GFRP mRNA using double-label in situ hybridization. GFRP mRNA expression was abundant in serotonin neurons of the dorsal raphe nucleus but was undetectable in dopamine neurons of the midbrain or norepinephrine neurons of the locus coeruleus. Simultaneous nuclease protection assays for GFRP and GTPCH mRNAs showed that GFRP mRNA is most abundant within the brainstem and that the ratio of GFRP to GTPCH mRNA is much higher than in the ventral midbrain. Two species of GFRP mRNA differing by approximately 20 nucleotides in length were detected in brainstem but not in other tissues, with the longer, more abundant form being common to other brain regions. It is interesting that the pineal and adrenal glands did not contain detectable levels of GFRP mRNA, although GTPCH mRNA was abundant in both. Primary neuronal cultures were used to examine the role of GFRP-mediated regulation of GTPCH on tetrahydrobiopterin synthesis within brainstem serotonin neurons and midbrain dopamine neurons. L-Phenylalanine increased tetrahydrobiopterin levels in serotonin neurons to a maximum of twofold in a concentration-dependent manner, whereas D-phenylalanine and L-tryptophan were without effect. In contrast, tetrahydrobiopterin levels within cultured dopamine neurons were not altered by L-phenylalanine. The time course of this effect was very rapid, with a maximal response observed within 60 min. Inhibitors of tetrahydrobiopterin biosynthesis prevented the L-phenylalanine-induced increase in tetrahydrobiopterin levels. 7,8-Dihydroneopterin, a reduced pteridine capable of inhibiting GTPCH in a GFRP-dependent manner, decreased tetrahydrobiopterin levels in cultures of both serotonin and dopamine neurons. This inhibition was reversed by L-phenylalanine in serotonin but not in dopamine neurons. Our data suggest that GTPCH activity within serotonin neurons is under a tonic inhibitory tone mediated by GFRP and that tetrahydrobiopterin levels are maintained by the balance of intracellular concentrations of tetrahydrobiopterin and L-phenylalanine. In contrast, although tetrahydrobiopterin biosynthesis within dopamine neurons is also feedback-regulated, L-phenylalanine plays no role, and therefore tetrahydrobiopterin may have a direct effect on GTPCH activity.[Abstract] [Full Text] [Related] [New Search]