UNIPROT:P06889 - FACTA Search

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Tyrosine hydroxylase isolated from striatal synaptosomes exhibits biphasic Lineweaver-Burk kinetics for its tetrahydrobiopterin cofactor, consistent with multiple Km forms of the enzyme. Incubation of striatal synaptosomes with forskolin (EC50 0.45 microM) or dibutyryl cyclic AMP (EC50 1.2 mM), results in activation of tyrosine hydroxylase, isolated from these synaptosomes via conversion of the enzyme to a single low Km form (Km 40 microM). The activation of synaptosomal tyrosine hydroxylase by forskolin or dibutyryl cyclic AMP is not additive and is similar to activation seen with cyclic AMP-dependent protein kinase phosphorylation of purified tyrosine hydroxylase. The addition of dopamine (IC50 1.0 microM) (with nomifensine and pargyline) or apomorphine (IC50 30 nM) to the synaptosomal incubation medium blocks the activation of tyrosine hydroxylase by forskolin. This effect of dopamine and apomorphine can in turn be blocked by preincubation of the synaptosomes with the dopamine receptor antagonist haloperidol (IC50 30 nM and 4.5 nM, respectively) or chlorpromazine (IC50 50 nM versus apomorphine). In contrast to the forskolin data above, dopamine failed to block the activation of tyrosine hydroxylase by dibutyryl cyclic AMP. Addition of dopamine to the tyrosine hydroxylase assay, in amounts equivalent to that carried over from the synaptosomal incubation with the tyrosine hydroxylase, had no effect on forskolin-activated enzyme. The observations that dopamine and apomorphine can block forskolin activation of tyrosine hydroxylase, that this blockade can in turn be prevented by preincubation with haloperidol or chlorpromazine, and that the amount of dopamine required for blockade of forskolin activation in synaptosomes has no effect on tyrosine hydroxylase when added to the enzyme assay constitute the first clear evidence of a presynaptic dopamine receptor (autoreceptor). This autoreceptor regulates the activity of tyrosine hydroxylase by preventing or reversing cyclic AMP-dependent activation of the enzyme, probably through a decrease in the phosphorylation state of tyrosine hydroxylase. Failure of dopamine to block dibutyryl cyclic AMP activation of tyrosine hydroxylase suggests that, if forskolin and dibutyryl cyclic AMP activate tyrosine hydroxylase through identical changes in phosphorylation state, then autoreceptor regulation of tyrosine hydroxylase must occur through a decrease in cyclic AMP levels.
Mol Pharmacol 1986 Jun
PMID:Dopamine autoreceptor regulation of the kinetic state of striatal tyrosine hydroxylase. 287 88

Incubation of rat pheochromocytoma PC12 cells with the calcium ionophore, A23187 (10(-5) M), 56 mM K+, or dibutyryl cAMP (2 mM) is associated with increased activity and enhanced phosphorylation of tyrosine hydroxylase in the cells. Both the activation and the increased phosphorylation of tyrosine hydroxylase produced by A23187 and 56 mM K+ are dependent on the presence of extracellular calcium, whereas similar effects produced by dibutyryl cAMP are independent of calcium. The effects of 56 mM K+ plus dibutyryl cAMP or A23187 plus dibutyryl cAMP on the activation and phosphorylation of tyrosine hydroxylase are additive. In contrast, the effects of 56 mM K+ plus A23187 on either the activation or the phosphorylation of the enzyme are not additive. Following stimulation of intact PC12 cells with 32Pi, in order to label ATP stores, and tryptic digestion of the phosphorylated enzyme, separation of the tryptic phosphopeptides by high pressure liquid chromatography yields four distinct 32P-peptide peaks. Incubation of the cells in the presence of either 56 mM K+ or A23187 is associated with increased 32Pi incorporation into three peptides whereas, in the presence of dibutyryl cAMP, increased 32Pi incorporation is observed in only one of these peptides. When tyrosine hydroxylase purified from rat pheochromocytoma tumor is incubated in vitro with [gamma-32P]ATP and either cAMP-dependent or calcium/calmodulin-dependent protein kinase under appropriate conditions, increased phosphorylation of tyrosine hydroxylase is observed. However, even though in vitro phosphorylation by cAMP-dependent protein kinase is associated with activation of tyrosine hydroxylase, in vitro phosphorylation by calcium/calmodulin-dependent protein kinase does not lead to activation of the enzyme. Tryptic digestion of tyrosine hydroxylase phosphorylated by calcium/calmodulin-dependent protein kinase yields three distinct 32P-peptide peaks, which are identical to those phosphorylated by treatment of intact PC12 cells with either high K+ or A23187. In contrast, cAMP-dependent protein kinase phosphorylates only one peptide, which is identical to that phosphorylated by treatment of the intact cells with dibutyryl cAMP. These results indicate that tyrosine hydroxylase is activated and phosphorylated at multiple sites in PC12 cells exposed to 56 mM K+ or A23187. The results suggests that the in situ phosphorylation of these sites is catalyzed by calcium/calmodulin-dependent protein kinase; however, phosphorylation by this protein kinase is not sufficient to activate the enzyme.
Mol Pharmacol 1986 Nov
PMID:Phosphorylation of tyrosine hydroxylase on at least three sites in rat pheochromocytoma PC12 cells treated with 56 mM K+: determination of the sites on tyrosine hydroxylase phosphorylated by cyclic AMP-dependent and calcium/calmodulin-dependent protein kinases. 287 91

When rat pheochromocytoma PC18 cells are exposed to the cyclic AMP analog, 8-bromocyclic AMP, and/or the synthetic glucocorticoid, dexamethasone, there is a marked increase in the level of a single RNA species that hybridizes to the recombinant plasmid pTH.4, which contains sequences complementary to the RNA coding for tyrosine hydroxylase. This RNA species is 1800-1900 nucleotides in length and is presumably identical to an RNA species of similar size, isolated from rat pheochromocytoma PC8b cells and shown to code for tyrosine hydroxylase. Using RNA dot hybridization to quantitate the relative level of this tyrosine mRNA species, time course studies show that this mRNA increases relatively rapidly in PC18 cells treated with either 8-bromocyclic AMP or dexamethasone. A new steady state level of tyrosine hydroxylase mRNA is achieved after 6 hr or 12-24 hr of treatment with either 8-bromocyclic AMP or dexamethasone, respectively. The changes in the level of the mRNA slightly precede the changes in the rate of synthesis of tyrosine hydroxylase in cells treated with these inducing agents. After 24 hr of treatment with either 8-bromocyclic AMP or dexamethasone, the increases in the level of tyrosine hydroxylase mRNA are identical to the increases in the rate of synthesis of the enzyme in the cells. In cells treated simultaneously with both 8-bromocyclic AMP and dexamethasone, the increases in the enzyme level and rate of synthesis of tyrosine hydroxylase are approximately equal to the sum of the increases in these parameters observed in cells treated with either inducing agent alone. In contrast, there is not an additive increase in the level of tyrosine hydroxylase mRNA in cells treated with both inducing agents. This lack of an additive increase in mRNA for tyrosine hydroxylase is observed in total cellular RNA samples or in cytoplasmic RNA samples. Our results suggest that in cells exposed to elevated levels of either cyclic AMP or glucocorticoids, tyrosine hydroxylase is induced by a mechanism which increases the level of its mRNA, resulting in an increased rate of synthesis of the enzyme. However, in cells exposed to elevated levels of both cyclic AMP and dexamethasone, tyrosine hydroxylase enzyme levels are regulated by multiple mechanisms, one of which regulates the rate of synthesis of the enzyme without affecting the level of its mRNA.
Mol Pharmacol 1986 Nov
PMID:Induction of mRNA for tyrosine hydroxylase by cyclic AMP and glucocorticoids in a rat pheochromocytoma cell line: evidence for the regulation of tyrosine hydroxylase synthesis by multiple mechanisms in cells exposed to elevated levels of both inducing agents. 287 92

The irreversible dopamine (DA) receptor antagonist N-ethoxy-carbonyl-2-ethoxy-1,2-dihydroquinoline (EEDQ) was used to determine the extent of receptor reserve at DA autoreceptors regulating in vivo tyrosine hydroxylase activity. Rats were treated with vehicle or EEDQ (1 X 0.5-2 X 6 mg/kg, subcutaneously) and, 24 hr later, dose response curves were generated for DA agonist reversal of gamma-butyrolactone-induced striatal L-3,4-dihydroxyphenylalanine (L-DOPA) accumulation. Double reciprocal plots were obtained of equieffective doses of agonist required to elicit response at several levels of effect before and after partial irreversible receptor inactivation. A pseudo-dissociation constant (pseudo-KA, in units of dose) and the fraction of receptors remaining active (q) were determined; these values were then used to calculate the relationship between receptor occupancy and response. The ED50 (1 microgram/kg) for the full DA receptor agonist N-propylnorapomorphine (NPA) was shifted 2.8, 4.8-, and 11.3-fold to the right after partial irreversible receptor blockade which left the fraction of receptors remaining active (q) at 0.37, 0.17 and 0.058, respectively. Corresponding maximal reversal of L-DOPA accumulation was 100, 77, and 58%, indicating a nonlinear relationship between receptor occupancy and response for NPA and the presence of a large receptor reserve; maximal and half-maximal responses were calculated to require occupancy of 30 and 3.8% of the total receptor pool, respectively. Dose response curves were also obtained for the DA autoreceptor-selective agents EMD 23,448 and (+)- and (-)-3-PPP before and after EEDQ treatment. In controls, EMD 23,448 and (+)-3-PPP, like NPA, completely reversed striatal gamma-butyrolactone-induced L-DOPA accumulation, whereas the maximal effect of (-)-3-PPP was 52% reversal. After EEDQ treatment (6 mg/kg), EMD 23,448 and (+)-3-PPP showed relatively small shifts in ED50 values. Furchgott analysis demonstrated that all three atypical agents are partial agonists at the DA autoreceptor with efficacies of 0.19 (EMD 23,448), 0.12 [(+)-3-PPP], and 0.05 [(-)-3-PPP] relative to NPA. The presence of a larger receptor reserve at pre-versus postsynaptic D2 DA receptors and the partial agonist character of drugs such as EMD 23,448 and the enantiomers of 3-PPP may account for their autoreceptor selectivity.
Mol Pharmacol 1987 Jun
PMID:Relationship between receptor occupancy and response at striatal dopamine autoreceptors. 288 34

A cDNA clone for rabbit tryptophan hydroxylase was used as a probe to identify human tryptophan hydroxylase gene fragments in a panel of hamster-human somatic cell hybrids and determine its chromosomal location in man. A single locus was identified for tryptophan hydroxylase on chromosome 11. Tryptophan hydroxylase is a member of the superfamily of pterin-dependent aromatic amino acid hydroxylases which includes tyrosine hydroxylase, located at 11p15.5-p15, and phenylalanine hydroxylase, located at 12q22-q24.1 in human. The locations of these genes and the evolutionary distance between their sequences suggest that at least three distinct genetic events have occurred during the evolution of the aromatic amino acid hydroxylase superfamily: two sequential gene duplications giving rise to the three distinct hydroxylase loci, and a translocation which separated the tryptophan and tyrosine hydroxylase loci on chromosome 11 from the phenylalanine hydroxylase locus on chromosome 12.
Somat Cell Mol Genet 1987 Sep
PMID:Assignment of human tryptophan hydroxylase locus to chromosome 11: gene duplication and translocation in evolution of aromatic amino acid hydroxylases. 288 73

The addition of epidermal growth factor (EGF) to cultures of the rat PCG2 pheochromocytoma cell line increased the level of RNA coding for tyrosine hydroxylase (TH). A region of DNA containing 5'-flanking sequences of the TH gene was fused to a heterologous gene and transfected into a rat anterior pituitary cell line, GH4. The TH gene sequences from +27 to -272 contained information sufficient for the induction of TH by EGF. Two regions within this TH DNA were extensively homologous to the EGF regulatory element of the rat prolactin gene.
Mol Cell Biol 1987 Sep
PMID:Regulated expression of the tyrosine hydroxylase gene by epidermal growth factor. 289 99

PC12 cells on extracellular matrix (ECM) or plastic were incubated with 3H-tyrosine (3H-TY) in the presence and absence of serum or cold tyrosine. 3H-Dopamine (3H-DA) was determined in medium and cells from 1 to 48 h later with Dowex cation exchange chromatography. In serum-free and tyrosine-free medium, PC12 cells on ECM released significantly more 3H-DA, whereas cells on plastic had a significantly higher cellular content of 3H-DA, but total 3H-DA (medium plus cells) was equal in ECM and plastic cultures. When 3H-TY was added to tyrosine-containing medium, there was a significant decrease in the levels of 3H-DA detected and the differences between ECM and plastic cultures were attenuated, but the patterns of secretion and storage were similar to those observed with tyrosine-free medium and total synthesis did not decline at 48 h. Serum decreased the efficiency of the resin to retain 3H-DA from culture medium, attenuated the difference in dopamine release between ECM and plastic cultures, and contributed to variations in 3H-TY uptake. The morphometric relationship between the cell membrane and the internal compartment in PC12 cells of different shapes was also characterized. The perimeter length and area of the midsection of cells were determined with a modular system for quantitative digital analysis. The perimeter length of cells on ECM was significantly greater than cells on plastic, whereas the internal areas were similar. The ratio of perimeter length to area (P/A) for all cells on ECM was 30% higher than the P/A ratio for cells on plastic. The ratio of P/A for a subpopulation of very flat cells on ECM was 70% higher than the ratio for round cells on plastic. Immunocytochemistry for tyrosine hydroxylase revealed a more diffuse distribution of this enzyme in cells on ECM. These data suggest that there is an increase in the ratio of cell surface area to cell volume as PC12 cells spread on ECM which could facilitate secretory vesicle fusion with the cell membrane, and hence, exocytosis. Although there is a concomitant increase in the secretion of dopamine and a decrease in the storage of dopamine, the change in cell shape does not appear to immediately alter the synthesis of dopamine.
Mol Cell Endocrinol 1987 Nov
PMID:Extracellular matrix changes PC12 cell shape and processing of newly synthesized dopamine. 289 May 44

Activation of neurotransmitter receptors can regulate transcription in postsynaptic cells through the actions of second messengers. Trans-synaptic regulation of transcription appears to be an important mechanism controlling the synthesis of molecules involved in neuronal signaling, especially neuropeptides. Proenkephalin, vasoactive intestinal polypeptide, and somatostatin have been shown to be transcriptionally regulated by the second messenger, cyclic AMP (cAMP), as has the catecholamine synthesizing enzyme tryosine hydroxylase. cAMP-inducible elements have been mapped within these genes, and trans-acting factors which bind to several such elements have been identified. With the discovery that individual neurons generally contain multiple transmitters within their synaptic terminals, it has become important to understand in detail the mechanisms by which the synthesis of transmitters can be coregulated. Here we compare the structure and function of the proenkephalin cAMP-inducible enhancer with the mapped cAMP-inducible elements of the vasoactive intestinal polypeptide, somatostatin, and tyrosine hydroxylase genes and a putative cAMP-inducible element in the proto-oncogene c-fos. We have previously shown that the proenkephalin enhancer is composed of two different elements, ENKCRE-1 and ENKCRE-2. We show here that one of these, ENKCRE-2, is structurally similar to elements found within the vasoactive intestinal polypeptide, somatostatin, and tyrosine hydroxylase genes and binds a trans-acting factor that is competed for both in cotransfection experiments (in vivo) and in DNase I footprint assays (in vitro) by these other elements. The c-fos element has similar structural requirements to confer transcriptional induction by cAMP but competes less strongly. Protein purified by affinity chromatography with the ENKCRE-2 sequence binds to each of these elements. A second element within the proenkephalin cAMP-inducible enhancer, ENKCRE-1, binds a factor that is not competed for by these other genes and is therefore distinct. This analysis suggests a potential mechanism of transcriptional coregulation of the neuronally expressed genes investigated in this study and also demonstrates that multiple factors are involved in transcriptional activation by cAMP.
Mol Cell Biol 1988 Oct
PMID:A common trans-acting factor is involved in transcriptional regulation of neurotransmitter genes by cyclic AMP. 290 36

Steroid hormones modify several brain functions, at least in part by altering expression of particular genes. Of interest are those genes that are involved in cell-cell communication in the brain, for instance neuropeptide genes and genes that code for enzymes involved in synthesis of neurotransmitters. Steroid regulation of mRNA levels for several genes has been reported, including the genes coding for the neuropeptides vasopressin, corticotropin releasing factor, luteinizing hormone-releasing factor, pro-opiomelanocortin; somatostatin, preproenkephalin, and the enzyme tyrosine hydroxylase. Steroid control of releasing factor genes is consistent with classical neuroendocrine concepts of negative feedback. Steroid-induced plasticity of gene expression is sometimes in evidence, with the presence or absence of a particular steroid inducing expression of a neuropeptide gene in neurons that under other conditions do not express the gene. As a means of gaining some insight into the mechanism of action of steroid hormones, several groups have determined some of the neuropeptide profiles of neurons that contain receptors for steroid hormones. Marked heterogeneity is found, in that often only a subpopulation of phenotypically-similar neurons, even within a single brain area, contains receptors for a given steroid.
Mol Neurobiol 1988
PMID:Regulation of neuropeptide gene expression by steroid hormones. 307 66

1. We have used horseradish peroxidase-conjugated protein A- and 125I-protein A to develop immunohistochemical and radioimmunohistochemical methods for the localization of antigens in brain and other tissues of the rat. 2. We visualized methionine-enkephalin fibers in the rat brain by incubating tissue sections with a specific polyclonal antibody and peroxidase-conjugated protein A. The method is simple, fast, and less expensive and more sensitive than classical immunohistochemical techniques and the principle could be used to visualize many other tissue antigens. 3. Incubation of tissue samples with specific polyclonal antibodies and 125I-protein A, followed by autoradiography, allows the permanent recording of the radioimmunohistochemical localization of brain methionine-enkephalin, tyrosine hydroxylase, and angiotensin-converting enzyme and of pituitary vasopressin and could be applied to the localization of many other tissue antigens. 4. A new quantitative radioimmunohistochemical technique for methionine-enkephalin allows the determination of the endogenous peptide content in discrete brain nuclei from 16-microns-thick sections. The method is based on the quantitative determination of the amount of 125I-protein A bound to specific tissue areas after incubation with a specific polyclonal antibody, followed by autoradiography and computerized microdensitometry. To quantify the endogenous peptide content, the values obtained are interpolated into a methionine-enkephalin internal standard curve. This standard curve was constructed by measuring endogenous concentrations of methionine-enkephalin by radioimmunoassay in specific brain regions and correlating these values with quantitative autoradiographic determinations in homologous areas of adjacent sections. Similar methods can be developed for other tissue antigens. 5. These new methods allow for the localization and quantification of tissue antigens in very discrete areas of the brain and other tissues and have a wide application in neurobiology and pathology.
Cell Mol Neurobiol 1988 Mar
PMID:Radioimmunochemical methods for the quantitative autoradiographic determination of antigens in brain and other tissues. 340

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