Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: HUMANGGP:007536 (tyrosine hydroxylase)
15,404 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Studies in the past several years have provided direct evidence that protein phosphorylation is involved in the regulation of neuronal function. Electrophysiological experiments have demonstrated that three distinct classes of protein kinases, i.e., cyclic AMP-dependent protein kinase, protein kinase C, and CaM kinase II, modulate physiological processes in neurons. Cyclic AMP-dependent protein kinase and kinase C have been shown to modify potassium and calcium channels, and CaM kinase II has been shown to enhance neurotransmitter release. A large number of substrates for these protein kinases have been found in neurons. In some cases (e.g., tyrosine hydroxylase, acetylcholine receptor, sodium channel) these proteins have a known function, whereas most of these proteins (e.g., synapsin I) had no known function when they were first identified as phosphoproteins. In the case of synapsin I, evidence now suggests that it regulates neurotransmitter release. These studies of synapsin I suggest that the characterization of previously unknown neuronal phosphoproteins will lead to the elucidation of previously unknown regulatory processes in neurons.
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PMID:Protein phosphorylation and neuronal function. 258 86

It is known that nerve growth factor (NGF) induces neurite outgrowth and elevation of the activity of adrenergic marker enzyme, tyrosine hydroxylase (TH) in clonal rat pheochromocytoma cells (PC12), whereas glioma-conditioned medium (GCM) induces neurite outgrowth and elevation of the activity of cholinergic marker enzyme, choline acetyltransferase (ChAT) in PC12 cells. In the previous study we have shown that retinoic acid (RA) induces specific elevation of ChAT activity and depression of TH activity without morphological differentiation (Matsuoka, I. et al., Brain Res., 502 (1989]. In the present study, we compared the effects of NGF, GCM and RA on the intracellular signalings in PC12 cells in relation to the mechanism of cholinergic differentiation. Addition of NGF, GCM or RA to the culture medium of PC12 cells caused a rapid rise in intracellular Ca2+ concentration [( Ca2+]i) reaching the level of almost 2.5-fold the resting condition within 3-18 h. Thereafter, [Ca2+]i of NGF-treated cells were decreased to the resting level within 12 h. On the other hand, [Ca2+]i of GCM-and RA-treated cells decreased to a level which was 1.8- to 2-fold the resting condition within 24-48 h and stayed at this level for up to 4-7 days. When homogenates of GCM- and RA-treated PC12 cells were incubated with [gamma-32P]ATP, phosphorylation of a protein with molecular mass of 27 kDa (27 K-protein) was specifically enhanced. The phosphorylation of the 27 K-protein was not seen in the homogenate of the NGF-treated cells. The phosphorylation of the 27 K-protein was dependent on Ca2+ and inhibited by inhibitors of Ca2+-dependent protein kinase, H-7 and W-7. Addition of H-7 and W-7 to the culture medium of PC12 cells abolished the elevation of ChAT activity specifically induced by GCM and RA. These observations suggested that the sustained increase of [Ca2+]i and Ca2+-dependent protein phosphorylation are involved in the intracellular signaling mechanism required for the cholinergic differentiation of PC12 cells induced by GCM and RA.
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PMID:Possible involvements of intracellular Ca2+ and Ca2+ -dependent protein phosphorylation in cholinergic differentiation of clonal rat pheochromocytoma cells (PC12) induced by glioma-conditioned medium and retinoic acid. 258

Evidence is presented indicating that a cAMP-dependent mechanism activates tryptophan hydroxylase (TrpH), the rate-limiting enzyme for serotonin (5-HT) biosynthesis. Forskolin, a selective activator of adenylate cyclase, stimulated 5-HT formation in synaptoneurosome preparations of rat striatum, substantia nigra, hypothalamus, and amygdala. Further studies of striatum revealed that the forskolin-induced activation of serotonin synthesis is readily reversible. Also, it may be self-limited by a mechanism of desensitization, since after an initial exposure to forskolin followed by removal, a re-exposure of synaptoneurosomes to forskolin was no longer stimulatory. In contrast to these results for 5-HT synthesis, forskolin-induced stimulation of dopamine synthesis persisted following removal of forskolin; hence the response was not rapidly reversible or desensitized. In soluble extracts of striatum, 8-thiomethyl-cyclic AMP enhanced TrpH activity, supporting a direct role of cyclic AMP and cyclic AMP-dependent protein kinase in regulating TrpH. In agreement with previous reports, 8-thiomethyl cyclic AMP also stimulated tyrosine hydroxylase activity in soluble striatal extracts. We conclude that cyclic AMP is an important regulator of TrpH, in addition to its known effects on tyrosine hydroxylase.
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PMID:Regulation of tryptophan hydroxylase activity by a cyclic AMP-dependent mechanism in rat striatum. 282 48

Nerve growth factor (NGF) promotes neuronal differentiation of PC12 pheochromocytoma cells. One of the most prominent and distinguishing features of neuronal differentiation is neurite outgrowth. The mechanism by which NGF causes the cells to elaborate neurites is unknown. This study shows that K-252a, a potent protein kinase inhibitor, blocks NGF-induced neurite outgrowth and the changes in protein phosphorylation elicited by NGF. In the experiment with intact cells phosphorylated with 32P-orthophosphoric acid, an exposure of PC12h cells to NGF (50 ng/ml) caused an increase in the phosphorylation of tyrosine hydroxylase and a 35,000-D protein and a decrease in a 36,500-D protein. Pretreatment of PC12h cells with K-252a (100 nM) inhibited the effects of NGF on the phosphorylation of these three proteins. In the phosphorylation of cell-free extracts with [gamma-32P] ATP, treatment of PC12h cells with NGF (50 ng/ml) caused a decrease in the phosphorylation of Nsp100. Pretreatment of the cells with K-252a (30 nM) almost completely blocked the NGF effect on the phosphorylation of Nsp100 elicited by subsequent treatment of the cells with NGF. Treatment of PC12h cells with NGF promoted outgrowth of neurites. The addition of K-252a (100 nM) into the culture almost completely blocked the generation of neurites elicited by NGF. Earlier studies demonstrated that NGF-induced neurite outgrowth in PC12 cells involves at least two components: the first of these is transcription-dependent and the second is transcription-independent. To determine the component on which K-252a acts, experiments were carried out on NGF-induced priming or regeneration of neurites. When K-252a was present in the priming step, NGF induced only actinomycin D-sensitive neurites, showing that K-252a interferes with the transcription-dependent actions of NGF. When already primed cells were treated with NGF, actinomycin D-resistant neurites were formed and these were blocked by K-252a, showing that the inhibitor interferes with the transcription-independent actions of NGF as well. Although the exact mechanism of inhibition of NGF-promoted neurite formation by K-252a is unknown, the most probable explanation is that both transcription-dependent and -independent components are involved in at least one step of the activation of some specific protein kinase(s) that can be suppressed by K-252a.
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PMID:K-252a, a potent protein kinase inhibitor, blocks nerve growth factor-induced neurite outgrowth and changes in the phosphorylation of proteins in PC12h cells. 284 30

Tyrosine hydroxylase purified from rat pheochromocytoma is phosphorylated rapidly by the Ca2+- and phospholipid-dependent protein kinase (protein kinase C) purified from rat or sheep brain. Phosphorylation was stimulated 14-fold by Ca2+ and phosphatidylserine and occurred at a rate comparable with that of the phosphorylation of histone Hl. The phospholipid-dependent protein kinase phosphorylates a single site which is identical to that phosphorylated by cyclic AMP-dependent protein kinase and to the secondary site of phosphorylation by the calmodulin-dependent multiprotein kinase. The implications of these results with respect to the regulation of catecholamine biosynthesis in adrenal medulla are discussed.
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PMID:Characterization of the sites phosphorylated on tyrosine hydroxylase by Ca2+ and phospholipid-dependent protein kinase, calmodulin-dependent multiprotein kinase and cyclic AMP-dependent protein kinase. 285 5

Purification of rat striatal tyrosine hydroxylase in the presence of protease inhibitors effected a high yield of apparently homogeneous enzyme which is stable to prolonged storage. The purified enzyme migrates as a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with a molecular weight of 61,300. Removal of protease inhibitors results in the appearance of additional bands with molecular weights of 59,800 and 57,000. Cyclic AMP-dependent protein kinase incorporates 1 mol of phosphate/61,000-Da subunit of tyrosine hydroxylase, and concomitantly decreases the apparent Km of the enzyme for cofactor. Phosphorylated tyrosine hydroxylase is unstable at 37 degrees C, exhibiting a 50% decrease in apparent Vmax in 40 min with no change in Km for cofactor. Levels of incorporated phosphate remain constant over this time period. Tyrosine hydroxylase activated by and in the presence of phosphatidylinositol or high concentrations of NaCl exhibited a similar loss of activity at 37 degrees C, whereas enzyme activated by heparin was relatively stable. The rate of phosphorylation of tyrosine hydroxylase is markedly increased in the presence of any of these effectors, suggesting that they promote a common conformation. Further, heparin appears to bind to tyrosine hydroxylase at a site distant from the phosphorylation site. Physiological effectors of tyrosine hydroxylase may act in concert with cyclic AMP-dependent phosphorylation, perhaps by binding to an allosteric site, to regulate enzyme activity in vivo.
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PMID:Purification and characterization of rat striatal tyrosine hydroxylase. Comparison of the activation by cyclic AMP-dependent phosphorylation and by other effectors. 286 Dec 3

Release of adrenal catecholamine by carbachol has been shown to be coincident with an increase in intracellular cAMP levels. Bovine adrenal medullary (BAM) cells were prepared and maintained in culture and used to examine the role of cAMP in stimulus-secretion coupling. The addition of ACTH to these cells caused a 10- to 50-fold increase in cellular cAMP without an effect on catecholamine secretion, suggesting cortical cell contamination. Percoll density separation of both BAM cells and adrenal cortical cells revealed that the greatest cAMP responses to ACTH corresponded to the catecholamine-containing cell fractions and not to those density layers where cortical cells sedimented. BAM cells isolated on Percoll did not metabolize [14C]cholesterol to steroids as would be expected were the ACTH-stimulated cAMP accumulations due to cortical cell contamination of the cultures. ACTH stimulated protein phosphorylation in 32P-labeled BAM cells in a manner indistinguishable from that induced by carbachol and forskolin. The major soluble phosphoprotein to be affected by these agents had a relative mol wt of 55-57 kdaltons on sodium dodecyl sulfate-gels and corresponded to tyrosine hydroxylase, which is a specific marker enzyme in the adrenal for chromaffin cells. We propose that bovine adrenal chromaffin cells express ACTH receptors which are coupled to adenylate cyclase. While no acute effect of ACTH was found on catecholamine secretion, ACTH may play a direct role in the regulation of catecholamine synthesis by stimulating the phosphorylation of tyrosine hydroxylase by cAMP-dependent protein kinase.
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PMID:Direct effects of adrenocorticotropic hormone on bovine adrenomedullary cells: adenosine 3',5'-monophosphate-dependent phosphorylation of tyrosine hydroxylase. 286 12

Incubation of rat pheochromocytoma PC12 cells with dibutyryl cyclic AMP or 56 mM K+ is associated with increased activity and enhanced phosphorylation of tyrosine hydroxylase in situ. Following incubation of the PC12 cells with 32Pi, rapid isolation of the tyrosine hydroxylase, and tryptic digestion of the enzyme, two distinct 32P-peptides can be identified after paper electrophoresis. 56 mM K+ increases 32Pi incorporation into both of these peptides, whereas dibutyryl cyclic AMP increases 32Pi incorporation into only one of these peptides. The rate of increase in the incorporation of 32Pi into these two peptides in cells treated with 56 mM K+ is similar. The phosphorylation of tyrosine hydroxylase in PC12 cells occurs exclusively on serine residues. These results suggest that tyrosine hydroxylase in PC12 cells is phosphorylated on serine residues at two or more distinct sites after 56 mM K+ -induced depolarization. Since only one of these sites is phosphorylated by cyclic AMP-dependent protein kinase, activation of tyrosine hydroxylase by 56 mM K+ may involve phosphorylation by multiple protein kinases in rat pheochromocytoma PC12 cells.
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PMID:Enhanced phosphorylation of tyrosine hydroxylase at more than one site is induced by 56 mM K+ in rat pheochromocytoma PC12 cells in culture. 286 28

We have identified a 56-kilodalton protein in cultured bovine adrenal chromaffin cells that is phosphorylated when catecholamine secretion is stimulated. Immunodetection on Western blots from both one- and two-dimensional polyacrylamide gels indicated that this protein was tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis. Two-dimensional polyacrylamide gel electrophoresis of proteins from unstimulated cells revealed small amounts of phosphorylated protein with a molecular weight of 56K and pI values of 6.37 and 6.27 which were subunits of tyrosine hydroxylase. Nicotinic stimulation of chromaffin cells caused the phosphorylation of three proteins of 56 kilodaltons with pI values of approximately 6.37, 6.27, and 6.15 which were tyrosine hydroxylase. The immunochemical analysis also revealed that there was unphosphorylated tyrosine hydroxylase 56 kilodaltons with a pI of 6.5 which may have decreased on nicotinic stimulation. The phosphorylation of tyrosine hydroxylase was associated with an increase in in situ conversion of [3H]tyrosine to [3H]dihydroxyphenylalanine ([3H]DOPA). Muscarinic stimulation also caused phosphorylation of tyrosine hydroxylase, but to a smaller extent than did nicotinic stimulation. The secretagogues, elevated K+ and Ba2+, stimulated phosphorylation of tyrosine hydroxylase and [3H]DOPA production. The effects of nicotinic stimulation and elevated K+ on tyrosine hydroxylase phosphorylation and [3H]DOPA production were Ca2+-dependent. Nicotinic agonists also raised cyclic AMP levels in chromaffin cells after 2 min. Dibutyryl cyclic AMP and forskolin, which have little effect on catecholamine secretion, also caused phosphorylation of tyrosine hydroxylase. These stimulators of cyclic AMP-dependent processes caused the appearance of two phosphorylated subunits of tyrosine hydroxylase with pI values of 6.37 and 6.27. There was also a small amount of phosphorylated subunit with a pI of 6.15. Both agents stimulated [3H]DOPA production. The experiments indicate that tyrosine hydroxylase is phosphorylated and activated when chromaffin cells are stimulated to secrete. The data suggest that the earliest phosphorylation of tyrosine hydroxylase induced by a nicotinic agonist occurs through stimulation of a Ca2+-dependent protein kinase. After 2 min phosphorylation by a cyclic AMP-dependent protein kinase may also occur. Phosphorylation of tyrosine hydroxylase is associated with an increase in in situ tyrosine hydroxylase activity.
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PMID:Cholinergic receptor-mediated phosphorylation and activation of tyrosine hydroxylase in cultured bovine adrenal chromaffin cells. 286 29

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.
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PMID:Dopamine autoreceptor regulation of the kinetic state of striatal tyrosine hydroxylase. 287 88


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