Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.14.16.2 (tyrosine hydroxylase)
 14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the presence of and the endogenous substrates for Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) in cultured bovine adrenal medullary cells. By a series of chromatographic steps using DEAE-cellulose, calmodulin affinity, and Sephacryl S-300 columns, we partially purified two CaM kinases (peaks I and III) and one calmodulin-binding protein (peak II). Both of the kinases (peaks I and III) showed broad substrate specificities. Peak I, but not peak III, was immunoprecipitated with an antibody against rat brain CaM kinase II, suggesting that peak I is CaM kinase II or a closely associated CaM kinase. Although the anticaldesmon antibody recognized a 77-kDa protein (low molecular mass caldesmon) in crude preparations from the cells, the protein in peak II was not immunoblotted with the antibody. The peak II protein was phosphorylated by the CaM kinase in peak I but not by the CaM kinase in peak III. Peak I kinase also phosphorylated purified tyrosine hydroxylase and several proteins from chromaffin granule membranes. Stimulation of cultured bovine adrenal medullary cells with 56 mM K+ evoked rapid increases in 45Ca2+ influx and autonomous CaM kinase II activity, both of which were attenuated by the addition of 20 mM MgSO4, an inhibitor of voltage-dependent Ca2+ channels. These results suggest that an isozyme of CaM kinase II exists in adrenal medullary cells and is activated by cell depolarization. Furthermore, the peak II protein is apparently a novel endogenous substrate for CaM kinase II.
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PMID:Occurrence and activation of Ca2+/calmodulin-dependent protein kinase II and its endogenous substrates in bovine adrenal medullary cells. 793 21

Unilateral naris closure produced dramatic down-regulation of tyrosine hydroxylase (TH) gene expression in periglomerular dopaminergic neurons in the olfactory bulb. To explore molecular mechanisms of TH gene regulation, the present study investigated the regional distribution of protein kinase A (PKAalpha), protein kinase C (PKCalpha), and CaM kinases II (CaMKIIalpha, beta) and IV (CaMKIV) in the normal olfactory bulb and in response to odor deprivation. Strong PKAalpha immunostaining was found in the glomerular, granule cell, external plexiform and olfactory nerve layers. PKCalpha staining was strong in granule cell and external plexiform layers but weak in the glomerular layer. Whereas CaMKIV was primarily found in granule cells, CaMKII was present in the glomerular, external plexiform, mitral cell and granule cell layers. No change in immunoreactivities of these kinases occurred in the olfactory bulb ipsilateral to naris closure. The expression of PKAalpha, PKCalpha and CaMKII, but not CaMKIV, in periglomerular cells suggests that these three kinases may play a role in TH gene regulation in the olfactory bulb. The lack of change in kinase protein levels after naris closure also suggests that any involvement of these kinases in TH gene expression in the olfactory bulb must be through altered kinase activity and not protein levels.
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PMID:Regional distribution of protein kinases in normal and odor-deprived mouse olfactory bulbs. 1094 3

Tryptophan hydroxylase (TPH) is the initial and rate-limiting enzyme in the biosynthesis of serotonin. The inherent instability of TPH has prevented a crystallographic structure from being resolved. For this reason, multiple sequence alignment-based molecular modeling was utilized to generate a full-length model of human TPH. Previously determined crystal coordinates of two highly homologous proteins, phenylalanine hydroxylase and tyrosine hydroxylase, were used as templates. Analysis of the model aided rational mutagenesis studies to further dissect the regulation and catalysis of TPH. Using rational site-directed mutagenesis, it was determined that Tyr235 (Y235), within the active site of TPH, appears to be involved as a tryptophan substrate orienting residue. The mutants Y235A and Y235L displayed reduced specific activity compared to wild-type TPH ( approximately 5 % residual activity). The K(m) of tryptophan for the Y235A (564 microM) and Y235L (96 microM) mutant was significantly increased compared to wild-type TPH (42 microM). In addition, kinetic analyses were performed on wild-type TPH and a deletion construct that lacks the amino terminal autoregulatory sequence (TPH NDelta15). This sequence in phenylalanine hydroxylase (residues 19 to 33) has previously been proposed to act as a steric regulator of substrate accessibility to the active site. Changes in the steady-state kinetics for tetrahydrobiopterin (BH(4)) and tryptophan for TPH NDelta15 were not observed. Finally, it was demonstrated that both Ser58 and Ser260 are substrates for Ca(2+)/calmodulin-dependent protein kinase II. Additional analysis of this model will aid in deciphering the regulation and substrate specificity of TPH, as well as providing a basis to understand as yet to be identified polymorphisms.
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PMID:Identification of substrate orienting and phosphorylation sites within tryptophan hydroxylase using homology-based molecular modeling. 1099 38

Dopamine secreted by hypothalamic neurons is crucial in regulating prolactin secretion from the pituitary. We have examined the ability of angiotensin II (AngII) to regulate the activity of these dopaminergic neurons and thus act as a potential physiological regulator of prolactin secretion. Using a hypothalamic cell culture preparation we determined the effect of AngII on tyrosine hydroxylase activity and expression (TOH). This is important because TOH is the rate-limiting enzyme in dopamine biosynthesis. AngII stimulated a time- and concentration-dependent increase in TOH activity which was suppressed by inhibitors able to act on protein kinase A (PKA), protein kinase C (PKC) and Ca(2+)/calmodulin-dependent protein kinase II (CaMPKII). An inhibitor of the mitogen-activated protein kinase (MAPK) pathway, PD 98059, reduced basal TOH activity but the AngII response was still detectable. AngII stimulation enhanced the phosphorylation of TOH at Ser19, Ser31 and Ser40. AngII also induced a time-dependent increase in TOH mRNA expression which was unaffected by inhibitors able to act on PKA and CaMPKII, but was abolished by inhibitors able to act on ERK and PKC. AngII responses were very much larger in cultures prepared from female when compared to male rat pups. Data from adult hypothalamic slices confirmed this sexual dimorphism and supported the role of the protein kinases noted above. Therefore AngII can regulate both the activity and expression of TOH in hypothalamic neurons employing multiple, but only partially overlapping, signaling pathways.
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PMID:Angiotensin II regulates tyrosine hydroxylase activity and mRNA expression in rat mediobasal hypothalamic cultures: the role of specific protein kinases. 1522 99

Intermittent hypoxia (IH) occurs in many pathological conditions. However, very little is known about the molecular mechanisms associated with IH. Hypoxia-inducible factor 1 (HIF-1) mediates transcriptional responses to continuous hypoxia. In the present study, we investigated whether IH activates HIF-1 and, if so, which signaling pathways are involved. PC12 cells were exposed to either to 20% O2 (non-hypoxic control) or to 60 cycles consisting of 30 s at 1.5% O2, followed by 4 min at 20% O2 (IH). Western blot analysis revealed significant increases in HIF-1alpha protein in nuclear extracts of cells subjected to IH. Expression of a HIF-1-dependent reporter gene was increased 3-fold in cells subjected to IH. Although IH induced the activation of ERK1, ERK2, JNK, PKC-alpha, and PKC-gamma, inhibitors of these kinases and of phosphatidylinositol 3-kinase did not block HIF-1-mediated reporter gene expression induced by IH, indicating that signaling via these kinases was not required. In contrast, addition of the intracellular Ca2+ chelator BAPTA-AM or the Ca2+/calmodulin-dependent (CaM) kinase inhibitor KN93 blocked reporter gene activation in response to IH. CaM kinase activity was increased 5-fold in cells subjected to IH. KN 93 prevented IH-induced transactivation mediated by HIF-1alpha, and its coactivator p300, which was phosphorylated by CaM kinase II in vitro. Expression of the HIF-1-regulated gene encoding tyrosine hydroxylase was induced by IH and this effect was blocked by KN93. These observations suggest that IH induces HIF-1 transcriptional activity via a novel signaling pathway involving CaM kinase.
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PMID:Ca2+/calmodulin kinase-dependent activation of hypoxia inducible factor 1 transcriptional activity in cells subjected to intermittent hypoxia. 1556 87

The small GTPase, RhoA, and its downstream effecter Rho-kinase (ROK) are reported to be involved in various cellular functions, such as myosin light chain phosphorylation during smooth muscle contraction and exocytosis. Indeed, growing evidence suggests that the RhoA/Rho-kinase pathway plays an important role in regulating exocytosis in these cells. However, it is not known whether the RhoA/Rho-kinase pathway has an effect on catecholamine synthesis. Using the rat pheochromocytoma cell line, PC12, we examined the effects of either Rho-kinase inhibitor (Y27632) or RhoA inhibitor (C3 toxin) on nicotine-induced catecholamine biosynthesis. We show that nicotine (10 microM) induces a significant, though transient, increase in RhoA activation in these cells. Treatment with either Y27632 (1 microM) or C3 toxin (10 microg/ml) significantly inhibited the nicotine-induced increase of tyrosine hydroxylase (TH) mRNA and the corresponding enzyme activity. TH catalyzes the rate-limiting step in the biosynthesis of catecholamine. Y27632 significantly inhibited nicotine-induced phosphorylation of TH at Ser40 as well as Ser19, which are known to be phosphorylated by Ca(2+)/calmodulin kinase II. Furthermore, Y27632 (10 microM) as well as C3 toxin (10 microg/ml) significantly inhibited the nicotine-induced increase of TH at the protein level. Thus, we propose that activation of RhoA, and its downstream effecter Rho-kinase, is a prerequisite for catecholamine biosynthesis in PC12 cells. At the concentrations used in our experiments, Y27632 does not affect cAMP/PKA activity or PKC activity, indicating that the inhibitory effect of Y27632 can be attributed to the inhibition of Rho-kinase activity as observed in chromaffin cells. In contrast, neither Y27632 (10 microM) nor C3 toxin (10 microg/ml) significantly altered catecholamine secretion in PC12 cells. In conclusion, we have demonstrated that inhibition of the Rho/Rho-kinase pathway in chromaffin cells lowers TH activity, probably through CaMKII inhibition. By contrast, neither Y27632 nor C3 toxin affect the secretion of catecholamine.
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PMID:Inhibition of the RhoA/Rho kinase system attenuates catecholamine biosynthesis in PC 12 rat pheochromocytoma cells. 1621 24

Adenosine A(2A) receptors are predominantly expressed in the dendrites of enkephalin-positive gamma-aminobutyric acidergic medium spiny neurons in the striatum. Evidence indicates that these receptors modulate striatal dopaminergic neurotransmission and regulate motor control, vigilance, alertness, and arousal. Although the physiological and behavioral correlates of adenosine A(2A) receptor signaling have been extensively studied using a combination of pharmacological and genetic tools, relatively little is known about the signal transduction pathways that mediate the diverse biological functions attributed to this adenosine receptor subtype. Using a candidate approach based on the coupling of these receptors to adenylate cyclase-activating G proteins, a number of membranal, cytosolic, and nuclear phosphoproteins regulated by PKA were evaluated as potential mediators of adenosine A(2A) receptor signaling in the striatum. Specifically, the adenosine A(2A) receptor agonist, CGS 21680, was used to determine whether the phosphorylation state of each of the following PKA targets is responsive to adenosine A(2A) receptor stimulation in this tissue: Ser40 of tyrosine hydroxylase, Ser9 of synapsin, Ser897 of the NR1 subunit of the N-methyl-d-aspartate-type glutamate receptor, Ser845 of the GluR1 subunit of the alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid-type glutamate receptor, Ser94 of spinophilin, Thr34 of the dopamine- and cAMP-regulated phosphoprotein, M(r) 32,000, Ser133 of the cAMP-response element-binding protein, Thr286 of Ca(2+)/calmodulin-dependent protein kinase II, and Thr202/Tyr204 and Thr183/Tyr185 of the p44 and p42 isoforms, respectively, of mitogen-activated protein kinase. Although the substrates studied differed considerably in their responsiveness to selective adenosine A(2A) receptor activation, the phosphorylation state of all postsynaptic PKA targets was up-regulated in a time- and dose-dependent manner by treatment with CGS 21680, whereas presynaptic PKA substrates were unresponsive to this agent, consistent with the postsynaptic localization of adenosine A(2A) receptors. Finally, the phosphorylation state of these proteins was further assessed in vivo by systemic administration of caffeine.
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PMID:Evaluation of neuronal phosphoproteins as effectors of caffeine and mediators of striatal adenosine A2A receptor signaling. 1715 77

Neurokinin B (NKB) and substance P (SP) act via NK(3) and NK(1) receptors. Using the unilateral 6-hydroxydopamine (6-OHDA) lesion rat model of Parkinson's disease (PD), it was found that chronic, but not acute, administration of L-DOPA increases striatal NKB expression in the dopamine-depleted hemisphere. In contrast, both acute and chronic administrations of L-DOPA restore reduced levels of SP mRNA. Co-treatment with the NK(3) receptor antagonist, SB222200, and L-DOPA increased contralateral rotations compared to L-DOPA alone in L-DOPA primed rats. The NK(3)R agonist, senktide, increased the phosphorylation of tyrosine hydroxylase (TH) at Ser(19)-TH, a CaMKII site, and of Thr(286)-CaMKII in striatal slices. Senktide had no effect on P-Ser(31)-TH, a MAPK site, but reduced P-Ser(217/221)-MEK. Amperometry demonstrated that senktide increased evoked dopamine release. SB222200 blocked the effects of senktide. In striatal slices prepared from 6-OHDA-lesioned rats repeatedly treated with L-DOPA, senktide no longer increased P-Thr(286)-CaMKII, suggesting a role of NK(3)R on dopamine terminals under normal conditions. SB222200 increased P-Ser(217/221)-MEK only in dopamine-depleted slices, indicating an increased NK(3)R tone under Parkinsonism conditions. Altogether, these data demonstrate a differential regulation of NKB and SP by L-DOPA in an animal model of PD and indicate a unique role of NKB in long-term effects of L-DOPA. Behavioural, biochemical and amperometric data indicate that NKB/NK(3)R signalling stimulates dopamine transmission at the presynaptic site, but inhibits it at the postsynaptic site. The inhibitory influence of NKB/NK(3)R on dopamine transmission dominates in an animal model of PD and provides a feedback inhibition on actions mediated via L-DOPA.
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PMID:Neurokinin B/NK3 receptors exert feedback inhibition on L-DOPA actions in the 6-OHDA lesion rat model of Parkinson's disease. 1842 76

The olfactory system in rats is part of the limbic region with extensive afferent connections with brain areas involved in the regulation of behaviour and autonomic responses. The existence of the endothelin system and catecholaminergic neurons in the olfactory bulb suggests that endothelins may modulate noradrenergic transmission and diverse olfactory mediated processes. In the present work we studied the effect of endothelin-1 and -3 on neuronal norepinephrine release and the short-term regulation of tyrosine hydroxylase in the olfactory bulb. Results showed that both endothelins increased tyrosine hydroxylase activity through the activation of a non-conventional endothelin G-protein coupled receptor, coupled to the stimulation of protein kinase A and C, as well as Ca(2+)/calmodulin-dependent protein kinase II. On the other hand, neither endothelin-1 nor endothelin-3 modified tyrosine hydroxylase total protein levels, but both peptides increased the phosphorylation of serine residues of the enzyme at sites 19 and 40. Furthermore, endothelins enhanced norepinephrine release in olfactory neurons suggesting that this event may contribute to increased tyrosine hydroxylase activity by reducing the feedback inhibition. Taken together present findings show a clear interaction between the endothelin system, and the catecholaminergic transmission in the olfactory bulb. Additional studies are required to evaluate the physiological functions regulated by endothelins at this brain level.
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PMID:Short-term effects of endothelins on tyrosine hydroxylase activity and expression in the olfactory bulb of normotensive rats. 1885 Feb 67

A hallmark feature of Ca(2+)/calmodulin (CaM)-dependent protein kinase II (CaMKII) regulation is the generation of Ca(2+)-independent autonomous activity by Thr-286 autophosphorylation. CaMKII autonomy has been regarded a form of molecular memory and is indeed important in neuronal plasticity and learning/memory. Thr-286-phosphorylated CaMKII is thought to be essentially fully active ( approximately 70-100%), implicating that it is no longer regulated and that its dramatically increased Ca(2+)/CaM affinity is of minor functional importance. However, this study shows that autonomy greater than 15-25% was the exception, not the rule, and required a special mechanism (T-site binding; by the T-substrates AC2 or NR2B). Autonomous activity toward regular R-substrates (including tyrosine hydroxylase and GluR1) was significantly further stimulated by Ca(2+)/CaM, both in vitro and within cells. Altered K(m) and V(max) made autonomy also substrate- (and ATP) concentration-dependent, but only over a narrow range, with remarkable stability at physiological concentrations. Such regulation still allows molecular memory of previous Ca(2+) signals, but prevents complete uncoupling from subsequent cellular stimulation.
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PMID:CaMKII autonomy is substrate-dependent and further stimulated by Ca2+/calmodulin. 2035 41


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