EC:1.14.16.2 - FACTA Search

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)

A brain-specific multifunctional calmodulin-dependent protein kinase, calmodulin-dependent protein kinase IV, which exhibited characteristic properties quite different from those of calmodulin-dependent protein kinase II, was purified approximately 230-fold from rat cerebellum. The purified preparation gave two protein bands with molecular weights of 63,000 (alpha) and 66,000 (beta) on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, both of which showed protein kinase activity as examined by the activity gel method. The molecular weight of the enzyme was estimated as about 67,000 from sedimentation coefficient (3.2 S) and Stokes radius (50 A), indicating a monomeric structure of the enzyme. The enzyme phosphorylated smooth muscle myosin light chain, synapsin I, microtubule-associated protein 2, tau protein, myelin basic protein, histone H1, and tyrosine hydroxylase in a Ca2+/calmodulin dependent manner, suggesting that the enzyme is a multifunctional calmodulin-dependent protein kinase capable of phosphorylating a large number of substrates. A synthetic peptide, Lys-Ser-Asp-Gly-Gly-Val-Lys-Lys-Arg-Lys-Ser-Ser-Ser-Ser, was found to be a specific substrate for this kinase and, using this peptide as substrate, the distribution of the enzyme activity in various rat tissues was examined. The activity was found in cerebral cortex, brain stem, and cerebellum, most abundantly in cerebellum, but other tissues tested, including liver, spleen, kidney, lung, heart, skeletal muscle, and adrenal gland showed very little activity.
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PMID:Purification and characterization of a brain-specific multifunctional calmodulin-dependent protein kinase from rat cerebellum. 130 65

DARPP-32, a dopamine- and adenosine 3':5'-monophosphate regulated neuronal phosphoprotein, Mr 32 kDa, is a phenotypic marker of the medium-size spiny neurons of the mammalian caudate-putamen. In the present study, we examined the ontogeny of DARPP-32 protein and mRNA, and compared it to the ontogeny of tyrosine hydroxylase and synapsin I, a synaptic-vesicle phosphoprotein. In vivo, the amount of DARPP-32 protein per mg total protein increased throughout the first three postnatal weeks, and then declined to plateau at adult levels. The mRNA level closely paralleled the protein, except that its rise preceded that of the protein. Tyrosine hydroxylase levels rose throughout the first 4 postnatal weeks, and synapsin I levels rose steadily during the same period. Primary reaggregate cultures containing cells from the caudate-putamen expressed DARPP-32 with a time course similar to that seen in vivo. The level of expression was not altered by coculturing with dopaminergic neurons from the rostral mesencephalic tegmentum. Thus, the postnatal increase in DARPP-32 levels in the caudate-putamen appears to be independent of transsynaptic or end-organ influences from the substantia nigra.
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PMID:DARPP-32 development in the caudate nucleus is independent of afferent input from the substantia nigra. 197 75

There is a great deal known about the in vitro properties of CaM kinase II, both in terms of its substrate specificity and its regulation by calmodulin and autophosphorylation. Much of this characterization is based on experiments performed with the rat brain isozyme of CaM kinase II, although in the aspects examined to date isozymes of the kinase from other tissues appear to behave in a broadly similar manner in vitro. However, relatively little is known about the functions of the kinase in vivo. The proteins phosphorylated by the kinase (with the probable exception of synapsin I and tyrosine hydroxylase) and the role of kinase autophosphorylation in vivo remain largely unknown. Investigation of the physiological role of the kinase in brain and other tissues will be a particularly exciting area for future work. The current knowledge of the in vitro properties and the availability of cDNA clones will hopefully expedite this research.
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PMID:Calcium/calmodulin-dependent protein kinase II. 217 93

During investigations of the regulation of tyrosine hydroxylase (TH) by protein phosphorylation, a novel protein kinase activity has been discovered in rat pheochromocytoma. Originally detected as a trace contaminant in preparations of highly purified TH, this novel kinase activity phosphorylated TH at serine 8 in the proline-rich amino-terminal region of the enzyme. This particular site is not phosphorylated by, nor is the amino acid sequence surrounding this site selective for, any of the classical (i.e. well characterized) protein kinases. In this report, we describe the identification, characterization, and partial purification of this novel protein kinase. By utilizing a synthetic peptide corresponding to the amino-terminal region of TH, a selective assay for this protein kinase was developed. The kinase activity utilized ATP and magnesium, although GTP could also be utilized as a phosphate donor. The kinase activity was found to co-purify with TH activity through ammonium sulfate precipitation and DEAE-cellulose chromatography and could be only partially resolved from TH by heparin-agarose affinity chromatography. Substantial kinase activity could be resolved from TH by phosphocellulose chromatography. The novel kinase migrates as a protein with a molecular mass of approximately 45 kDa on gel permeation chromatography as well as sucrose density gradient centrifugation. Studies of site specificity indicate that this Ser/Thr kinase activity appears to be directed by an adjacent (carboxyl-terminal) proline residue, exhibiting a minimal recognition sequence of -X-Ser/Thr-Pro-X-. In addition to TH, this proline-directed protein kinase will also phosphorylate synapsin I, histone H1, and glycogen synthase, suggesting that this kinase may have multiple substrates in vivo. Additional findings indicate that the activity of proline-directed protein kinase is increased transiently in PC12 pheochromocytoma cells following treatment with nerve growth factor. Distinctions between this novel kinase and other well characterized protein kinases can be made on the basis of phosphorylation site specificity, chromatographic behavior, and physical characteristics.
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PMID:Identification of a novel proline-directed serine/threonine protein kinase in rat pheochromocytoma. 257 Jul 79

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

The axonal transport of adrenergic and cholinergic axonal organelles in rat sciatic nerve has been studied using a cytofluorimetric scanning (CFS) technique. This technique gives quantitative data on material which accumulates in a nerve relative to a crush, as well as morphological and morphometrical information about the accumulated axons in the nerve. One important advantage is that several substances can be measured in the same nerve segment, thus reducing the number of animals needed. The substances must be made fluorescent, and in this study we have investigated noradrenaline (NA), using formaldehyde induced fluorescence, and dopamine beta-hydroxylase (DBH), tyrosine hydroxylase (TH), neuropeptide Y (NPY) and two cholinergic vesicle components (a transmembrane glycoprotein and synapsin I) using indirect immunofluorescence. The antisera used for labelling immunoreactive material (IR) were produced in rabbit or goat (DBH). In adrenergic axons NA, DBH-IR and TH-IR accumulated with time after crushing the nerve as described earlier with biochemical techniques. After reserpine, the amounts of amine granules transported distally in the sciatic nerve initially fell, but recovered during day 2 after reserpine. At day 4 the amount of NA and DBH-IR which was transported distally in the axons was supranormal, 160% and 140% of control, respectively, but the level of NPY-IR was not increased, even falling to subnormal at day 4, indicating different mechanisms for regulating the synthesis of DBH and NPY which are suggested to co-exist in axonal adrenergic large dense core vesicles. In cholinergic motor axons organelles, recognized by rabbit-anti-cholinergic synaptic vesicles-antiserum (RASVA) and by anti-synapsin I-antiserum, are transported distally at a rapid rate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunocytochemical studies on axonal transport in adrenergic and cholinergic nerves using cytofluorimetric scanning. 287 31

This study was undertaken to evaluate the levels of cAMP-regulated phosphoproteins in the striatum of patients with neurodegenerative diseases of the dopaminergic system. Postmortem samples of caudate nucleus and putamen from 24 control subjects, 23 patients with Parkinson disease, and 13 patients with progressive supranuclear palsy were studied with immunoblotting techniques. The levels of tyrosine hydroxylase were reduced in patients with Parkinson disease (levels were 24% and 10% of controls in caudate nucleus and putamen, respectively) and with progressive supranuclear palsy (levels were 11% and 6% of controls in caudate nucleus and putamen, respectively). Five phosphoproteins, which are present in striatal neurons and are likely to play a role in the postsynaptic actions of dopamine, were measured. These included ARPP-16, ARPP-19, ARPP-21 (cAMP-regulated phosphoproteins of Mr 16,000, 19,000, and 21,000, respectively), DARPP-32 (dopamine- and cAMP-regulated phosphoprotein of Mr 32,000), and phosphatase inhibitor I. The levels of these phosphoproteins were inversely correlated with postmortem delay. In brains of patients with Parkinson disease or progressive supranuclear palsy with postmortem delays comparable to those of controls, the levels of these proteins as well as those of synaptic (synapsin I and synaptophysin) and glial (glial fibrillary acidic protein and myelin basic protein) markers were not significantly modified. We conclude that the levels of several phosphoproteins involved in signal transduction in striatal neurons are not altered in Parkinson disease and progressive supranuclear palsy. This observation supports the view that the striatal output neurons are intact in both diseases.
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PMID:Striatal phosphoproteins in Parkinson disease and progressive supranuclear palsy. 292 45

A number of proteins were tested as potential substrates for purified rabbit liver calmodulin-dependent glycogen synthase kinase. It was found that liver phenylalanine hydroxylase and several brain proteins including tyrosine hydroxylase, microtubule-associated protein 2, and synapsin I were readily phosphorylated. Brain tubulin was very poorly phosphorylated. These results suggest that calmodulin-dependent glycogen synthase kinase may be a more general protein kinase involved in the regulation of several cellular Ca2+-dependent functions.
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PMID:Substrate specificity of liver calmodulin-dependent glycogen synthase kinase. 614 5

The rat hypogastric ganglion (HG) contains populations of both sympathetic and parasympathetic postganglionic neurons which supply the lower pelvic viscera. These neuron populations can be identified by tyrosine hydroxylase (TH) and NADPH-diaphorase (NADPH-d) staining, respectively. The effects of age on the distribution of synapsin I, a nerve terminal marker, in relation to these neuron populations has been investigated in young adult and aged rats. Most synapsin staining was axosomatic and was markedly reduced in the aged animals particularly in relation to sympathetic (NADPH-d-negative/TH-positive) neurons. Image analysis of synapsin I staining in relation to individual sympathetic neurons confirmed that there was a reduction with age of about 50% but no change in synapsin I staining in relation to parasympathetic neurons. These results suggest that synaptic transmission and peripheral integration may be affected in old age and that the autonomic control of the pelvic viscera may be compromised as a result, particularly with regard to the sympathetic innervation. Other autonomic ganglia were also studied for comparison but no such age-related differences were observed.
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PMID:Decrease in synapsin I staining in the hypogastric ganglion of aged rats. 747 27

The distribution of synaptotagmin I in the peripheral nervous system of the rat was investigated by immunofluorescence and confocal laser scanning microscopy. After crushing of the sciatic nerve, synaptotagmin I-like immunoreactivity accumulated proximally as well as distally to the crushes in thin and medium-sized axons. Double labelling studies revealed that synaptotagmin I co-localized with tyrosine hydroxylase, a marker of sympathetic adrenergic neurons, and with substance P, a marker for sensory neurons. No synaptotagmin I-like immunoreactivity was found in large axons, while accumulations of the synaptic vesicle proteins synaptophysin and synapsin I were found in all types of axons. Furthermore, no synaptotagmin I-like immunoreactivity was detected in motor endplates. In contrast, the protein was found in muscle spindles of young rats and in perivascular terminals, where it co-localized with synaptophysin and synapsin I. Lumbar sympathectomy resulted in a marked reduction of the amount and intensity of synaptotagmin I-like immunoreactivity in sciatic nerve. High magnification revealed that synaptotagmin I-like immunoreactivity was mainly distributed in a fine granular pattern, but large, brightly fluorescent granules which were not labelled by anti-synaptophysin or anti-synapsin I were occasionally observed. We conclude that synaptotagmin I is mainly expressed in adrenergic and sensory neurons and is absent from, or below detection levels, in motoneurons.
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PMID:Synaptotagmin I is present mainly in autonomic and sensory neurons of the rat peripheral nervous system. 753 85

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