EC:4.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The need for nonshivering heat production, a principal function of brown adipose tissue, is accentuated in neonates. Accordingly, brown fat in the rat exhibits a very pronounced process of morphological and functional maturation perinatally, reaches a peak in its differentiation and heat-generating capacity within 1-2 weeks after birth, and undergoes involutive changes later in life. The later process of dedifferentiation can be either prevented or reversed by exposing the animals to cold ambient temperature for a prolonged period of time (cold acclimatization). The regulation of both the tissue maturation processes and the superimposed acute heat production are hormone mediated. Thus, the hormone receptor system within the adipocyte membrane and the sequence of molecular events interconnecting the initial hormonal stimulus with its final intracellular effect(s) are of considerable importance. The brown adipocytes of developing rats possess adrenoreceptors that can be pharmacologically classified as beta 1 (linked to adenylate cyclase) and alpha 2 (possibly linked to guanylate cyclase), multiple forms of cyclic nucleotide dependent and independent protein kinases, a protein kinase inhibitor, and at least two distinct phosphoprotein phosphatases associated with three phosphoprotein phosphatase modulators. The characteristics and developmental alterations of these regulatory components were studied in considerable detail by our group during the past decade. The results uncovered several target systems for ontogenic modifications of hormonal responses. Strong support was obtained for the hypothesis that protein phosphorylation and dephosphorylation is a major molecular mechanism involved in the regulation of both the brown adipocyte function and its proliferative activity during ontogenic development.
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PMID:Mechanisms of hormonal regulations in brown adipose tissue of developing rats. 614 37

The effects of cholera toxin on rat parotid gland function were determined in order to further characterize the relationship between cyclic AMP and exocytosis in this tissue. Cholera toxin induced the release of alpha-amylase from rat parotid minces in vitro. This release was accompanied by an activation of adenylate cyclase, elevated cyclic AMP levels, an elevated protein kinase activity ratio, and changes in the degree of phosphorylation of three endogenous phosphoproteins. Two of the phosphoproteins became more phosphorylated upon cholera toxin stimulation while the phosphorylation of the other decreased. The effects of cholera toxin on endogenous phosphoprotein labelling appeared to mimic those of the beta-adrenergic agonist isoproterenol but were of a smaller magnitude. These results are consistent with cyclic AMP functioning as a major mediator of exocytosis in this gland exerting its effects, at least in part, via activation of cyclic AMP dependent protein kinase. The mechanism by which an increased cyclic AMP level results in the decreased phosphorylation of an endogenous phosphoprotein is not known.
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PMID:Cyclic AMP in the regulation of exocytosis in the rat parotid gland. Evidence obtained with cholera toxin. 619 46

Several mammalian neurotransmitter candidates, for example, serotonin, dopamine and noradrenaline, may exert some of their synaptic effects by regulating protein phosphorylation systems. Comparison of the regional distribution of brain phosphoproteins with neurotransmitter systems may help to identify the specific phosphoproteins involved in the functions of particular neurotransmitters. Here we report the association of one such phosphoprotein with the dopamine pathways in brain. This protein, of apparent molecular weight (MW) 32,000 (32K), seems to be present only in nervous tissue. Its regional distribution within the brain is very similar to the pattern of dopamine-containing nerve terminals; more specifically, the protein appears to be enriched in those dopaminoceptive neurones which possess D-1 receptors (dopamine receptors coupled to adenylate cyclase). The state of phosphorylation of the protein in these dopaminoceptive neurones can be regulated by both dopamine and cyclic AMP. These results suggest that the phosphoprotein may mediate certain of the trans-synaptic effects of dopamine acting on dopaminoceptive neurones.
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PMID:A dopamine- and cyclic AMP-regulated phosphoprotein enriched in dopamine-innervated brain regions. 629 85

The phosphorylation of NADP-specific isocitrate dehydrogenase in a wild-type and in an adenylate cyclase deletion mutant of Escherichia coli has been investigated. The results obtained clearly indicate that cyclic AMP is not required for the phosphorylation reaction per se, not is it for the synthesis or possible activation of the phosphoprotein kinase in this organism. This data are in contrast to results observed in Salmonella typhimurium, and indicate that important differences exist in the phosphorylation of the isocitrate dehydrogenase in these two organisms.
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PMID:Cyclic AMP-independent phosphorylation of Escherichia coli isocitrate dehydrogenase. 629 89

Evidence was obtained for catecholamine-stimulated adenylate cyclase activity in particulate fractions of frog and rabbit corneal epithelium. Epinephrine (10(-5)M) stimulated adenylate cyclase by 22 and 53% in the frog and rabbit, respectively. The corresponding changes were statistically significant (P less than 0.01) when the data was analyzed using paired variates. Preincubation with 10(-4)M propranolol eliminated any stimulatory effect by 10(-5)M isoproterenol. Adenylate cyclase activity derived from either source was activated several fold by either 10 mM NaF or 10(-5)MGpp (NH)p. Soluble fractions of homogenized frog corneal epithelium contained cyclic AMP-dependent protein kinase activity which was half-maximally stimulated by about 6 nM cyclic AMP. Evidence was also obtained for the presence of protein substrates of cyclic AMP dependent protein kinase in frog corneal epithelium. With exogenous cyclic AMP and protein kinase, a rapid 32P labelling of proteins having approximate molecular weights of 56, 46, 23 and 21 K was obtained with sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis. A less marked and slower increase in phosphoprotein formation was observed when corneal membranes were incubated with cyclic AMP in the absence of added protein kinase.
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PMID:Evidence for catecholamine-stimulated adenylate cyclase activity in frog and rabbit corneal epithelium and cyclic AMP-dependent protein kinase and its protein substrates in frog corneal epithelium. 631 65

The present study documents the existence in mammalian brain of a phosphoprotein which may play a biological role in dopaminoceptive neurons. This protein has been designated DARPP-32 (dopamine- and adenosine 3':5'-monophosphate-regulated phosphoprotein-32,000). The regional distribution of DARPP-32 in the rat brain follows the general pattern of dopaminergic innervation. DARPP-32 is present in dopaminoceptive rather than dopaminergic neurons. Moreover, it appears to be concentrated in a subpopulation of dopaminoceptive cells, namely those containing D-1 receptors (dopamine receptors coupled to adenylate cyclase activation), where it is localized in cell bodies, dendrites, axons, and nerve terminals. DARPP-32 is phosphorylated in intact cells from the caudatoputamen by dopamine and by 8-bromo-cyclic adenosine 3':5'-monophosphate and in cell-free preparations by cyclic adenosine 3':5'-monophosphate-dependent protein kinase. In two accompanying papers, we report the purification and biochemical characterization of DARPP-32 (Hemmings, H.C., Jr., A.C. Nairn, D.W. Aswad, and P. Greengard (1984) J. Neurosci. 4: 99-110) and the immunocytochemical localization of this phosphoprotein (Ouimet, C.C., P. Miller, H.C. Hemmings, Jr., S.I. Walaas, and P. Greengard (1984) J. Neurosci. 4: 111-124).
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PMID:DARPP-32, a dopamine- and adenosine 3':5'-monophosphate-regulated phosphoprotein enriched in dopamine-innervated brain regions. I. Regional and cellular distribution in the rat brain. 631 27

The longitudinal and transverse distributions of the synapse-specific phosphoprotein Protein I and adenylate cyclase in the rat spinal cord were studied. Protein I was found to be enriched in all cervical and midlumbar (L3-L5) segments, and sparse in midthoracic and sacral segments. Adenylate cyclase activity was high in all cervical and lumbosacral segments, and low in mid-thoracic segments. Cross sectionally, both Protein I and adenylate cyclase were more enriched in the dorsal half than in the ventral half in the various segments studied. The similar topographical distributions of Protein I and adenylate cyclase in the spinal cord support the idea that adenylate cyclase may be intimately associated with Protein I in the nervous system, and could thereby regulate the state of in vivo phosphorylation of Protein I through formation of cyclic AMP.
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PMID:Distribution of protein I, a synapse-specific phosphoprotein, and adenylate cyclase in the rat spinal cord. 678 Jun 61

In the retinas of teleost fish dopamine, released from interplexiform cells, modulates synaptic transmission at both the chemical and electrical synapses of retinal horizontal cells. This modulation is due to activation of adenylate cyclase and phosphorylation by protein kinase A, perhaps of the synaptic ion channel proteins themselves. In this study we have fractionated the white perch retina by Percoll density gradient centrifugation in order to identify proteins which coenrich with horizontal cells. In addition we have tested retinal fractions for phosphorylation by native cAMP-dependent kinase. Our findings indicate that there are at least 3 proteins of molecular weights 28, 43/44 and 50 kDa which coenrich with horizontal cells and 3 proteins of 30/31 kDa, 35 kDa (putative rhodopsin) and 48 kDa (putative arrestin) which coenrich with photoreceptor fractions. The 43/44 kDa phosphoprotein is a target for cAMP-dependent protein phosphorylation and thus is apparently an element of the dopaminergic modulatory pathway in perch horizontal cells.
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PMID:Protein content and cAMP-dependent phosphorylation of fractionated white perch retina. 782 Jun 51

Immortalized hybrid cells were generated by somatic cell fusion of 18-d-old embryonic corpus striatum of the mouse strain C57BL/6J with the N18TG2 neuroblastoma. One of the cell populations obtained was treated with a combination of 1 mM n-butyric acid and 10 microM SKF 38393 (a specific D1 agonist), and a surviving cell population (E1X) was subcloned. Twenty-seven monoclonal cell lines were obtained and screened for the expression of striatal-specific characteristics including gamma-aminobutyric acid (GABA), choline acetyltransferase (ChAT), acetylcholine (ACh), mRNA for specific dopamine receptors, and dopamine- and adenosine 3':5'-monophosphate-regulated phosphoprotein, M(r) 32,000 (DARPP-32), and functional D1 and D2 dopamine receptors. Neither the parent hybrid cell population (E1X) nor any of the monoclonal cell lines examined expressed GABA levels significantly different than that of the N18TG2 parent neuroblastoma cells (1.36 +/- 0.07 micrograms/mg protein). The range of ChAT activity in the monoclonal hybrid cell lines was 5.5 +/- 0.3 to 921.3 +/- 97.4 pmol/min/mg protein. Two of the cell lines expressing ChAT activity (X52 and X58) contained ACh (49.64 +/- 4.23 and 1.78 +/- 0.07 ng/mg protein, respectively). The neuronal origin of four of the monoclonal hybrid lines was shown by their immunoreactivity, following differentiation with 10 microM forskolin, to neurofilament protein, a neuron-specific marker. The monoclonal hybrid cell lines, but not the N18TG2 neuroblastoma, were shown to express an array of D1, D2, and D5 receptor mRNA as well as DARPP-32 mRNA. Two monoclonal cell lines expressed D1 receptor binding sites (X57, 29.2 +/- 4.5 fmol/mg protein and X62, 43.8 +/- 6.8 fmol/mg protein) which mediated the stimulation of adenylate cyclase activity. One cell line, X58, expressed only D2 dopamine receptors (80.9 +/- 9.8 fmol/mg protein) which were negatively coupled to adenylate cyclase activity. These findings suggest that the immortalized monoclonal hybrid cell lines are of neuronal origin and have incorporated elements of the medium spiny and cholinergic neurons of the developing striatum.
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PMID:Immortalized murine striatal neuronal cell lines expressing dopamine receptors and cholinergic properties. 782 71

The aim of this study was to achieve a better understanding of the integration in striatal medium-sized spiny neurons (MSNs) of converging signals from glutamatergic and dopaminergic afferents. The review of the literature in the first section shows that these two types of afferents not only contact the same striatal cell type, but that individual MSNs receive both a corticostriatal and a dopaminergic terminal. The most common sites of convergence are dendritic shafts and spines of MSNs with a distance between the terminals of less than 1-2 microns. The second section focuses on synaptic transmission and second messenger activation. Glutamate, the candidate transmitter of corticostriatal terminals, via different types of glutamate receptors can evoke an increase in intracellular free calcium concentrations. The net effect of dopamine in the striatum is a stimulation of adenylate cyclase activity leading to an increase in cAMP. The subsequent sections present information on calcium- and cAMP-sensitive biochemical pathways and review the regional and subcellular distribution of the components in the striatum. The specific biochemical reaction steps were formalized as simplified equilibrium equations. Parameter values of the model were chosen from published experimental data. Major results of this analysis are: at intracellular free calcium concentrations below 1 microM the stimulation of adenylate cyclase by calcium and dopamine is at least additive in the steady state. Free calcium concentrations exceeding 1 microM inhibit adenylate cyclase, which is not overcome by dopaminergic stimulation. The kinases and phosphatases studied can be divided in those that are almost exclusively calcium-sensitive (PP2B and CaMPK), and others that are modulated by both calcium and dopamine (PKA and PP1). Maximal threonine-phosphorylation of the phosphoprotein DARPP requires optimal concentrations of calcium (about 0.3 microM) and dopamine (above 5 microM). It seems favourable if the glutamate signal precedes phasic dopamine release by approximately 100 msec. The phosphorylation of MAP2 is under essentially calcium-dependent control of at least five kinases and phosphatases, which differentially affect its heterogeneous phosphorylation sites. Therefore, MAP2 could respond specifically to the spatio-temporal characteristics of different intracellular calcium fluxes. The quantitative description of the calcium- and dopamine-dependent regulation of DARPP and MAP2 provides insights into the crosstalk between glutamatergic and dopaminergic signals in striatal MSNs. Such insights constitute an important step towards a better understanding of the links between biochemical pathways, physiological processes, and behavioural consequences connected with striatal function. The relevance to long-term potentiation, reinforcement learning, and Parkinson's disease is discussed.
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PMID:Postsynaptic integration of glutamatergic and dopaminergic signals in the striatum. 783 76

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