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: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Serotonin depolarized Aplysia buccal motoneuron B16. The response could be obtained in high-magnesium/low-calcium medium, indicating a direct effect on B16 and supporting a putative monosynaptic input to B16 from the serotonergic metacerebral neurons. Similar depolarizing effects in high-magnesium/low-calcium medium were obtained in response to 8-bromo cyclic AMP, isobutylmethylxanthine, theophylline and forskolin. Tolbutamide, a putative inhibitor of cyclic AMP-dependent protein kinase, blocked or reversed responses of B16 to egg-laying hormone containing extracts and to serotonin. Serotonin and forskolin significantly increased the cyclic AMP content of buccal ganglia, whereas egg-laying hormone-containing extracts did not.
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PMID:Sensitivity of a peptide-activated neuron in Aplysia to serotonin and cyclic AMP-relevant agents. 287 89

We prepared and characterized subcellular membrane fractions from the CNS of Aplysia californica that are enriched in isolated nerve terminals (synaptosomes). Ganglia were homogenized in 1.1 M sucrose and fractionated on a 2-step sucrose gradient, yielding 50 micrograms protein/animal in the synaptosomal fraction (P3), which was enriched 3-fold in plasma membrane as compared with the initial homogenate. Quantitative morphometry of electron micrographs revealed that P3 contained 25% intact synaptosomes, a 5-fold enrichment over the homogenate. Although fractionation on a 5-step sucrose gradient reduced the yield of protein in the synaptosomal fraction to 40 micrograms/animal, this fraction (the 0.35 M/0.75 M interface) was more enriched in plasma membrane than P3 and was less contaminated by lysosomes and free mitochondria. By electron microscopy, the 0.35 M/0.75 M interface contained up to 50% synaptosomes. Synaptosomal fractions contained cAMP-, Ca2+/calmodulin-, and Ca2+/phospholipid-dependent protein kinase activities and were enriched in a Mr 40,000 pertussis toxin substrate, Gi/o. In the accompanying paper, we show that these synaptosomes retain the ability to release transmitters.
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PMID:Aplysia synaptosomes. I. Preparation and biochemical and morphological characterization of subcellular membrane fractions. 291 12

Following brief stimulation of an afferent pathway, the bag cell neurons of Aplysia undergo a dramatic change in excitability, resulting in a prolonged discharge of spontaneous action potentials. During the discharge, the action potentials of the bag cell neurons become enhanced in height and width. The afterdischarge triggers release of neuroactive peptides that initiate egg-laying behavior in this animal. Evidence suggests that changes in excitability of the bag cell neurons may be mediated by activation of protein kinase C (PKC) and cAMP-dependent protein kinase (cAMP-PK). PKC activators, such as the phorbol ester TPA (12-O-tetradecanoyl-13-phorbol acetate), enhance the amplitude of action potentials in isolated bag cell neurons in cell culture. These agents act by unmasking a previously covert species of voltage-dependent calcium channel resulting in an increase in calcium current. In the accompanying paper (Conn et al., 1989), we showed that H-7, a protein kinase inhibitor, inhibits the effect of TPA, and is a selective inhibitor of PKC relative to cAMP-PK in these cells. We now report that another PKC inhibitor, sphinganine, also inhibits the effect of TPA on action potential height and calcium current in cultured bag cell neurons, and that N-acetylsphinganine, an inactive sphinganine analog, fails to inhibit the effects of PKC activators. Although both H-7 and sphinganine prevent the effects of TPA when added prior to TPA addition, neither compound reverses the effects of TPA when added after the action potentials have already become enhanced by TPA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibitors of protein kinase C prevent enhancement of calcium current and action potentials in peptidergic neurons of Aplysia. 291 72

Homogenates of the Aplysia nervous system contain protein kinase activities sensitive to cAMP, cGMP, and Ca2+/calmodulin. The cAMP- and cGMP-dependent activities are either soluble enzymes or are only loosely bound to membranes, since they can be detected only in crude but not in washed membrane fractions, and are present in 20,000 or 100,000 X g supernatants prepared from homogenates. In contrast there are both soluble and tightly membrane-bound Ca2+/calmodulin-dependent protein kinase activities. The three activities present in supernatant fractions can be separated by chromatography on DE-cellulose, indicating that they are due to distinct enzyme species. Substrates for these enzymes were analyzed by two-dimensional gel electrophoresis. Protein phosphorylation within the identified Aplysia neuron R15 in vivo was measured by the intracellular injection of [gamma-32P]ATP. cAMP stimulates the phosphorylation of nine proteins and decreases phosphorylation of two proteins in this cell. This in vivo pattern was compared with in vitro phosphorylation measured in homogenates of whole ganglion. Most of the phosphoproteins affected by cAMP in neuron R15 in vivo are also substrates for cAMP-dependent protein kinase in vitro. Thus, the in vitro system will be a useful tool for detailed biochemical analysis of phosphoproteins which have been identified as being physiologically relevant in vivo.
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PMID:Calcium- and cyclic nucleotide-dependent protein kinases and their substrates in the Aplysia nervous system. 298 Dec 96

We have isolated and sequenced cDNA clones representing portions of the polyadenylylated transcripts of the dunce+ gene. These define an open reading frame of 1086 bases and some of the 5'- and 3'-untranslated regions of the transcripts. The deduced amino acid sequence is strikingly homologous to the amino acid sequence of a Ca2+/calmodulin-dependent cyclic nucleotide phosphodiesterase isolated from bovine brain and more weakly related to the predicted amino acid sequence of a yeast cAMP phosphodiesterase. These homologies, together with prior genetic and biochemical studies, provide unambiguous evidence that dunce+ codes for a phosphodiesterase. In addition, the dunce+ gene product shares a seven-amino acid sequence with a regulatory subunit of cAMP-dependent protein kinase that is predicted to be part of the cAMP binding site. We also identify a weak homology between a region of the dunce+ gene product and the egg-laying hormone precursor of Aplysia californica. The open reading frame is divided in the genome by four introns.
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PMID:Molecular analysis of cDNA clones and the corresponding genomic coding sequences of the Drosophila dunce+ gene, the structural gene for cAMP phosphodiesterase. 302 34

Sensitization of the gill- and siphon-withdrawal reflex in Aplysia is considered a simple form of learning. Previous work has provided physiological and pharmacological evidence that cAMP-dependent protein phosphorylation within identified sensory neurons of the abdominal ganglion underlies the short-term form of this behavioral modification. Our main goal in this paper is to determine the subcellular distribution of cAMP and to measure the amounts and properties of the 2 types of subunits (regulatory and catalytic) that constitute the cAMP-dependent protein kinase. Do these biochemical parameters differ in sensory cells from those in other parts of nervous tissue? We found that the increased cAMP synthesized under conditions of sensitization is distributed in 3 compartments in the neuron: most of it is free in the cytoplasm; the remainder is bound either to cytoplasmic or to particulate proteins, which are believed to be regulatory subunits of the cAMP-dependent protein kinase. Binding of cAMP within the neurons is a measure of activation of the kinase. At rest, 17% of the binding sites in sensory cells were occupied. After brief electrical stimulation of the connective, which released endogenous transmitter, occupancy increased to 34%. This treatment increased the amount of cAMP bound to the various binding proteins differentially. The biochemical characteristics of cAMP binding were found to be the same in sensory neurons as in the rest of the nervous system but different from those in muscle. Thus, memory and learning are likely to be mediated by enzymes that are shared by other nerve cells. We found that sensory neurons have greater cAMP-dependent protein kinase activity than other neurons, however, and as a result may be more sensitive to small increases of cAMP.
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PMID:Distribution of cAMP and cAMP-dependent protein kinases in Aplysia sensory neurons. 302 75

Forskolin, a diterpene extracted from Coleus forskolii, stimulates the production of cAMP in a variety of cells and is potentially an important tool for studying the role of cAMP in the modulation of neuronal excitability. We studied the effects of forskolin on neurons of nudibranch molluscs and found that it caused characteristic, reversible changes in the amplitude and waveform of the transient K current, IA, and also activated an inward current similar to the cAMP-dependent inward current previously described in molluscan neurons. Forskolin altered the time course of IA activation and inactivation but did not affect the voltage dependence or the reversal potential of the current. IA normally inactivates exponentially, but in forskolin the time course of inactivation can be fit by the sum of 2 exponentials with an initial rate that is faster than the control and a final rate that is much slower. On depolarization in forskolin, IA begins to activate at the normal rate, but a slower component of activation is also seen. The changes in IA in the nudibranch cells were qualitatively different than the changes caused by forskolin in Aplysia bag cell neurons (Strong, 1984). Experiments were performed to determine whether these effects of forskolin require cAMP. Intracellular injection of cAMP, application of membrane-permeable analogs of cAMP, application of phosphodiesterase inhibitors, and intracellular injection of the active catalytic subunit of cAMP-dependent protein kinase did not affect the amplitude or waveform of IA. Also, the changes in IA that are caused by forskolin were not prevented or reversed by intracellular injection of an inhibitor of cAMP-dependent protein kinase. Cyclic AMP did, however, activate inward current at voltages near the resting potential. We conclude that the changes in IA and the activation of inward current represent separate affects of forskolin. The inward current appears to depend on an increase in intracellular cAMP, while the changes in IA do not. These experiments show that, in addition to activating adenylate cyclase, forskolin may have a separate direct affect on the transient K current.
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PMID:Forskolin's effect on transient K current in nudibranch neurons is not reproduced by cAMP. 302 41

Sensitization of the gill- and siphon-withdrawal reflex in Aplysia is thought to result from a set of molecular processes with different time courses: short-term sensitization is explained by cyclic AMP-dependent modulation of ion-channel function in sensory neurons lasting minutes; memory that endures for hours or longer, by the expression and distribution within the neurons of new gene products. Because gene induction and axonal transport are relatively slow, there may also be a need for a distinct form of intermediate memory to bridge the short- and long-term processes. We now report that a protocol producing long-term sensitization results in a decrease in the amount of regulatory subunits of the cAMP-dependent protein kinase in animals 24 h after training, with no effect on the catalytic subunit. The loss appears to be post-translational. Because a decrease in the ratio of regulatory to catalytic subunits would result in elevated kinase activity after cAMP has returned to its unstimulated concentration in sensory cells, it could be the molecular mechanism of intermediate memory.
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PMID:A molecular mechanism for long-term sensitization in Aplysia. 304 Dec 25

1.) Application of serotonin to Aplysia sensory neurons can result in facilitated synaptic transmission, both short- and long-term. This facilitation is likely to be produced by a complex set of molecular mechanisms: serotonin activates adenylate cyclase, increasing cAMP and protein kinase (Cedar and Schwartz, 1972); serotonin also changes the subcellular distribution of the Ca2+/calmodulin-dependent protein kinase (Saitoh and Schwartz, 1983). Recently, phorbol esters also have been shown to produce facilitation. We have therefore investigated how protein kinase C (PKC) participates in serotonin-mediated synaptic facilitation. 2.) We found that the Aplysia genome encodes PKC, which is expressed in nervous tissue as at least two abundant transcripts (about 0.003% of the total message). Its inferred amino acid sequence is 85% homologous to that of enzymes from mammals and Drosophila, and over 95% homologous if compared to both. The specific activity of the Aplysia kinase is comparable to that found in rat brain, with similar reaction parameters and dependencies on phosphatidylserine (PS), Ca2+, diacylglycerol and phorbol esters. While PKC is found on neuronal membrane in the basal state, the PKC activators, Ca2+ and phorbol esters, further translocate the kinase to membrane in crude extracts of neuronal tissue. The amounts of membrane-bound PKC, as determined by 3H-phorbol-ester binding, are greatest in neuropil and nerve. 3.) Exposure of sensory neurons and their terminals in Aplysia pleural-pedal ganglia to facilitating doses of either phorbol ester or serotonin results in the translocation of PKC from cytosol to membrane, activating the enzyme. cAMP does not produce this translocation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of protein kinase C by serotonin: biochemical evidence that it participates in the mechanisms underlying facilitation in Aplysia. 327 94

The rho genes comprise an evolutionarily conserved family with significant homology to the ras oncogene family. Two members of the rho family were isolated from the yeast Saccharomyces cerevisiae and characterized by DNA sequence analysis. The yeast genes RHO1 and RHO2 are 70% and 57% identical, respectively, to the rho gene of the marine snail Aplysia, and they are 53% identical to each other. Inactivation of these genes showed that RHO1 is required for cell viability, while RHO2 is not an essential gene. A mutant allele of RHO1 (RHO1-His68) was constructed with a mutation analogous to one that activates the transforming potential of the human HRAS gene. Diploid strains containing RHO1-His68 in either low or high copy number are unable to sporulate, and the mutant allele is dominant over wild-type RHO1. The requirement for RHO1 cannot be circumvented by introduction of high copy number plasmids containing either the gene encoding the catalytic subunit of cAMP-dependent protein kinase or the mutant allele RAS2-Val19. Despite the conservation between the rho and ras gene families, the finding that RHO1 functions independently of the adenylate cyclase cAMP-dependent protein kinase cascade suggests that rho and ras are involved in distinct biochemical pathways.
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PMID:Characterization of two members of the rho gene family from the yeast Saccharomyces cerevisiae. 354 36


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