Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0043167 (pertussis)
 19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Cyclic adenosine 3',5'-monophosphate (cAMP) plays a critical role in modulating a variety of neuronal responses in Aplysia californica. Previous studies have focused on the neurotransmitter activation of adenylate cyclase, which presumably occurs via the guanosine 5'-triphosphate (GTP)-regulated excitatory subunit (Ns). While adenylate cyclase has also been shown to be regulated by inhibitory neurotransmitters, coupled through the inhibitory GTP-regulated coupling protein Ni in some systems, the effects of Ni-mediated adenylate cyclase inhibition on neuronal processing in Aplysia have not previously been reported. In the present study Ni is detected in Aplysia by both protein chemistry and enzymatic activity. A 40 kdalton substrate for the enzymatic activity of Bordetella pertussis toxin is observed. Incubation of Aplysia nervous tissue homogenates with pertussis toxin (IAP) and 32P-nicotinamide-adenine dinucleotide labels a single protein, assessed by polyacrylamide gel electrophoresis and autoradiography. Furthermore, crude membrane suspensions of this tissue demonstrate biphasic adenylate cyclase activity in response to increasing concentrations of GTP, showing Ni and Ns functional activities. These findings provide evidence that Ni is present in Aplysia tissue. Ni may serve as an important site for the regulation of cAMP synthesis and neuronal plasticity.
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PMID:Evidence for the inhibitory subunit of adenylate cyclase (Ni) in nervous and heart tissue of Aplysia. 396 Mar 97

A study was made of the role of G proteins in the K+ conductance increases elicited by cholinergic and glutamatergic agonists in identified Aplysia neurons. The cholinergic response, previously shown to be G protein mediated, was occluded by dialysis with either nonhydrolyzable GTP analogs (GTP gamma S or Gpp(NH)p) or beryllium fluoride and was blocked by pertussis toxin as well as by dialysis with a nonhydrolyzable GDP analog (GDP beta S). In contrast, the glutamatergic response, studied simultaneously in the same cell, persisted throughout all of the above manipulations and hence does not appear to depend upon G protein activation. This characteristic differentiates the glutamatergic response from most other transmitter- or hormone-induced increases in K+ conductance elicited in either neurons or other cell types, whether vertebrate or invertebrate.
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PMID:Glutamate activates a K+ conductance increase in Aplysia neurons that appears to be independent of G proteins. 791 99

The bag cell peptides (alpha-, beta-, and gamma-BCP) are secreted by the neuroendocrine bag cells of Aplysia, and provide feedback modulation of bag cell excitability and cAMP levels. We report here that if 200-500 mM NaCl is included in the assay buffer, the BCPs alter adenylate cyclase activity in a manner consistent with their effects on cAMP levels in intact bag cells. Specifically, beta-BCP and the related peptide A from the atrial gland stimulate the enzyme, while the effects of alpha-BCP(1-7) and gamma-BCP are temperature-dependent, stimulating at 30 degrees C and inhibiting at 15 degrees C. Both stimulation and inhibition require GTP, suggesting mediation by Gs and Gi. The ionic requirements of stimulation and inhibition differ: Cl- is necessary to support stimulation, but not inhibition. Moreover, pertussis toxin blocks inhibition, but does not affect stimulation. These results suggest that the temperature-sensitive mechanism lies upstream from the G-proteins in the signal transduction pathway.
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PMID:Temperature-dependent stimulation and inhibition of adenylate cyclase by Aplysia bag cell peptides. 838 57

Application of either acetylcholine (ACh), dopamine (DA), histamine (HA), or Phe-Met-Arg-Phe-NH2 (FMRFamide) induces a K+-current response in the identified neurons of Aplysia under voltage clamp. This type of response is mediated by a pertussis toxin (PTX)-sensitive G-protein, Gi or Go. Extracellular application of 60 microM phorbol dibutyrate (PDBu), an activator of protein kinase C (PKC), to these cells markedly depressed all the K+-current responses to ACh, DA, HA, and FMRFamide. The depressing effect of PDBu lasted for at least 60 min despite continuous washing with the normal perfusing medium. Application of PKC inhibitors such as 100 microM H-7 or 10 microM staurosporine and PKCI(19-31) prior to the application of PDBu significantly decreased the depressing effects of PDBu. In contrast, an intracellular injection of okadaic acid (OA), an inhibitor of protein phosphatase 1 and 2A, significantly augmented the blocking effect of PDBu. Intracellular injection of the PKC catalytic subunit induced a similar depressing effect as observed with PDBu. The dose-response curves obtained with different transmitters all shifted downward after the activation of PKC, but the ED50 of each transmitter remained unchanged. Furthermore, the K+-current responses induced by the intracellular application of GTPgammaS were not depressed at all, even after the receptor-induced K+-current responses of the same cell were markedly depressed. These results strongly suggest that PKC phosphorylated a certain coupling site between the receptor and G-protein, and impaired the signal transduction necessary for triggering the K+-channel opening.
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PMID:Functional uncoupling between the receptor and G-protein as the result of PKC activation, observed in Aplysia neurons. 927 Nov 55

Acetylcholine (ACh) activates two types of chloride conductances in Aplysia neurons that can be distinguished by their kinetics and pharmacology. One is a rapidly desensitizing current that is blocked by alpha-conotoxin-ImI and the other is a sustained current that is insensitive to the toxin. These currents are differentially expressed in Aplysia neurons. We report here that neurons that respond to ACh with a sustained chloride conductance also generate 8-lipoxygenase metabolites. The sustained chloride conductance and the activation of 8-lipoxygenase have similar pharmacological profiles. Both are stimulated by suberyldicholine and nicotine, and both are inhibited by alpha-bungarotoxin. Like the sustained chloride conductance, the activation of 8-lipoxygenase is not blocked by alpha-conotoxin-ImI. In spite of the similarities between the metabolic and electrophysiological responses, the generation of 8-lipoxygenase metabolites does not appear to depend on the ion current since an influx of chloride ions is neither necessary nor sufficient for the formation of the lipid metabolites. In addition, the application of pertussis toxin blocked the ACh-activated release of arachidonic acid and the subsequent production of 8-lipoxygenase metabolites, yet the ACh-induced activation of the chloride conductance is not dependent on a G protein. Our results are consistent with the idea that the nicotinic ACh receptor that activates the sustained chloride conductance can, independent of the chloride ion influx, initiate lipid messenger synthesis.
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PMID:A pertussis toxin-sensitive 8-lipoxygenase pathway is activated by a nicotinic acetylcholine receptor in aplysia neurons. 1135 29

In Aplysia, the neurotransmitter dopamine is involved in the regulation of various physiological processes and motor functions, like feeding behaviour, and in the siphon-gill withdrawal reflex. In this paper, we report the characterization of the first Aplysia D1-like dopamine receptor (Apdop1) mainly expressed in the CNS, heart and buccal mass. Following expression of the Apdop1 receptor in HEK293 cells, a higher level of cAMP was observed in the absence of the receptor ligand, showing that Apdop1 is constitutively active. This activity was blocked by the inverse agonist flupentixol. Application of dopamine (EC50 of 35 nm) or serotonin (EC50 of 36 microm) to Apdop1-transfected HEK293 cells further increased the level of cAMP, suggesting that the receptor is linked to the stimulatory Gs protein pathway. When expressed in cultured sensory neurons, Apdop1 immunoreactivity was observed in the cell body and neurites. Control sensory neurons responded to dopamine with a decrease in excitability mediated by a pertusis toxin-sensitive G protein. Expression of Apdop1 produced an increase in hyperpolarization in the absence of agonist and an increase in membrane excitability following stimulation by dopamine. In the presence of pertussis toxin to inhibit the Gi protein inhibitory pathway responsible for decrease in excitability mechanism, Stimulation of membrane excitability was observed. Apdop1 sensitivity to dopamine makes it a potential modulator of operant conditioning procedure.
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PMID:An aplysia dopamine1-like receptor: molecular and functional characterization. 1633 22


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