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:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glutamate evoked pertussis toxin-sensitive currents in Xenopus oocytes expressing metabotropic glutamate receptor subtype 1 (mGluR1) and exogenous Gi1 alpha. The mGluR1-currents were completely blocked by U-73122, a phospholipase C (PLC) inhibitor and by niflumic acid, a chloride channel blocker. In the oocyte further coinjected with poly(A)+ RNA from the guinea pig cerebellum, the mGluR1-currents were inhibited by U-50488H, an opioid kappa-agonist, and this inhibition was blocked by norbinaltorphimine, an opioid kappa-antagonist. These findings suggest that the mRNA encoding a novel subtype of opioid kappa-receptor which inhibits Gi1-PLC-mediated currents is present in guinea pig cerebellar poly(A)+ fractions.
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PMID:Evidence for a metabostatic opioid kappa-receptor inhibiting pertussis toxin-sensitive metabotropic glutamate receptor-currents in Xenopus oocytes. 749 99

Image analysis techniques have been used to demonstrate that progesterone induces a rapid calcium transient in the acrosomal domain of greater than 90% of human spermatozoa (n = 2354). These results are at variance with previous reports, suggesting that progesterone receptors are only expressed on a small subpopulation of these cells, by virtue of their ability to bind fluorescent probes incorporating progesterone 3- (O-carboxymethyl) oxime conjugated to BSA. In the present study, we could confirm that such probes only bound to a small proportion of human spermatozoa (3.01 +/- 0.29%; n = 7557) although 91.79 +/- 1.8% of the same sperm populations exhibited a calcium transient in response to progesterone. These results indicate that the binding of labeled progesterone conjugates to human spermatozoa does not reflect the size of the progesterone responsive population; the response elicited by this steroid is essentially ubiquitous. Progesterone action was shown to involve an influx of extracellular calcium via mechanisms that did not involve voltage sensitive- or second messenger operated-channels, phospholipase C, or G proteins. Despite previous evidence suggesting that progesterone action might involve a GABAA receptor/chloride channel, neither GABA nor the GABA agonist muscimol had any effect on intracellular calcium concentrations in human spermatozoa or influenced their functional competence. The only factor that disrupted the responses of human spermatozoa to progesterone was this steroid itself. Progesterone exposure induced a prolonged period of refractoriness to further stimulation that influenced the capacity of these cells to generate calcium transients, and their ability to exhibit a biological response to changes in intracellular calcium. There are implications in these results for our understanding of the extragenomic action of progesterone on human spermatozoa and the clinical manipulation of this system for the assessment and suppression of human sperm function.
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PMID:The extragenomic action of progesterone on human spermatozoa: evidence for a ubiquitous response that is rapidly down-regulated. 875 77

The whole cell recording technique was used to examine an outwardly rectifying chloride current activated by hypotonic shock in bovine pigmented ciliary epithelial (PCE) cells. Removal of internal and external Ca2+ did not affect the activation of these currents, but they were abolished by the phospholipase C inhibitor neomycin. The current was blocked by 5-nitro-2-(3-phenylpropylamino)benzoic acid, 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid, and 4,4'-disothiocyanostilbene-2,2'-disulfonic acid (DIDS) in a voltage-dependent manner, but tamoxifen, dideoxyforskolin, and quinidine did not affect it. This blocking profile differs from that of the volume-sensitive chloride channel in neighboring nonpigmented ciliary epithelial cells (Wu, J., J. J. Zhang, H. Koppel, and T. J. C. Jacob, J. Physiol, Lond. 491: 743-755, 1996), and this difference implies that the volume responses of the two cell types are mediated by different chloride channels (Jacob, T. J. C., and J. J. Zhang. J. Physiol. Lond. In press). Intracellular administration of guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) to PCE cells induced a transient, time-independent, outwardly rectifying chloride current that closely resembled the current activated by hypotonic shock. DIDS produced a voltage-dependent block of the GTP gamma S-activated current similar to the block of the hypotonically activated current. Intracellular neomycin completely prevented activation of this current as did incubation of the cells in calphostin C. and inhibitor of protein kinase C (PKC). Removal of Ca2+ did not affect activation of the current by GTP gamma S but extended the duration of the response. Inhibition of phospholipase A2 (PLA2) with p-bromophenacyl bromide prevented the activation of the hypotonically induced current and also inhibited the current once activated by hypotonic solution. The findings imply that the hypotonic response in PCE cells is mediated by both phospholipase C (PLC) and PLA2. Both phospholipases generate arachidonic acid, and, in addition, the PLC pathway regulates the PLA2 pathway via a PKC-dependent phosphorylation of PLA2.
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PMID:Volume-sensitive chloride current in pigmented ciliary epithelial cells: role of phospholipases. 935 90

The response of rat submandibular glands to extracellular purines was tested. In crude cellular suspensions, ATP increased the [Ca2+]i mostly by promoting uptake of extracellular calcium. ATP caused the pHi to drop, a response blocked by chloride channel inhibitors. ATP also inhibited the basal and isoproterenol-stimulated activity of the Na+ -K+ -2Cl-cotransporter. These effects were reproduced by benzoyl-ATP, an agonist of ionotropic purinoceptors. In pure ductal suspensions, ATP activated a metabotropic P2Y1 purinergic receptor coupled to phospholipase C and opened a non-specific cation channel coupled to a P2X7 receptor. Activation of these receptors stimulated a Ca2+ -dependent and a Ca2+ -independent phospholipase A2, the latter resulting in kallikrein secretion. We conclude that purinergic agonists can modulate the activity of both acinar and ductal phases of secretion. Activation of metabotropic receptors coupled to phospholipase C could lead to responses resembling those to muscarinic or adrenergic agonists. Activation of ionotropic receptors could stimulate new intracellular responses also involved in secretory function.
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PMID:Purines, a new class of agonists in salivary glands? 1041 54

The aim of the present paper is to point out the complexity of ACTH action in glomerulosa cells of the adrenal cortex. We demonstrate that the increase in cAMP production induced by ACTH is the result of a balance between activation of adenylyl cyclase and direct modulation of a PDE2 phosphodiestease activity, an effect mediated by inhibition of cGMP content. Moreover, Ca2+ is essential for cAMP production and aldosterone secretion, but its exact primary action is not clearly determined. We recently described that ACTH activated a chloride channel, via the Ras protein, which can be involved in steroidogenesis. ACTH also increases tyrosine phosphorylation of several proteins. These data, together with those of phospholipase C activation, indicate that ACTH action in the adrenal is complex, and most certainly not limited to cAMP production, in particular for the low concentrations of the hormone. Some years ago, cAMP was considered to be the unique second messenger of ACTH action; now it becomes more and more evident that ACTH triggers complex signaling pathways using several second messengers in a closely interacting way. The most predominant point is that these signals are observed for low concentrations of ACTH.
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PMID:Cyclic AMP-independent effects of ACTH on glomerulosa cells of the rat adrenal cortex. 1041 11

Octopamine (OA), a biogenic monoamine structurally related to noradrenaline, acts as a neurohormone, a neuromodulator and a neurotransmitter in invertebrates. It is present in relatively high concentrations in neuronal as well as in non-neuronal tissues of most invertebrate species studied. It functions as a model for the study of modulation in general. OA modulates almost every physiological process in invertebrates studied so far. Among the targets are peripheral organs, sense organs, and processes within the central nervous system. The known actions of OA in the central nervous system include desensitization of sensory inputs, influence on learning and memory, or regulation of the 'mood' of the animal. Together with tyramine, OA it is the only neuroactive non-peptide transmitter whose physiological role is restricted to invertebrates. This focussed the interest on the corresponding OA receptors. They are believed to be good targets for highly specific insecticides as they are not found in vertebrates. All octopamine receptors belong to the family of G-protein coupled receptors. Four of them could be distinguished using pharmacological tools. They show different coupling to second messenger systems including activation and inhibition of adenylyl cyclase, activation of phospholipase C and coupling to a chloride channel. Recently, octopamine receptors from molluscs and insects have been cloned. Further studies of all aspects of octopaminergic neurotransmission should give deeper insights into modulation of peripheral and sense organs and within the central nervous system in general.
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PMID:Octopamine in invertebrates. 1051 67

SPC3 is a multibranched peptide containing eight identical GPGRAF motifs which are derived from the human immunodeficiency virus (HIV)-1 gp120 V3 loop consensus sequence. This molecule was reported to prevent the infection of CD4+ cells by various HIV-1 and HIV-2 strains. However, the molecular mode of action of SPC3 remains unclear. Here, we investigated the possibility that SPC3 could interact with alpha/beta-chemokine receptors following observations that, first, the V3 loop is likely to be involved in alpha/beta-chemokine receptor-dependent HIV entry and, second, natural ligands of these receptors are potent inhibitors of cell infection. To address this point, we examined the effects of SPC3 on Xenopus oocytes either uninjected or expressing exogenous human CXCR4 alpha-chemokine receptors. Extracellular applications of micromolar concentrations of SPC3 onto Xenopus oocytes trigger potent inward chloride currents which can be inhibited by increasing extracellular Ca2+ concentration. This effect can be blocked by chloride channel antagonists and is highly specific to SPC3 as it is not triggered by structural analogs of SPC3. The SPC3-induced chloride conductance in oocytes is alpha/beta-chemokine receptor dependent because: (i) SPC3 alters the sensitivity of this channel to external applications of human recombinant MIP-1alpha, a natural ligand of human CCR5 receptor, and (ii) the amplitude of the inward current could be increased by the expression of exogenous human CXCR4 chemokine receptor. The effect of SPC3 appears to rely on the activation of a phospholipase A2 signaling pathway, but is not affected by changes in cytosolic Ca2+ concentration, or by alterations in Gi/Go protein, adenylate cyclase, phospholipase C or protein kinase C activity. Altogether, the data indicate that SPC3 is capable of activating a surface alpha/beta-chemokine-like receptor-mediated signaling pathway in competent cells, thereby triggering, either directly or indirectly, a Ca2+-inactivated chloride conductance.
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PMID:Ion channel activation by SPC3, a peptide derived from the HIV-1 gp120 V3 loop. 1115 2

The goal of the present review is to collect information concerning membrane effects induced by lindane intoxication, a y isomer of hexachiorocyclohexane (gamma-HCH) that has been largely used as an insecticide and disinfectant in agriculture and entered also in the composition of some lotions, creams and shampoos used against parasites (lice and scabies). Absorbed through respiratory, digestive or transcutaneous pathways, lindane accumulates within lipid rich tissues. Lindane accumulation depends on the duration of the exposure and affects tissues in the following order: adipose tissues > brain > kidney > muscle > lungs > heart > liver > blood. Whatever the mode of lindane absorption, it accumulates in blood and is distributed throughout the body. It may affect human health by exerting systemic, immunologic, teratogenic, and/or cancerogenic effects. The symptoms of lindane intoxication are different according to the mode of intoxication, acute or chronic. The absorption of high doses of gamma-HCH is particularly toxic for the central nervous system and for the female and male reproduction apparatus in mammals where lindane is considered as an endocrine disruptor. Lindane is highly lipophilic and incorporates into biological membranes according to the following sequence: mitochondria > sarcoplasmic reticulum > myelin > brain microsomes > erythrocytes. Lindane exerts a stimulating action on synaptic transmission and inhibits the chloride current activated by gamma-amino butyric acid (GABA) of many muscular and nervous preparations by interacting with the receptors GABA-chloride channel complex. It seems to affect calcium homeostasis of many tissues. The similarity between lindane and inositol (1, 4, 5) phosphate (IP3) suggested that lindane releases Ca2+ from IP3-sensitive intracellular stores in macrophages and myometrial cells. Ca2+ release from reticulum endoplasmic, mitochondria and other Ca2+ stores has been reported in cat kidney cells. Lindane altered energetic metabolism of hepatic mitochondria and the inositol-phosphate synthesis in neuronal cells. However, lindane does not compete with the IP3 receptor. Lindane produces a Ca2+ influx in mice peritoneal macrophage cells responsible for the Ca2+ induced Ca2+ release produced by phospholipase C via IP3 pathway and resulting in a maintained increase of the free cytosolic Ca2+ concentration. Lindane decreased the membrane erythrocyte and cerebral cell concentration of phosphatidyl inositol PI, PIP and PIP2 in rats repetitively exposed to lindane for 3 or 6 months. Lindane induces oxidative stress; it modifies the activity of the scavenger enzymes. This effect is involved in the inhibition of intercellular gap junctions. Modifications of the electrocardiogram (ECG), sinusal rhythm alteration and negative and dysphasic variations of T wave, similar to those produced by hyperkaliemia, have been reported after lindane absorption. During acute lindane poisoning, the activities of serum transaminases (SGOT, SGTP), and lactate deshydrogenase (LDH) increase. Lindane produces histological alterations of cardiac tissues and a cardio-vascular dystrophy (contracture, degenerescence and necrosis) mainly in the left ventricular wall and a hypertrophy of the left ventricle. Chronic application of residual doses of lindane shortened the action potential duration in rat papillary muscle. These effects were similar to those induced by hyperthyroidism. Lindane increases the triiodothyronine (T3) serum level in hyperthyroid rats. T3 plays an important role in the postnatal development of the rat ventricle by increasing the density of potassium channels which contribute to action potential shortening during the development. Thyroid hormones influence the regulation and the expression of messengers ARN which encode different potassium channels involved in action potential repolarization (Kvl.2; Kvl.4; Kvl.5; Kv2.1; Kv4; HCN2). The thyrotropine-releasing hormone (TRH) modulates the HERG-type rapid delayed potassium channel (IKr) encoded by the human gene ether-a-go-go in rat anterior pituitary cells GH3/B6. This channel is involved in the cardiac long QT syndrome. TRH modifies the current kinetics of human HERG potassium channel co-expressed in Xenopus oocytes with the TRH receptor, whose activity is modulated via the protein kinase C pathway linked to a G protein-coupled receptor and is regulated by changes in the PIP2 concentration in the membrane. IKr channels regulation is also dependent on sexual hormones. In conclusion, lindane affects the excitable membranes and the cardio circulatory system. These alterations (may) represent a potential risk for human health.
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PMID:[Cardiotoxicity of lindane, a gamma isomer of hexachlorocyclohexane]. 1264 5

Endocytosis is a distinctive property of all eukaryotic cells. Polarized cells face two different worlds by membranes of distinct composition: the basolateral membrane is exposed to the constant internal medium, whereas the apical membrane is exposed to variable environments. Endocytosis on both aspects also depends on different machineries. This short review illustrates the molecular basis and physiopathological implications of apical endocytosis. In a cultured epithelial cell line, Src selectively triggers apical macropinocytosis by activating the actin cytocortex via signalling membrane lipids generated by an amplification cascade involving phosphoinositide 3-kinase, phospholipase C and phospholipase D. Several actors of Src response are also activated by enteroinvasive bacteria, to trigger their entry into enterocytes. In the thyroid gland, the rates of thyroglobulin apical micropinocytosis and transfer to lysosomes determine the level of thyroid hormone production, by controlling the encounter of the prohormone with converting hydrolases. TSH selectively promotes the encounter, by inducing the expression of rate-limiting catalysts, the small GTPases Rab5 and Rab7, and of their exchange factor(s). This induction is constitutive in autonomous adenomas. In kidney proximal tubular cells, apical receptor-mediated endocytosis ensures full recapture of ultrafiltrated proteins. Inactivating mutations of the endosomal chloride channel, ClC-5, that are responsible for Dent's disease, cause a loss of surface receptors leading to proteinuria. These examples illustrate how three levels of regulation of apical endocytosis, namely the mode of entry, the rate of vesicular trafficking and the subcellular addressing account for a variety of human diseases.
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PMID:[Apical endocytosis: molecular controls and physiopathologic implications]. 1639 73

Accumulating lines of evidence suggest a possibility that glycine is useful as an immuno-modulating amino acid. Glycine most likely prevents the lipopolysaccharide (LPS)-induced elevation of intracellular Ca(2+) concentration in Kupffer cells, thereby minimizing LPS receptor signaling and cytokine production. Moreover, it was reported that dietary glycine inhibits the growth of tumors. Vascular endothelial growth factor (VEGF) plays a critical role in cancer progression by promoting new blood vessel formation. Activation of VEGF receptor has been shown to result in activation of phospholipase C-gamma and increases in intracellular Ca(2+) concentration. The VEGF-induced cell proliferation is dependent on intracellular Ca(2+) concentration. The effects of glycine on VEGF-induced increases in intracellular Ca(2+) concentration in endothelial cell line (CPA) were studied. The VEGF increased intracellular Ca(2+) concentration rapidly, but glycine blunted increases in intracellular Ca(2+) concentration due to VEGF. Further, the inhibitory effects of glycine were prevented by low concentrations of strychnine (1 micromol/L) or incubation with chloride-free buffer. Moreover, glycine increased influx of radiolabeled chloride into CPA cells approximately 10-fold. Furthermore, mRNA 92% identical to the beta-subunit of the glycine-gated chloride channel from spinal cord was identified in endothelial cells using reverse transcription-polymerase chain reaction. Finally, glycine significantly diminished serum-stimulated proliferation and migration of endothelial cells. These data indicate that the inhibitory effect of glycine on growth and migration of endothelial cells is due to activation of a glycine-gated chloride channel. This hyperpolarizes the cell membrane and blocks influx of Ca(2+), thereby minimizing growth factor-mediated signaling. Therefore, glycine can be used not only for treatment of inflammation, but also for chemoprevention and treatment of carcinoma.
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PMID:Glycine as a potent anti-angiogenic nutrient for tumor growth. 1756 69


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