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)

The role of phospholipids in the binding of [3H]tetrodotoxin to garfish olfactory nerve axon plasma membrane was studied by the use of purified phospholipases. Treatment of the membranes with low concentrations of either phospholipase A2 (Crotalus adamanteus and Naja naja) or phospholipase C (Bacillus cereus and Clostridium perfringens) resulted in a marked reduction in tetrodotoxin binding activity. A 90% reduction in the activity occurred with about 45% hydrolysis of membrane phospholipids by phospholipase A2, and with phospholipase C the lipid hydrolysis was about 60--70% for a 70--80% reduction in the binding activity. Phospholipase C from B. cereus and Cl. perfringens had similar inhibitory effects. Bovine serum albumin protected the tetrodotoxin binding activity of the membrane from the inhibitory effect of phospholipase A2 but not from that of phospholipase C. In the presence of albumin about 25% of the membrane phospholipids remained unhydrolyzed by phospholipase A2. It is suggested that these unhydrolyzed phospholipids are in a physical state different from the rest of the membrane phospholipids and that these include the phospholipids which are directly related to the tetrodotoxin binding component. It is concluded that phospholipids form an integral part of the tetrodotoxin binding component of the axon membrane and that the phospholipase-caused inhibition of the binding activity is due to effects resulting from alteration of the phospholipid components.
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PMID:Effect of purified phospholipases on the binding of tetrodotoxin to axon plasma membrane. 3 72

Some parameters of the receptor element from the rat olfactory epithelium are evaluated; it is characterized by high affinity for camphor (KD = 1.5. x 10(-9) M). Triton X-100 has no marked effect on the binding of [3H]camphor. Neither RNAase nor phospholipase C affected [3H]camphor-binding activity. Pronase and trypsin abolished [3H]camphor binding activity by 65 and 40%, respectively. Sulfhydryl reagents decrease the binding of [3H]camphor by a factor of 5--8. The isoelectric point of the receptor solubilized with Triton X-100 is 4.8, as determined by isoelectric focusing. The molecular weight of the receptor as determined by gel electrophoresis is about 120 000. It is proposed that the camphor receptor is a membrane protein containing sulfhydryl groups and playing a key role in olfactory reception.
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PMID:Molecular mechanisms of olfactory reception. IV. Some biochemical characteristics of the camphor receptor from rat olfactory epithelium. 4 3

A splice variant of the metabotropic glutamate receptor (mGluR) 1a, named mGluR1c, was isolated. Compared to mGluR1a, the predicted mGluR1c protein is 302 amino acids shorter at its C-terminal end. Despite this difference, mGluR1c activates phospholipase C in Xenopus oocytes with a pharmacological profile identical to that of mGluR1a. However, in contrast to the large fast transient responses induced by mGluR1a, mGluR1c receptors elicit a small more slowly generated long-lasting oscillatory current, suggesting that these two receptors do not generate the same pattern of Ca2+ release in Xenopus oocytes. In situ hybridization data show that mGluR1c mRNA is expressed at a lower level than the other splice variants of mGluR1. Some differences in the regional distribution of these transcripts were observed in the cerebellum, the olfactory bulb, and the striatum.
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PMID:Alternative splicing generates metabotropic glutamate receptors inducing different patterns of calcium release in Xenopus oocytes. 143 18

A new class of G-proteins, the Gq family, has been recently identified and found to be involved in phospholipase C activation. The alpha subunits of the Gq and G11 members of this family are separate polypeptides but appear to have the same function. In this study, the cellular distribution in the adult rat brain of these G-proteins, Gq alpha/G11 alpha, was determined by immunohistochemistry using an antipeptide antiserum directed against the predicted C-terminal decapeptide which is conserved between these polypeptides. The specificity of the antiserum was verified by Western blot analysis using rat brain homogenates. Immunoreactivity was detected in neurons, where it was localized in the dendrites and at the periphery of the cell bodies. The staining was abundant in the dendrites of cerebellar Purkinje cells and hippocampal CA1 pyramidal cells. Staining was also found in neurons in the olfactory bulb, minor and major islets of Calleja, anterior olfactory nuclei and piriform cortex; the different cortical areas especially in their superficial layers; caudate-putamen, accumbens and olfactory tubercle; lateral septum and amygdala; hippocampal CA2-4 sectors of Ammon's horn, dentate gyrus and hilus; hypothalamic supraoptic nucleus; cerebellar granular layer; colliculi and superficial layers of the dorsal horn of the spinal cord. In conclusion, the brain neuronal localizations of Gq alpha/G11 alpha match that of phospholipase C, 1,4,5-triphosphate receptor and, to a lesser extent 1,4,5-triphosphate-3-kinase.
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PMID:Immunohistochemical distribution of neurons containing the G-proteins Gq alpha/G11 alpha in the adult rat brain. 146 95

Olfactory transduction is thought to be mediated by a membrane-bound receptor protein initiating a multistep reaction cascade which ultimately leads to a depolarizing generator current. There is considerable evidence for the involvement of adenylate cyclase in vertebrate olfactory transduction, and some data indicate that phospholipase C may have a central role in insect olfaction. However, one must show that odorants not only stimulate enzyme activity but also induce changes in concentrations of relevant second messengers. One important criterion for a candidate second messenger of chemo-electrical transduction is that its formation must precede the onset of the odorant-induced membrane permeability changes which proceed on a subsecond time-scale. Here we report an odorant-induced, transient accumulation of cyclic AMP in isolated olfactory cilia from rats, and the generation of inositol trisphosphate in antennal preparations from insects, both of which show subsecond time courses that are sufficiently rapid to mediate the odorant-regulated permeability of olfactory receptor cells.
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PMID:Rapid kinetics of second messenger formation in olfactory transduction. 215 31

mRNAs for isozymes of phospholipase C (PLC) were localized in rat brain by in situ hybridization with oligonucleotide probes for PLC isozymes I, II, and III of Rhee's group [Suh, P.-G., Ryu, S. H., Moon, K. H., Suh, H. W. & Rhee, S. G. (1988) Proc. Natl. Acad. Sci. USA 85, 5419-5423 and (1988) Cell 54, 161-169], and isozyme I of Bennett and Crooke [Bennett, C. F., Balcarek, J. M., Varrichio, A. & Crooke, S. T. (1988) Nature (London) 334, 268-270], which we designate PLC-A. The isozymes displayed different localizations. PLC-A mRNA was highest in the mitral cell layer of the olfactory bulb, choroid plexus, hippocampus and dentate gyrus, magnocellular hypothalamic nuclei, rostral raphe nuclei, and cerebellar Purkinje cells. PLC-I was highest in the internal granular cell layer of the olfactory bulb, cerebral cortex, caudate, nucleus of the lateral olfactory tract, reticular nucleus of thalamus, hippocampus and dentate gyrus, and granule cell layer of the cerebellum. PLC-II had a more widespread distribution, with relatively high levels in the internal granular layer of the olfactory bulb, hippocampus and dentate gyrus, and cerebellar Purkinje and granule cells. PLC-III label was low throughout the brain. These distributions suggest selective coupling of individual PLC isozymes with particular postsynaptic receptors. PLC-A may be preferentially associated with 5-hydroxytryptamine 1C receptors, vasopressin V1 receptors, and a subtype of glutamate receptors. PLC-I may be linked to muscarinic m1 and m3 receptors as well as other receptors. The distribution of PLC-II mRNA resembles that of src protooncogene, with which it displays sequence homology.
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PMID:Brain phospholipase C isozymes: differential mRNA localizations by in situ hybridization. 246 62

1. Cilia were isolated from the olfactory epithelium of the channel catfish (Ictalurus punctatus) with improved yield. The isolated preparations were enriched in cilia as indicated by electron microscopy, tubulin immunoblotting and identification of a ciliary-specific glycoprotein. 2. The isolated cilia preparations exhibited phospholipase C (EC 3.1.4.11) activity. The enzyme was maximally active at pH 6.7. 3. Analysis of inositol phosphates resulting from the hydrolysis of exogenous radiolabeled phosphatidylinositol-4,5-bisphosphate in isolated cilia, indicated that inositol triphosphate was the major (90%) inositol phosphate produced. 4. Three molecular forms of the enzyme, Mr greater than or equal to 100,000, 82,000 and 60,000 were resolved by gel filtration chromatography from a cytosolic fraction from the olfactory epithelium.
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PMID:Properties of phospholipase C in isolated olfactory cilia from the channel catfish (Ictalurus punctatus). 342 15

A 2.7 kb clone encoding the partial (about 66%) sequence of a phosphoinositide-specific phospholipase C (PLC) was isolated from a cDNA library constructed from channel catfish (Ictalurus punctatus) olfactory rosettes. The clone, designated 30c7, was completely sequenced by automated DNA sequencing and was found to share significant homology with rat and bovine PLCs of the delta 1 isotype. In situ hybridization showed that 30c7 transcripts were expressed in a small subpopulation of olfactory neurons, as well as in other cell types in the olfactory epithelium. Polymerase chain reaction (PCR) analysis indicated that the enzyme was also expressed in several additional tissues, including brain, gill, heart, liver and skeletal muscle. These results suggest that the PLC encoded by clone 30c7 is expressed in several tissues and therefore may have a role in mediating transduction events in diverse tissues as well as in a small group of olfactory neurons.
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PMID:Molecular cloning of a phosphoinositide-specific phospholipase C from catfish olfactory rosettes. 747 17

The olfactory and visual systems of Drosophila have similar developmental origins: both derived from the eye-antennal imaginal disc. Moreover, there are commonalities in the cellular, molecular, and genetic underpinnings of their development. For example, the developmental program of both systems entails cell death, which depends upon the irregular chiasm C-roughest gene, and both systems require the lozenge gene for normal pattern formation. The rdgB (retinal degeneration B) gene is required not only for the maintenance and physiology of the visual system, but also for olfactory physiology. This gene has been shown by others to encode a phosphatidylinositol transfer protein; it is expressed both in visual and olfactory organs. The norpA gene, which encodes a phospholipase C, is also required both for phototransduction and for odorant response in one olfactory organ. Thus some genes are required in both systems; in addition, at least one olfactory gene that is apparently not expressed in the visual system may have a visual system counterpart. These and other similarities are considered in terms of the evolutionary relationship between the two systems. We conclude that analysis of the visual system is likely to provide insight into the development and function of the olfactory system, and vice versa.
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PMID:The olfactory and visual systems are closely related in Drosophila. 758 Oct 37

Olfactory signal transduction in a number of species has been shown to be mediated by heterotrimeric GTP-binding proteins (G-proteins). The expression of different G-proteins in channel catfish (Ictalurus punctatus) olfactory epithelium was investigated using antibodies to both the alpha and beta subunits of G-proteins. Based on Western blotting and immunohistochemical data, the following G-protein subunits were identified in the olfactory epithelium: Gs/G(olf), Gi1, Gi2, Gq and G beta. Immunohistochemical results indicated that all of these G-proteins, encompassing three G-protein subfamilies, were expressed in the dendrites and cilia of olfactory receptor neurons. These findings suggest that different G-protein subunits may mediate multiple signal transduction pathways in the catfish olfactory system, i.e. G(olf)/Gs, may mediate odorant activation of adenylyl cyclase while Gi and G beta may mediate odorant activation of phospholipase C.
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PMID:G-protein subunits expressed in catfish olfactory receptor neurons. 758 12


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