S F Wood scite author profile

Both the cAMP and the phosphoinositide (PI) second messenger systems have been implicated in olfactory signal transduction. We have developed a primary culture system of mammalian olfactory receptor neurons (ORNs; Ronnett et al., 1991a) to permit analysis of odorant-induced second messenger system activation in the intact ORN. The ability of a series of odorants to stimulate PI turnover and adenylyl cyclase was examined. All odorants stimulated both second messenger systems, although with differential potencies. Stimulation of PI turnover desensitized upon reexposure of cultures to odorant. The enhancement by single odorants of both adenylyl cyclase and PI turnover, but to varying degrees, affords a mechanism for increased specificity in olfactory signal transduction.

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Light stimulates the rapid formation of inositol trisphosphate in squid retinas

Szuts¹,

Wood²,

Reid³

et al. 1986

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To test the hypothesis that inositol trisphosphate (InsP3) mediates adaptation and excitation in invertebrate photoreceptors, we measured its formation on a rapid time scale in squid retinas. For squid, excitation and adaption occurs within 0.1 and 1-2 s respectively. We could detect an elevation in InsP3 within 200 ms of a bright flash. This increase is about 240% over dark basal levels and is maintained for at least 2 min after a flash. The increase probably occurs in the photoreceptors, which are the only neurons in squid retinas. Analysis by h.p.l.c. indicates that the light-regulated isomer is Ins(1,4,5)P3, which is formed by the hydrolysis of phosphatidylinositol bisphosphate (PtdInsP2).

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Light-dependent GTP-binding proteins in squid photoreceptors

Robinson

Wood

Szuts

et al. 1990

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Previous biochemical and electrophysiological evidence suggests that in invertebrate photoreceptors, a GTP-binding protein (G-protein) mediates the actions of photoactivated rhodopsin in the initial stages of transduction. We find that squid photoreceptors contain more than one protein (molecular masses 38, 42 and 46 kDa) whose ADP-ribosylation by bacterial exotoxins is light-sensitive. Several lines of evidence suggest that these proteins represent distinct alpha subunits of G-proteins. (1) Pertussis toxin and cholera toxin react with distinct subsets of these polypeptides. (2) Only the 42 kDa protein immunoreacts with the monoclonal antibody 4A, raised against the alpha subunit of the G-protein of vertebrate rods [Hamm & Bownds (1984) J. Gen. Physiol. 84. 265-280]. (3) In terms of ADP-ribosylation, the 42 kDa protein is the least labile to freezing. (4) Of the 38 kDa and 42 kDa proteins, the former is preferentially extracted with hypo-osmotic solutions, as demonstrated by the solubility of its ADP-ribosylated state and by the solubility of the light-dependent binding of guanosine 5'-[gamma-thio]triphosphate. The specific target enzymes for the observed G-proteins have not been established.

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Metabolism of inositol 1,4,5-trisphosphate in squid photoreceptors

1990

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Inositol 1,4,5-trisphosphate (InsP3) is rapidly formed in squid photoreceptors in response to light, where it is converted sequentially into inositol bisphosphate (InsP2) and inositol monophosphate (InsP1). All of the InsP3 appears to be degraded to inositol 1,4-bisphosphate via an InsP3-phosphatase, which is characterized in this study. The enzyme is water-soluble and present in the light-transducing distal segments of squid photoreceptors. It has a Km of 50 microM for InsP3, requires Mg++ for its activity, is maximally active at neutral pH, specifically hydrolyses the 5-phosphate and is inhibited by 2,3-diphosphoglycerate. In these respects, InsP3-phosphatase of squid is very similar to the enzymes of other cells. Since no InsP4 or more highly phosphorylated inositols are found in squid photoreceptors, the InsP3-phosphatase may be important in the regulation of InsP3 concentration within these cells.

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S F Wood

Odorants differentially enhance phosphoinositide turnover and adenylyl cyclase in olfactory receptor neuronal cultures

Light stimulates the rapid formation of inositol trisphosphate in squid retinas

Light-dependent GTP-binding proteins in squid photoreceptors

Metabolism of inositol 1,4,5-trisphosphate in squid photoreceptors

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