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: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Loss of sensitivity to thrombin following an initial response is characteristic of a number of cell types, including platelets. It has recently been proposed that thrombin receptors resemble other G protein-coupled receptors, but that activation involves a novel mechanism in which thrombin cleaves the receptor, exposing a new N terminus that serves as the ligand for the receptor. Based upon this model, we have examined the mechanism of thrombin receptor desensitization by comparing the effects of thrombin with those of a peptide corresponding to the N-terminal sequence of the receptor following proteolysis by thrombin: SFLLRNPNDKYEPF or TRP42/55. Like thrombin, TRP42/55 stimulated pertussis toxin-sensitive inositol 1,4,5-trisphosphate formation, raised cytosolic Ca2+, and inhibited cAMP formation in the megakaryoblastic HEL cell line. Exposure to either thrombin or TRP42/55 desensitized the cells to both, but not to a third agonist, neuropeptide Y. The rate of recovery after desensitization depended upon the order of agonist addition. Resensitization of the cell to thrombin following a brief exposure to thrombin required up to 24 h and could be inhibited with cycloheximide. Resensitization to TRP42/55 after exposure to thrombin, or to thrombin after exposure to TRP42/55, on the other hand, was detectable within 30 min and could be inhibited by serine/threonine phosphatase inhibitors, but not by cycloheximide. Loss of responsiveness to thrombin and TRP42/55 was also observed following addition of the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA). However, while the protein kinase inhibitor staurosporine completely prevented the desensitization caused by TPA, it had only a limited effect on the desensitization caused by TRP42/55. These results demonstrate that the G protein-mediated effects of thrombin can be reproduced by a receptor-derived peptide and suggest that desensitization occurs by at least two mechanisms. The first, which is seen with thrombin, but not TRP42/55, involves proteolysis and requires protein synthesis for recovery. The second, which occurs with TRP42/55 and TPA, as well as with thrombin, involves phosphorylation, possibly of the receptor itself. Although protien kinase C is activated by thrombin and is presumably responsible for the desensitization caused by TPA, it does not appear to play a major role in receptor desensitization caused by thrombin and TRP42/55. This suggests that other kinases, such as those which inactivate adrenergic receptors and rhodopsin, are involved in the down-regulation of thrombin receptor function.
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PMID:Homologous desensitization of HEL cell thrombin receptors. Distinguishable roles for proteolysis and phosphorylation. 131 26

Transducin, a retinal G-protein, has been shown to exist as heterotrimers of alpha (39,000), beta (36,000), and gamma (approximately 7,000) subunits. Blue Sepharose CL-6B column chromatography of a transducin preparation extracted with a metal-free, low salt buffer containing GTP showed three distinct alpha and two distinct beta gamma activities in frog (Rana catesbeiana) rod outer segment. The binding of a hydrolysis-resistant GTP analog in these alpha fractions was proportional to the amount of the M(r) 39,000 protein. The first alpha was eluted in a complex with an inhibitory subunit of cGMP phosphodiesterase, but alpha subunits in the second and the third fractions were not complexed with any proteins. Two-dimensional gel electrophoresis and characterization with regard to the interaction with the inhibitory subunit of cGMP phosphodiesterase suggested that the first and the second alpha s were the same protein; however, the third alpha showed different characters as follows. We designated alpha in the first two fractions as alpha 1, and alpha in the third fraction as alpha 2. Nonlinear regression analysis for the binding of a hydrolysis-resistant GTP analog to both alpha subunits revealed a single class of GTP binding sites with an apparent stoichiometry of 1 mol of GTP/mol of alpha. Compared with alpha 1, alpha 2 required larger amounts of rhodopsin and beta gamma for the binding of a hydrolysis-resistant GTP analog. alpha 2 also showed less binding with the inhibitory subunit of cGMP phosphodiesterase. Both alpha 1 and alpha 2 complexed with beta gamma or beta delta (described below) were substrates for pertussis toxin-dependent ADP-ribosylation. The protein profiles of two beta gamma fractions revealed that the main fraction was composed of a beta gamma complex; however, the second active fraction was composed of beta complexed with delta (M(r) 12,000). Compared with beta gamma, beta delta stimulated GTP binding to alpha 1 at approximately 10-fold higher concentration. Two-dimensional gel electrophoresis revealed five beta and two gamma isoforms in beta gamma. Only one beta isoform was present in beta delta. The diversity of transducin subunits may reflect different signaling pathways in visual signal transduction.
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PMID:Heterogeneity of the retinal G-protein transducin from frog rod photoreceptors. Biochemical identification and characterization of new subunits. 132 54

Transducin (T alpha beta gamma), the heterotrimeric GTP-binding protein that interacts with photoexcited rhodopsin (Rh*) and the cGMP-phosphodiesterase (PDE) in retinal rod cells, is sensitive to cholera (CTx) and pertussis toxins (PTx), which catalyze the binding of an ADP-ribose to the alpha subunit at Arg174 and Cys347, respectively. These two types of ADP-ribosylations are investigated with transducin in vitro or with reconstituted retinal rod outer-segment membranes. Several functional perturbations inflicted on T alpha by the resulting covalent modifications are studied such as: the binding of T alpha to T beta gamma to the membrane and to Rh*; the spontaneous or Rh*-catalysed exchange of GDP for GTP or guanosine 5-[gamma-thio]triphosphate (GTP[gamma S]), the conformational switch and activation undergone by transducin upon this exchange, the activation of T alpha GDP by fluoride complexes and the activation of the PDE by T alpha GTP. ADP-ribosylation of transducin by CTx requires the GTP-dependent activation of ADP-ribosylation factors (ARF), takes place only on the high-affinity, nucleotide-free complex, Rh*-T alpha empty-T beta gamma and does not activate T alpha. Subsequent to CTx-catalyzed ADP-ribosylation the following occurs: (a) addition of GDP induces the release from Rh* of inactive CTxT alpha GDP (CTxT alpha, ADP-ribosylated alpha subunit of transducin) which remains associated to T beta gamma; (b) CTxT alpha GDP-T beta gamma exhibits the usual slow kinetics of spontaneous exchange of GDP for GTP[gamma S] in the absence of Rh*, but the association and dissociation of fluoride complexes, which act as gamma-phosphate analogs, are kinetically modified, suggesting that the ADP-ribose on Arg174 specifically perturbs binding of the gamma-phosphate in the nucleotide site; (c) CTxT alpha GDP-T beta gamma can still couple to Rh* and undergo fast nucleotide exchange; (d) CTxT alpha GTP[gamma S] and CTxT alpha GDP-AlFx (AlFx, Aluminofluoride complex) activate retinal cGMP-phosphodiesterase (PDE) with the same efficiency as their unmodified counterparts, but the kinetics and affinities of fluoride activation are changed; (e) CTxT alpha GTP hydrolyses GTP more slowly than unmodified T alpha GTP, which entirely accounts for the prolonged action of CTxT alpha GTP on the PDE; (f) after GTP hydrolysis, CTxT alpha GDP reassociates to T beta gamma and becomes inactive. Thus, CTx catalyzed ADP-ribosylation only perturbs in T alpha the GTP-binding domain, but not the conformational switch nor the domains of contact with the T beta gamma subunit, with Rh* and with the PDE.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Functional modifications of transducin induced by cholera or pertussis-toxin-catalyzed ADP-ribosylation. 133 64

Photoexcitation of retinal rod photoreceptor cells involves the activation of cGMP enzyme cascade in which sequential activation of rhodopsin, transducin, and the cGMP phosphodiesterase in the rod outer segment constitutes the signal amplification mechanism. Phosducin, a 33-kDa phosphoprotein, has been shown to form a tight complex with the T beta gamma subunit of transducin. In this study, we examined the interaction of phosducin-T beta gamma and the possible regulatory role of phosducin on the cGMP cascade. Addition of phosducin to photolyzed rod outer segment (ROS) membrane reduced the GTP hydrolysis activity of transducin as well as the subsequent activation of the cGMP phosphodiesterase. Phosducin also inhibited the pertussis toxin-catalyzed ADP-ribosylation of transducin, indicating that the interaction between the T alpha and T beta gamma subunits of transducin was interrupted upon binding of phosducin. The inhibitory effects of phosducin were reversed by the addition of exogenous T beta gamma. These results suggest that phosducin is capable of regulating the amount of T beta gamma available to interact with T alpha to form the active transducin complex and thereby functions as a negative regulator of the cGMP cascade. The phosducin-induced alteration of the subunit organization of transducin was examined by chemical cross-linking method using para-phenyl dimaleimide as cross-linker. It was found that the cross-linking among T alpha and T beta gamma was blocked in the presence of phosducin. This result implies that T beta gamma may undergo a conformational change upon phosducin binding which leads to the release of T alpha. Since phosducin is a soluble protein, the interaction with transducin only occurs when transducin is dissociated from ROS disc membrane. Indeed, phosducin failed to dissociate membrane-bound transducin and did not inhibit the initial cycle of transducin activation as measured by the presteady state GTP hydrolysis. However, phosducin interacts effectively with transducin released into solution after the initial activation and blocks the re-binding of T alpha. T beta gamma to ROS membrane by forming a tight complex with T beta gamma. This interaction may play an important role in regulating the turnover of the cGMP cascade in photoreceptor cells.
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PMID:Regulation of retinal cGMP cascade by phosducin in bovine rod photoreceptor cells. Interaction of phosducin and transducin. 133 80

Forskolin-resistant mutants derived from Y1 adrenocortical cells display decreased responsiveness both to receptor and postreceptor stimulators of adenylyl cyclase and decreased amounts of the alpha subunits of the GTP-binding proteins (G proteins) that mediate stimulation (Gs) and inhibition (Gi) of adenylyl cyclase--namely, Gs alpha and Gi alpha-2. This phenotype is suggestive of a mutation that affects the processing or plasma membrane incorporation of G protein alpha subunits. Since the membrane attachment of heterotrimeric G proteins has been ascribed in part to the beta gamma subunits, we examined the quantity and functional activity of beta gamma subunits in wild-type Y1 and forskolin-resistant Forsk-10r-9 and Forsk-10r-3 cells. We now show that two assays previously used to examine the activity of purified beta gamma subunits--namely, to support either rhodopsin-catalyzed guanyl nucleotide exchange on Gt alpha or pertussis toxin-catalyzed ADP-ribosylation of Gt alpha--can be used with detergent extracts of cells. In both assays the beta gamma activity in Forsk-10r-9 and Forsk-10r-3 extracts was decreased by 53-76% compared with wild-type Y1 extracts. When normalized for immunoreactive beta subunit, the beta gamma activity in the Forsk-10r-9 samples was decreased by 55-57% compared with the wild-type Y1 samples. These results suggest that a mutation of one of the G protein beta or gamma subunits may result in the multiple defects of adenylyl cyclase activity and apparent loss of G protein alpha subunits seen in the forskolin-resistant mutant cells. The frequency with which these spontaneous mutations arise in the Y1 cell line suggests that they may contribute more generally to genetic abnormalities in signal transduction.
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PMID:Defective guanyl nucleotide-binding protein beta gamma subunits in a forskolin-resistant mutant of the Y1 adrenocortical cell line. 140 89

Photoaffinity labelling by a GTP analogue has been used to identify a 42 kDa band as the major G alpha subunit in squid photoreceptor membranes, recently identified by partial sequence analysis to be a member of the Gq sub-group of GTP-binding proteins [Pottinger, Ryba, Keen & Findlay (1991) Biochem. J. 279, 323-326]. Guanine-nucleotide-binding displacement analysis gave a stoichiometry of 1 G-protein per 12.5 rhodopsin molecules, the same as in vertebrate rod photoreceptors. Binding was not detected above background in the dark, but was rapidly activated by light. Unlike vertebrate transducin, this G-protein is very temperature-sensitive. GTP binding is maximal at temperatures less than 10 degrees C and is much decreased after several minutes above 18 degrees C. The light-stimulated GTPase rate is maximal around 10 degrees C, above which the loss of binding sites counteracts the increase in hydrolytic rate per site. Earlier studies described light-sensitive G alpha components of 40 and 45 kDa, by ADP-ribosylation in the presence of cholera and pertussis toxins. These are now shown to be very minor components, as the prolonged treatment at elevated temperature required for ADP-ribosylation is sufficient to inactivate the major G alpha totally. Unlike the minor G alpha components, the 42 kDa G alpha is not inhibited by Ca2+.
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PMID:Activation of the GTP-binding protein Gq by rhodopsin in squid photoreceptors. 144 12

We have previously demonstrated that human bronchial smooth muscle cells possess a single class of high-affinity binding sites for endothelin 1. In this study, we further characterized the receptor for endothelin 1 and evaluated the signal transduction mechanisms of this peptide. Stimulation of cultured human bronchial smooth muscle cells with endothelin 1 induced mobilization of Ca2+ from both intracellular and extracellular pools with a biphasic increase in cytoplasmic free Ca2+ concentration. Endothelin 1 increased cellular levels of inositol phosphates and diacylglycerol, indicating activation of phospholipase C, but induced production of inositol phosphates in smooth muscle cell membranes only in the presence of guanosine 5'-O-(thiotriphosphate) (GTP gamma S). Treatment of smooth muscle cells with pertussis toxin failed to block the endothelin 1-induced increase in inositol phosphate production and Ca2+ mobilization. These results suggest that the receptor for endothelin 1 in bronchial smooth muscle is coupled to phospholipase C through a pertussis toxin-insensitive G protein. Affinity crosslinking experiments identified the endothelin 1 receptor as a single band with an apparent molecular weight of approximately 70,000 on sodium dodecyl sulfate polyacrylamide gel electrophoresis, further supporting the functional evidence that endothelin 1 receptor belongs to the G protein-linked rhodopsin type of receptor superfamily.
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PMID:Mechanisms of calcium mobilization and phosphoinositide hydrolysis in human bronchial smooth muscle cells by endothelin 1. 165 61

Transducin, the signal coupling protein of retinal rod photoreceptor cells, is one of a family of G proteins that can be inactivated by pertussis toxin. We have investigated the nature of this inactivation in order to determine (1) whether it requires the toxin-catalyzed transfer of ADP-ribose from NAD+ to cysteine-347 of the alpha subunit and (2) whether it involves locking the alpha subunit in the inactive conformation characteristic of its GDP-bound state, or is limited to disruption of binding to photoexcited rhodopsin (R*). Our results indicate that all observed effects of pertussis toxin treatment, including a shift in the electrophoretic mobility of transducin's alpha subunit and functional inactivation, require NAD+ and that the appearance of the shift parallels incorporation of ADP-ribose. We have also found that, apart from interactions with photoexcited rhodopsin, the functional properties of ADP-ribosylated transducin are essentially the same as those of unmodified transducin. Normal spontaneous nucleotide exchange kinetics and the ability to activate cGMP phosphodiesterase are preserved following quantitative ADP-ribosylation, as are the abilities to hydrolyze GTP, to bind to a dye affinity column, and to display enhanced fluorescence upon addition of Al3+ and F-. Thus, ADP-ribosylation merely blocks catalysis of transducin nucleotide exchange by R* and does not lock transducin in an inactive state.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nucleotide exchange and cGMP phosphodiesterase activation by pertussis toxin inactivated transducin. 166 Nov 43

Guanine nucleotide-binding proteins (G proteins) transduce signals from agonist- and light-sensitive receptors. In the visual excitation system, the photon receptor rhodopsin is coupled to the G protein Gt (transducin). Gt is composed of alpha, beta, and gamma subunits; the alpha subunit binds guanine nucleotide, whereas the beta and gamma subunits, which are tightly associated, appear to facilitate interaction of alpha with receptor and pertussis toxin-catalyzed ADP-ribosylation of alpha. To study the function of transducin, monoclonal antibodies were developed against the purified protein. Monoclonal antibody 2H3 reacted with Gt gamma but not G gamma from bovine brain or rabbit liver. In the absence of photolyzed rhodopsin, both intact 2H3 and Fab fragments of 2H3 were able to inhibit completely, in a concentration-dependent manner, ADP-ribosylation of transducin by pertussis toxin 2H3 had no effect on ADP-ribosylation in the presence of photolyzed rhodopsin. The GTPase activity of transducin, which is dependent on rhodopsin, was inhibited only 50% by 2H3. These data are consistent with the hypotheses that an epitope recognized by 2H3 may be important in the formation of the alpha beta gamma complex or that interaction of 2H3 with gamma may alter conformation of the latter and, thereby, inhibit complex formation. Further, reactions of gamma with 2H3 appear to be prevented by interaction with rhodopsin, suggesting that its interaction either shields or alters the epitope recognized by 2H3.
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PMID:Immunological characterization of guanine nucleotide-binding proteins: effects of a monoclonal antibody against the gamma subunit of transducin on guanine nucleotide-binding protein-receptor interactions. 169 60

Xenopus oocytes that were injected with rhabdomeric membranes of squid and octopus photoreceptors acquired light sensitivity. The injected oocytes showed a light-induced current having characteristics similar to other G-protein-mediated Cl- currents induced by the activation of other membrane receptors. Pretreatment of the oocytes with pertussis toxin before the injection suppressed the generation of the light-induced current, indicating an ability of cephalopod rhodopsin to cross-react with an endogenous G-protein of Xenopus oocytes.
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PMID:Light-induced, GTP-binding protein mediated membrane currents of Xenopus oocytes injected with rhodopsin of cephalopods. 171 87


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