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)

Heterotrimeric Gi-proteins play an important role in the regulation of cardiac adenylate cyclase. Besides a downregulation of beta-adrenoceptors with an accompanying reduction of the positive inotropic effects of cAMP-dependent positive inotropic agents, an increase of pertussis toxin substrates (Gi alpha-proteins) has been observed. The increase of Gi alpha has been reported to be associated with a reduced adenylate cyclase activity in dilated cardiomyopathy from hearts with heart failure class NYHA IV. Since the quantification of Gi alpha-proteins with the pertussis toxin labeling method is hampered by a number of biological and technical factors, Gi alpha-proteins were quantified radioimmunologically using the iodinated C-terminus 125I-KENLKDCGLF as tracer, purified retinal transducin alpha as standard, and an antiserum (DS 4) raised against the same peptide. With this technique Gi alpha-proteins were increased by 118% in dilated cardiomyopathy and 48% in ischemic cardiomyopathy, although pertussis toxin substrates were only increased by 40% in dilated cardiomyopathy and no change was observed in ischemic cardiomyopathy. In cardiomyopathic tissue, an inverse relationship was observed between the increase of Gi alpha and the positive inotropic effects of isoprenaline or milrinone. These data provide evidence for a functional role of Gi alpha in the reduced positive inotropic effects of cAMP-dependent positive inotropic agents. In addition, results obtained with pertussis toxin labeling for quantification of Gi alpha-proteins do not necessarily reflect the expression of Gi alpha-proteins in the human myocardium.
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PMID:Quantification of Gi alpha-proteins in the failing and nonfailing human myocardium. 149 77

The quantitative determination of pertussis-toxin-sensitive guanine-nucleotide-binding proteins (G-proteins) in cell membranes is still a problem. Pertussis-toxin-catalysed [32P]ADP-ribosylation strongly relies on the substrate quality of the alpha-subunits and is influenced by the concentration of nucleotides, beta gamma-subunits, the physicochemical properties of the membranes influencing the availability of Gi alpha for pertussis toxin, and covalent modification of Gi alpha. Quantification of immunoreactive material on Western blots can be only imprecisely performed by two-dimensional densitometry. In order to generate a method for quantification of pertussis-toxin-sensitive G-proteins in membranes we have developed a fast and sensitive radioimmunoassay. The C-terminal decapeptide of retinal transducin alpha (KENLKDCGLF) was 125I-labelled and used as tracer. Polyclonal antiserum (DS 4) was raised against this peptide. Gi alpha proteins were determined by competition of solubilized membranes for 125I-KENLKDCGLF binding to DS 4 using dilutions of retinal transducin alpha as standard. The interassay variation was less than 10%, with a sensitivity of 2.5 micrograms/ml. The density of Gi alpha was highest in human adipose tissue, followed by HL60 cells, lung, mononuclear leucocytes, thrombocytes and left ventricular myocardium. A striking difference was observed between the density of Gi alpha and the amount of incorporation of [32P]ADP-ribose into the 40 kDa membrane proteins by pertussis toxin in the same samples. This is also demonstrated by comparison of the weak [32P]ATP-ribosylation of pertussis toxin substrates with the density of immunoreactive Gi alpha on Western blots in tissues such as lung. This study shows that the Gi alpha content can be exactly determined by a sensitive and fast radioimmunoassay using iodinated synthetic peptide homologues of Gi alpha proteins. Radioimmunological quantification of Gi alpha might be able to detect the 'true' Gi alpha content of membranes without being hampered by influences on the [32P]ADP-ribosylation reaction. It is concluded that this newly developed method may become an important tool for studying expression of Gi alpha proteins in a variety of tissues or cell types, and for precisely quantifying the changes caused by pathological conditions.
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PMID:Failure of [32P]ADP-ribosylation by pertussis toxin to determine Gi alpha content in membranes from various human tissues. Improved radioimmunological quantification using the 125I-labelled C-terminal decapeptide of retinal transducin. 190 10

The guanine nucleotide-binding proteins which mediate hormonal inhibition of adenylate cyclase as well as hormonal regulation of other membrane functions are alpha, beta, and gamma heterotrimers which are structurally homologous to each other. In brain, the predominant guanine nucleotide-binding component is a 39-kDa protein whose physiological role is as yet unknown. We have used N-ethylmaleimide to define functionally important sulfhydryl groups on alpha 39. Three cysteine residues in the molecule are reactive in unliganded alpha 39. Alkylation of two of these is reduced when guanosine 5'-(3'-O-thio)triphosphate (GTP gamma S) is bound. We have isolated and sequenced tryptic peptides containing the three reactive cysteines. The octapeptide containing the GTP gamma S-insensitive cysteine is at a position equivalent to amino acids 106-113 of the transducin alpha subunit (Lochrie, M. A., Hurley, J. B., and Simon, M. I. (1985) Science 228, 96-99). However, the equivalent peptide in transducin does not contain a cysteine residue. Alkylation of this cysteine blocks ADP-ribosylation of cysteine 351 by pertussis toxin. However, alkylation does not prevent association of alpha with the beta X gamma subunits nor does it inhibit GTPase activity. The two GTP gamma S-sensitive cysteines are at positions equivalent to cysteines 139 and 286 of the transducin alpha subunit. Alkylation of these residues inhibits GTPase activity. Neither of these GTP gamma S-sensitive cysteines are in those regions of alpha 39 which are highly homologous to the GTP-binding site of elongation factor Tu (Jurnak, F. (1985) Science 230, 32-36). However, both are present in the brain 41-kDa guanine nucleotide-binding protein and in the two transducins. The conservation of these cysteine residues suggests that they are important for the function of the subunits.
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PMID:Reactive sulfhydryl groups of alpha 39, a guanine nucleotide-binding protein from brain. Location and function. 310 18

Information available at present documents the existence of three well-defined classes of guanine nucleotide binding proteins functioning as signal transducers: Gs and Gi which stimulate and inhibit adenylate cyclase, respectively, and transducin which transmits and amplifies the signal from light-activated rhodopsin to cGMP-dependent phosphodiesterase in ROS membranes. Go is a fourth member of this family. Its function is the least known among GTP binding signal transducing proteins. The family of G proteins has a number of properties in common. All are heterotrimers consisting of three subunits, alpha, beta, and gamma. Each of the subunits may be heterogeneous depending on species and tissue of origin and may be posttranslationally modified covalently. The alpha subunits vary in size from 39 to 52 kDa. The sequences for Gs alpha and transducin alpha have 42% overall homology and those of Gi alpha and Gs alpha 43%, whereas those of Gi alpha and transducin alpha have a higher degree (68%) of homology. All alpha subunits bind guanine nucleotides and are ADP-ribosylated by either pertussis toxin (Gi, transducin, Go) or cholera toxin (Gs, Gi, transducin). Thus, transducin and Gi, which have the highest degree of sequence homology, are also ADP-ribosylated by both toxins. The beta subunits have molecular weights of 36 and 35 kDa, respectively. While Gs, Gi, and Go contain a mixture of both, transducin contains only the larger (36-kDa) beta-polypeptide. The relationship of the 36- and the 35-kDa beta subunits is not defined. Although the complete sequence of the 36-kDa beta subunit of transducin has been deduced from the cDNA sequence, complete sequences of other beta subunits are not yet available so that detailed comparisons cannot be made at present. However, the proteolytic profiles of each class of the beta subunits of different G proteins are indistinguishable. The gamma subunit of bovine transducin has been completely sequenced. It has a Mr of 8400. Again complete sequences of other gamma subunits are not yet available. While the gamma subunits of Gs, Gi, and Go have identical electrophoretic mobility in SDS gels, they differ significantly in this respect from the gamma subunit of transducin. Moreover, crossover experiments point to functional differences between gamma subunits from G protein and transducin complexes. In addition, a role for beta, gamma in anchoring guanine nucleotide binding proteins to membranes has been postulated.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structural and functional relationships of guanosine triphosphate binding proteins. 313 54

We tested 18 antisera showing reactivity against the alpha subunit of transducin, the guanine nucleotide binding protein from rod outer segment, for crossreactivity against the 40- and 39-kDa guanine nucleotide binding proteins purified from bovine brain. A single antiserum, CW6, showed crossreactivity, and this was predominantly against the 40-kDa protein. Immunoblots of the tryptic fragments of transducin alpha subunit with multiple antisera raised against that subunit showed that only CW6 recognizes a COOH-terminal 5-kDa peptide that includes the site of pertussis toxin ADP-ribosylation. Antibodies against the 5-kDa peptide, affinity-purified from CW6, specifically react with the 40-kDa brain protein on immunoblots. The results show that the 39- and 40-kDa guanine nucleotide binding proteins from brain differ immunochemically and that the COOH-terminal 5-kDa peptide of transducin alpha subunit is homologous to a region in the 40-kDa brain protein. We speculate that this homologous region may be in a domain that confers specificity for receptor interactions of guanine nucleotide binding proteins.
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PMID:Antibodies against the carboxyl-terminal 5-kDa peptide of the alpha subunit of transducin crossreact with the 40-kDa but not the 39-kDa guanine nucleotide binding protein from brain. 392 87

Complementary DNA (cDNA) clones encoding two G protein alpha-subunit proteins (CGP alpha 1 and CGP alpha 2) were isolated from a Coprinus congregatus (Cc) hyphal tip cell (HTC) library using PCR-generated biotinylated G protein probes. Sequence analysis of the Cc cgp alpha 1 gene indicates that the gene contains an open reading frame (ORF) that translates into a putative 353-amino-acid (aa) product. The predicted CGP alpha 1 protein exhibits similarity to all known G protein alpha-subunits (it has all of the consensus regions for a GTP-binding protein), especially the mammalian retinal G protein, transducin. The CGP alpha 1 aa sequence is 50% identical overall to the transducin subfamily, cgp alpha 1 shares the same aa size grouping as transducin alpha-subunits and, unlike many other G proteins, both CGP alpha 1 and transducin seem to possess a cholera toxin (CTX)- and pertussis toxin (PTX)-sensitive site. Preliminary reverse transcription PCR (RT-PCR) analysis of cgp alpha 1 and cgp alpha 2 mRNA expression revealed that, unlike cgp alpha 2 which seems to be constitutively expressed, cgp alpha 1 is expressed only in HTC that are competent in responding to light. Thus, the cgp alpha 1 product, CGP alpha 1, is a likely candidate for regulating the blue light-induced signal transduction photomorphogenesis system found in Cc.
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PMID:Cloning and characterization of a G protein alpha-subunit-encoding gene from the basidiomycete, Coprinus congregatus. 755 63

We prepared polyclonal antibodies (Pab) against the following peptides: partial sequences of bovine transducin alpha subunit including the ADP-ribosylation sites sensitive to cholera toxin (CTX) and pertussis toxin (PTX) and the N-terminus of Drosophila GTP-binding protein q alpha (DGqN); Pab CTX, Pab PTX and Pab DGqN, respectively. These antibodies were specific to the peptides used as antigen and no crossreactivity was observed. Pab CTX and Pab PTX reacted with bovine transducin alpha subunit and the reactivity was lost by preincubation with the specific antigen peptide. Proteins of 41-42 kDa in octopus and squid photoreceptor membranes were recognized by Pab DGqN but not by Pab CTX or Pab PTX. Anti-alpha antibody (GA/1) reacted with the same bands as Pab DGqN recognized. These results suggest that the major GTP-binding protein in cephalopod photoreceptors is a Gq-type, similar to Drosophila Gq.
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PMID:Immunochemical detection of GTP-binding protein in cephalopod photoreceptors by anti-peptide antibodies. 776 38

An increase of Gi alpha-related pertussis toxin substrates has been observed in the failing myocardium. In order to quantify the protein expression of Gi alpha directly, we developed a fast radioimmunoassay using the iodinated synthetic peptide 125I-KENLKDCGLF. beta-adrenoceptors were studied with 125I-cyanopindolol binding for comparison. Immunoblot experiments using recombinant G-protein alpha-subunits showed that DS4 immunostained the G-protein alpha-subunits with a rank order of potency rGi alpha 1 = rGi alpha 2 > rGo alpha >> rGi alpha 3. The G-protein alpha-subunits recognized by DS4 in human ventricular membranes comigrated with rGi alpha 1 and rGi alpha 2. The radioimmunoassay had a sensitivity of 2.5 micrograms/ml transducin alpha with an interassay variation of less than 10%. The non-labelled peptide selectively competed with the myocardial 40 kDa membrane protein for binding to the antiserum DS4. Radioimmunochemical quantification of Gi alpha from cardiac membranes showed that in left ventricular membranes (LV) from dilated cardiomyopathy (DCM), there was an increase of Gi alpha by 138.5% when related to mg protein and 135% when related to 3H-ouabain binding sites as membrane marker. In LV from ischaemic cardiomyopathy (ICM), the increase was smaller (58.4%) when related to mg protein compared to the increase of Gi alpha when related to 3H-ouabain binding sites as membrane marker (155% v NF). In contrast, in the right ventricles (RV) there was no increase of Gi alpha in ICM or DCM. The numbers of beta-adrenoceptors were reduced in RV and LV of both, ICM and DCM. It is concluded that the radioimmunoassay may become an important tool for studying the expression of Gi alpha-protein levels and changes thereof in pathological conditions. The amount of immunodetectable Gi alpha-proteins is increased in failing LV due to DCM and ICM but not in RV, while beta-adrenoceptor down-regulation occurred in RV and LV in both conditions. These findings might indicate that the liability of the LV but not of RV to express Gi alpha-proteins may be increased in predominant LV heart failure. Alternatively, the underlying mechanism, e.g. sympathetic activation, may be regulated locally in the failing heart producing different changes in adjacent chambers.
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PMID:Radioimmunochemical quantification of Gi alpha in right and left ventricles from patients with ischaemic and dilated cardiomyopathy and predominant left ventricular failure. 800 75

Immunochemical detection of pertussis toxin-sensitive guanine-nucleotide binding proteins has been suggested to represent the most direct approach to quantitate the protein than pertussis toxin-catalysed [32P]ADP-ribosylation. The latter technique is potentially hampered by pre-existing covalent modification of the C-terminus. However, limited data exist as to whether and in what way modifications of the C-terminus affect immunoreactivity of Gi alpha (alpha-subunit of the inhibitory G-protein of adenylyl cyclase). Membranes from human myocardium, thrombocytes, adipose tissue and lung were treated with pertussis toxin or N-ethylmaleimide. Both, conditions prevented high affinity agonist binding to m-cholinoceptors and inhibited [32P]ADP-ribosylation by pertussis toxin consistent with the notion that the modifications took place at the C-terminus. Pertussis toxin treatment increased immunoreactivity to different antisera raised against the C-terminal decapeptide of transducin alpha (KENLKDCGLF, DS 1-4, AS). N-Ethylmaleimide reduced immunoreactivity towards all antisera studied. Pertussis toxin reduced the mobility of Gi alpha on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) depending on the presence of the toxin and sensitivity to inhibition of ADP-ribosylation by nicotinamide. In native membranes from none of the tissues studied, immunoreactive material comigrating with pertussis toxin-modified form of Gi alpha was detected. It is concluded that modification of the C-terminus by pertussis toxin or N-ethylmaleimide resulting in the same functional consequence, i.e. prevention of high affinity agonist receptor binding, is capable of producing opposite changes of immunoreactivity. Pertussis toxin treatment reduces the electrophoretic mobility on SDS-PAGE. Separation of the native and pertussis toxin-modified form of Gi alpha on SDS-PAGE demonstrates that endogenously ADP-ribosylated Gi alpha is lacking in membranes from human myocardium, thrombocytes, lung and adipose tissue.
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PMID:C-terminal modifications of pertussis toxin-sensitive G-protein alpha-subunits differentially affect immunoreactivity. Evidence against endogenous ADP-ribosylation in human heart, lung, thrombocytes and adipose tissue. 827 48

Neuropeptide Y (NPY) significantly potentiates the constrictor actions of noradrenaline and ATP on blood vessels via a pertussis toxin (PTX)-sensitive mechanism involving Gi/o (alpha beta gamma) protein subunits (Gi/o, GTP-binding proteins sensitive to PTX). In Chinese hamster ovary K1 (CHO K1) cells expressing specific receptors for these neurotransmitters, stimulation of Gi/o protein-coupled receptors for NPY and other neurotransmitters can augment the Gq/11-coupled (Gq/11, GTP-binding proteins insensitive to PTX) alpha 1B adrenoceptor- or ATP receptor-induced arachidonic acid (AA) release and inositol phosphate (IP) production (early events which may precede vasoconstriction). In this study, we have assessed the role of G beta gamma subunits in the synergistic interaction between Gi/o- (NPY Y1, 5-hydroxytryptamine 5-HT1B, adenosine A1) and Gq/11- [ATP P2Y2 (P2U)]-coupled receptors on AA release by using the specific abilities of regions of the beta-adrenergic receptor kinase (beta ARK1 residues 495-689) and the transducin alpha subunit to associate with G-protein beta gamma subunit dimers and to act as G beta gamma subunit scavengers. Transient expression of beta ARK1(495-689) in CHO K1 cells heterologously expressing NPY Y1 receptors had no significant effect on the PTX-insensitive ability of ATP to stimulate AA release. Stimulation of NPY Y1 receptors (as well as the endogenous 5-hydroxytryptamine 5-HT1B receptor and the transiently expressed human adenosine A1 receptor) resulted in a PTX-sensitive augmentation of ATP-stimulated AA release, which was inhibited by expression of both G beta gamma subunit scavengers. Expression of beta ARK1(495-689) similarly inhibited NPY Y1 receptor augmentation of ATP-stimulated IP production (a measure of phospholipase C activity), a step thought to precede the NPY Y1 receptor-augmented protein kinase C-dependent AA release previously observed in these cells. These experiments demonstrate that G beta gamma subunits, as inhibited by two different G beta gamma scavengers, significantly contribute to the synergistic interaction between NPY Y1 Gi/o- and Gq/11-coupled receptor activity, and are required for the augmentation of IP production and AA release observed in this model cell system.
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PMID:Role of G-protein beta gamma subunits in the augmentation of P2Y2 (P2U)receptor-stimulated responses by neuropeptide Y Y1 Gi/o-coupled receptors. 935 46


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