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)

The subunit structure was studied of islets-activating protein (IAP), a new protein recently isolated from the culture media of Bordetella pertussis and possessing a unique action, i.e., potentiating insulin secretory responses of animals, IAP dissociated into three subunits, F-1, F-2, and F-3, when incubated in 8M urea. Three subunits isolated by chromatography on CM-Sepharose and DEAE-Sepharose columns showed different molecular weights (F-1: 44,000, F-2: 20,000, F-3: 11,000) and different isoelectric points, but similar amino acid compositions. The F-1 subunit consisted of two polypeptide chains linked by S-S bonding(s), while the F-2 and F-3 subunits were single-chain peptides. These subunits, none of which was biologically active alone, associated upon incubation for 2 h at 37 degrees C and regained biological activities after association only when the F-3 subunit was present in the association product. Thus, the F-3 subunit was essential, and the F-1 and F-2 subunits were permissive, for the development of IAP activity in animals.
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PMID:Subunit structure of islets-activating protein (IAP), a new protein isolated from the culture media of Bordetella pertussis. 2 92

A highly potent extract of the histamine sensitizing factor (HSF) of Bordetella pertussis was isolated by extraction of bacterial cells with urea buffer and subsequent gel filtration. This preparation of HSF also contained leukocytosis-promoting activity and adjuvant activity for reaginic and hemagglutinating antibodiesl Digestion of this extract with pronase or trypsin partially destroyed histamine-sensitizing activity, leukocytosis-promoting activity, and adjuvant activity for reaginic antibody, but did not affect adjuvant activity for hemagglutinating antibody. Antisera to HSF was prepared by immunizing rabbits with either whole bacteria or partially purfied extract. These antisera contained several precipitating antibodies to Bordetella pertussis extract demonstrated by immunodiffusion and immunoelectrophoresis. Antisera added in vitro to Bordetella pertussis extracts or passively administered in vivo to mice, reduced or abolished all biologic activities except adjuvant activity for hemagglutinating antibody. These results suggest that HSF might be an antigenic component of Bordetella pertussis which also possesses leukocytosis-promoting activity and adjuvant activity for reaginic antibody.
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PMID:Immunologic and biochemical properties of the histamine-sensitizing factor from Bordetella pertussis. 4 44

Studies were performed to examine the regulation of atrial natriuretic peptide- (ANP) stimulated guanylate cyclase in the the inner medulla. Primary cultures of rat inner medullary collecting tubular cells exposed to 10(-7) M ANP increased cGMP formation to 31.2 +/- 1.8 compared to the basal production of 2.1 +/- 0.6 fm/micrograms protein. This response did not appear to be transduced via a Gi protein, as preincubation with pertussis toxin did not alter the response to 10(-7) M ANP, and saponized cells exposed to 10 microM GTP gamma S did not enhance the response to ANP (77.3 +/- 5.9 vs. 86.7 +/- 6.3 g/micrograms). Likewise, changes in extracellular Ca2+ from 0.5 to 3.0 mM, decrements in intracellular Ca2+ with EGTA or increments in intracellular Ca2+ with ionomycin (5 microM) did not significantly alter the response to ANP. Neither activation of protein kinase A with forskolin (36.5 +/- 5.1) nor of protein kinase C with s,n-1,2-dioctanoylglycerol (33.2 +/- 2.5) altered the response to 10(-7) M ANP (32.2 +/- 3.3, NS). As the inner medullary environment was hypertonic, the effect of altering tonicity was studied. Cells grown for 48 hours in hypertonic media (600 mOsm/kg H2O) displayed enhanced response to 10(-8) and 10(-7) M ANP when osmolality was raised by either Na+ alone or in combination with urea, but not by urea alone. Our studies demonstrate that ANP-stimulated guanylate cyclase is insensitive to alterations in either intra- or extracellular Ca2+, is not subject to inhibition by protein kinase, and does not involve a pertussis-sensitive G protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of atrial natriuretic peptide-stimulated cGMP production in the inner medulla. 131 78

In this study, we investigated the expression of various G proteins in whole sciatic nerves, in myelin and nonmyelin fractions from these nerves, and in membranes of immortalized Schwann cells. In myelin, nonmyelin, and Schwann cell membranes we detected two 39-40-kDa pertussis toxin substrates that were resolved on separation on urea-gradient gels. Two cholera toxin substrates with apparent molecular masses of 42 and 47 kDa were present in nerve and brain myelin and in Schwann cell membranes. In these membranes, a third 45-kDa cholera toxin substrate, which displayed the highest labeling, was also present. Immunoblotting with specific antisera allowed the identification of G(o) alpha, Gi1 alpha, Gi2 alpha, Gi3 alpha, Gq/G11 alpha, and the two isoforms of Gs alpha in nerve homogenates, nerve, and brain myelin fractions. In Schwann cell membranes we identified G(o) alpha, Gi2 alpha, Gi3 alpha, and proteins from the Gq family, but no immunoreactivity toward anti-Gi1 alpha antiserum was detected. In these membranes, anti-Gs alpha antibody recognized the three cholera toxin substrates mentioned above, with the 45-kDa band displaying the highest immunoreactivity. Relative to sciatic nerve myelin, the Schwann cell membranes revealed a significantly higher expression of Gi3 alpha and the absence of Gi1 alpha. The different distribution of G proteins among the different nerve compartments might reflect the very specialized function of Schwann cells and myelin within the nerve.
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PMID:Identification of G protein subtypes in peripheral nerve and cultured Schwann cells. 140 17

The ADP-ribosyl moiety of NAD was transferred to a 40-kDa protein when rat liver nuclei were incubated with pertussis toxin. The 40-kDa substrate in the nuclei displayed unique properties as follows, some of which were apparently distinct from those observed with the toxin-substrate GTP-binding protein (Gi) in the liver plasma membranes. 1) The nuclear 40-kDa protein was recognized with antibodies reacting with the alpha-subunits (alpha i-1 and alpha i-2) of Gi, but not with anti-Go-alpha-subunit antibody. 2) The nuclear protein had a higher mobility than alpha-subunit of the plasma membrane-bound Gi upon electrophoresis with a urea/sodium dodecyl sulfate-containing polyacrylamide gel. 3) The nuclear protein was not extracted from the nuclei with 1% Triton X-100, whereas Gi was easily solubilized from the plasma membranes. 4) There was a beta gamma-subunit-like activity in the nuclei, which was assayed by an ability to support pertussis toxin-catalyzed ADP-ribosylation of a purified alpha-subunit of Gi. Moreover, a 36-kDa protein in the nuclei was recognized with antibody raised against purified beta-subunits of Gi. 5) Pertussis toxin-induced ADP-ribosylation of the nuclear protein was selectively inhibited by the addition of a nonhydrolyzable GTP analogue, and its inhibitory action was competitively blocked by the simultaneous addition of GDP or its analogues, as had been observed with plasma membrane-bound Gi. It thus appeared that a novel form of alpha beta gamma-trimeric GTP-binding protein serving as the substrate of pertussis toxin was present in rat liver nuclei. In order to examine a possible role of the nuclear GTP-binding protein, rats were injected with carbon tetrachloride, a necrosis inducer of hepatocytes. There was a marked increase in the nuclear substrate activity from 3-6 days after the injection, without a significant change in the activity of Gi in the plasma membranes. The time course of the increase corresponded with a recovering stage from the hepatocyte necrosis. These results suggested that the nuclear GTP-binding protein found in the present study might be involved at some stages in the hepatocyte growth.
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PMID:A GTP-binding protein in rat liver nuclei serving as the specific substrate of pertussis toxin-catalyzed ADP-ribosylation. 154 91

Pertussis toxin (PT), an oligomeric exotoxin of Bordetella pertussis containing five dissimilar subunits, is considered to be an essential immunogen in acellular and component pertussis vaccines against whooping cough. A rapid single-step procedure for isolating PT subunits was developed using reverse-phase high-performance liquid chromatography. Recoveries of individual subunits were 75% (S1), 70% (S2), greater than 90% (S3), greater than 90% (S4), and 50% (S5), as judged by SDS-PAGE and amino acid analysis. Lyophilized subunits were solubilized in urea followed by step-wise dialysis to remove the urea. All subunits were inactive in histamine sensitization, lymphocytosis, and hemagglutination assays. However, purified S1 retained residual NAD-glycohydrolase and ADP-ribosyltransferase activity. A partially active holotoxin could be generated by mixing the five individual subunits. All subunits were immunogenic in rabbits and mice. Monospecific antisera raised in both animal species were able to neutralize the PT-mediated clustering of Chinese hamster ovary cells, but active immunization of mice with single subunits failed to protect them in the intracerebral challenge assay. These subunit preparations therefore retained neutralizing determinants, but did not contain protective epitopes.
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PMID:Purification and immunological characterization of HPLC-purified pertussis toxin subunits. 165 40

A rapid two-step purification to homogeneity of the calmodulin-activated adenylyl cyclase from urea extracts of Bordetella pertussis organisms (strain 114) is described. Catalytic and invasive activities are purified 30- and 177-fold, respectively, and virtually no degraded forms are found. Specific activities are 0.4 mmol/min/mg and 0.5 mumol/mg of enzyme protein/mg of cell protein/min for catalytic and invasive activities, respectively. The 15 amino-terminal amino acids agree with those deduced from the DNA sequence, as does the molecular mass of 175 kDa (guanidine) or 177 kDa (urea) obtained by equilibrium sedimentation. The larger apparent molecular mass seen in sodium dodecyl sulfate-polyacrylamide gel electrophoresis can be ascribed to anomalous migration. Half-maximal cyclase activation occurs at 3-4 X 10(-10) M calmodulin in the presence of Ca2+ and at 2 X 10(-8) M calmodulin in its absence. Ca2+ activation is maximal at 60-100 microM free CaCl2 (at low calmodulin concentrations), and free Ca2+ concentrations above approximately 125 microM are inhibitory at any calmodulin concentration. Extracellular Ca2+ is essential for intoxication. In Chinese hamster ovary cells, exogenous calmodulin does not inhibit penetration of the cyclase.
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PMID:Invasive adenylyl cyclase of Bordetella pertussis. Physical, catalytic, and toxic properties. 169 22

Pertussis toxin (PTX) catalyzes the ADP-ribosylation of the alpha-subunit of GTP-binding proteins (G-proteins) in the presence of NAD+. Pertussis toxin also decreases the electrophoretic mobility of the alpha-subunit on urea SDS PAGE. This effect of PTX has been suggested to be a property of the toxin different from its ability to catalyze ADP-ribosylation. However, the present report provides evidence to the contrary; ie, this mobility shift required the ADP-ribosylation of alpha-subunits. This conclusion was based on: (1) in the presence of increasing concentrations of NAD+ (0.026-1.3 microM), there was a linear increase in the formation of the slower migrating alpha-subunit as measured by immunoblotting with selective antisera, (2) addition of NADase to the incubation mixture completely eliminated the formation of this protein, and (3) increasing concentrations of nicotinamide (50-250 mM), which inhibits ADP-ribosylation, decreased the amount of the slower migrating alpha-subunit. Thus, in addition to PTX, NAD+ was required for the mobility shift and the slower migrating alpha-subunit is likely the ADP-ribosylated form.
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PMID:Requirement of ADP-ribosylation for the pertussis toxin-induced alteration in electrophoretic mobility of G-proteins. 183 88

Tumor cell locomotion is an integral part of the metastatic process. We present a new autocrine motility factor (AMF) derived from the serum-free conditioned medium of the Dunning R-3327 rat prostate adenocarcinoma AT2.1 tumor cell subline AT2.1-AMF, prepared by concentration of components less than or equal to 30 kDa- in size and washed free of low-molecular-weight growth factors, stimulated motility of AT2.1 cells in modified Boyden chamber migration assays. This stimulated migration was dose-dependent, and by checkerboard analysis was both chemotactic and chemokinetic. AT2.1-AMF activity was labile to heat, acid, base, reduction, oxidation, and proteases. Lyophilization and treatment with 6M urea caused a mild decrease (less than 20%) in migration-stimulating capability. Tumor-cell specificity was demonstrated for AMF of AT2.1 and AT3.1 Dunning sublines, and the A2058 human melanoma cell lines. AT2.1 cell migration to AT2.1-AMF was inhibited by 2 hr pre-treatment with cholera toxin (0.1 microgram/ml) or forskolin (100 microM), but not altered by 2 hr pre-treatment with pertussis toxin (1.0 microgram/ml). This indicates that guanine nucleotide binding protein-mediated regulation of cAMP is involved in modulating the AT2.1 cell response to its AMF. The AT2.1-AMF belongs to a related family of tumor autocrine motility factors and represents a new model for understanding the role of tumor-cell migration in the metastatic process of human prostate cancer.
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PMID:An autocrine motility factor secreted by the Dunning R-3327 rat prostatic adenocarcinoma cell subtype AT2.1. 187 63

Ammonium, a weak base produced as a metabolic by-product of urea metabolism by bacterial pathogens, inhibits a variety of motile polymorphonuclear leukocyte (PMN) functions. It was initially assumed that the mechanism of leukocyte inhibition was due to cytoplasmic alkalinization. However, while it is clear that ammonium can effect cytoplasmic alkalinization, current data indicate that alterations in chemotaxis, degranulation, and receptor recycling occur independently of cytoplasmic alkalinization. Since these are motility-related events, we examined the possibility that alterations in cytoskeletal actin may account for the effects of ammonium on PMN function. The results indicate that ammonium can inhibit degranulation, decrease cytoskeletal actin, and increase actin depolymerization rates. These findings are supported by five lines of evidence. First, formylmethionyl-leucyl-phenylalanine (fMLP)-induced elastase release was inhibited by 85% +/- 3% in the presence of ammonium, and ammonium by itself did not stimulate elastase release. Second, ammonium treatment of resting PMNs caused a rapid 38% +/- 6% decrease in cytoskeletal actin. Third, ammonium treatment accelerated the fMLP-induced depolymerization phase of the cytoskeletal actin transient by 150% +/- 12%. Fourth, in resting PMNs treated with cytochalasin B or D, ammonium induced a 21% +/- 4% and a 25% +/- 5% decrease in cytoskeletal actin, respectively. Conversely, ammonium did not affect the ability of the cytochalasins to inhibit an fMLP-induced cytoskeletal actin transient. Fifth, pertussis toxin treatment of neutrophils did not affect the ammonium-stimulated decrease in cytoskeletal actin. These results suggest that ammonium can inhibit neutrophil function by altering cytoskeletal actin and therefore provide new information regarding potential pathogenic mechanisms for bacterial pathogens.
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PMID:Ammonium decreases human polymorphonuclear leukocyte cytoskeletal actin. 200 18


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