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

Pancreatic islets stimulated with D-glucose are known to liberate arachidonic acid from membrane phospholipids and release prostaglandin E2 (PGE2). A component of the eicosanoid release induced by D-glucose has been demonstrated to occur without calcium influx and must be triggered by other coupling mechanisms. In this study, we have attempted to identify mechanisms other than calcium influx which might couple D-glucose stimulation to hydrolysis of arachidonate from membrane phospholipids in islet cells. We have found that occupancy of the beta cell plasma membrane D-glucose transporter is insufficient and that D-glucose metabolism is required to induce islet PGE2 release because 3-O-methylglucose fails to induce and mannoheptulose prevents PGE2 release otherwise induced by 17 mM D-glucose. The carbohydrate insulin secretagogues mannose and D-glyceraldehyde have also been found to induce islet PGE2 release, but the non-secretagogue carbohydrates L-glucose and lactate do not. Carbohydrate secretagogues are known to be metabolized to yield ATP and induce depolarization of the beta cell plasma membrane. We have found that depolarization by 40 mM KCl induces PGE2 release only in the presence and not in the absence of extracellular calcium, but exogenous ATP induces islet PGE2 release with or without extracellular calcium. Carbachol is demonstrated here to interact synergistically with increasing concentrations of glucose to amplify PGE2 release and insulin secretion. Pertussis toxin treatment is shown here not to prevent PGE2 release induced by glucose or carbachol but to increase the basal rate of PGE2 release and the islet cyclic AMP content. Theophylline (10 mM) exerts similar effects. Eicosanoid release in pancreatic islets can thus be activated by multiple pathways including muscarinic receptor occupancy, calcium influx, increasing cAMP content, and a metabolic signal derived from nutrient secretagogues, such as ATP.
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PMID:Arachidonic acid metabolism in isolated pancreatic islets. VI. Carbohydrate insulin secretagogues must be metabolized to induce eicosanoid release. 159 16

Changes in cytosolic calcium concentration ([Ca2+]i) in response to extracellular calcium and epinephrine were monitored in individual rat adipocytes by both photon counting and digital imaging techniques utilizing the intracellular fluorescent calcium probes Fura-2 and Indo-1. Adipocytes containing Fura-2 were attached to coverslips and shown to be as hormonally responsive to insulin as adipocytes in suspension [3.5 +/- 0.8 (n = 5) vs. 4.2 +/- 0.6 (n = 8)-fold increase in glucose oxidation over basal in response to 0.7 nM insulin]. Basal [Ca2+]i in single rat adipocytes was found to be 128 +/- 6 nM (n = 100). The addition of either extracellular calcium or epinephrine elicited transient, concentration-dependent increases in [Ca2+]i. Although the characteristics of calcium- and epinephrine-induced calcium transients are generally similar, the peak [Ca2+]i increase over basal is higher in response to calcium vs. epinephrine [37 and 64% (1 and 27 microM epinephrine), vs. 132 and 236% (2 and 4 mM calcium)]. All the cells tested responded to calcium but only 67% responded to epinephrine. Both alpha- and beta-adrenergic agonists were able to increase [Ca2+]i. The epinephrine-induced [Ca2+]i transients appear to be dependent upon extra-cellular calcium. Neither cholera nor pertussis toxin treatments altered basal [Ca2+]i. However, after treatment of adipocytes with either pertussis or cholera toxin, epinephrine stimulated oscillations in [Ca2+]i. Digital imaging revealed that adipocytes demonstrate a high degree of intracellular spatial heterogeneity and intercellular variability in the magnitude of response to both calcium and epinephrine. These studies demonstrate the feasibility of using single rat adipocytes to monitor intracellular free calcium, using both photon counting and digital imaging.
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PMID:The effects of extracellular calcium and epinephrine on cytosolic-free calcium in single rat adipocytes. 159 65

The effects on ionic permeability of toxins and hormones that activate or deactivate the guanine nucleotide regulatory (G) proteins that govern adenylate cyclase activity were examined in rat renal proximal tubule cell brush-border membranes. These studies demonstrate that activation of stimulatory G (Gs) proteins by cholera toxin or parathyroid hormone and deactivation of inhibitory (G (Gi) proteins by pertussis toxin result in a selective increase in Cl- permeability relative to that of K+ as determined with the potential-sensitive fluorescent probe 3,3'-dipropylthiadicarbocyanine iodide [diS-C3-(5)]. In contrast, activation of Gi by angiotensin II significantly decreases relative Cl- permeability. The selective increase in relative Cl- permeability induced by parathyroid hormone results in an inside-negative potential in membrane vesicles exposed to an inward NaCl gradient that is of sufficient magnitude to stimulate electrogenic, Na(+)-dependent glucose transport. These data suggest that the relative ionic permeabilities of brush-border membranes are tonically regulated by the opposing effects of hormones that act via Gs or Gi proteins. Changes in membrane potential resulting from this regulation may play an important role in modifying transport in the proximal tubule.
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PMID:Hormonal regulation of rat renal proximal tubule brush-border membrane ionic permeability. 163 38

In the present study, we have examined the direct actions of angiotensin II (AII) in rabbit renal brush border membrane (BBM) where binding sites for AII exist. Addition of AII (10(-11)-10(-7) M) was found to stimulate 22Na+ uptake by the isolated BBM vesicles directly. All did not affect the Na(+)-dependent BBM glucose uptake, and the effect of AII on BBM 22Na+ uptake was inhibited by amiloride, suggesting the involvement of Na+/H+ exchange mechanism. BBM proton permeability as assessed by acridine orange quenching was not affected by AII, indicating the direct effect of AII on Na+/H+ antiport system. In search of the signal transduction mechanism, it was found that AII activated BBM phospholipase A2 (PLA) and that BBM contains a 42-kDa guanine nucleotide-binding regulatory protein (G-protein) that underwent pertussis toxin (PTX)-catalyzed ADP-ribosylation. Addition of GTP potentiated, while GDP-beta S or PTX abolished, the effects of AII on BBM PLA and 22Na+ uptake, suggesting the involvement of G-protein in AII's actions. On the other hand, inhibition of PLA by mepacrine prevented AII's effect on BBM 22Na+ uptake, and activation of PLA by mellitin or addition of arachidonic acid similarly enhanced BBM 22Na+ uptake, suggesting the role of PLA activation in mediating AII's effect on BBM 22Na+ uptake. In summary, results of the present study show a direct stimulatory effect of AII on BBM Na+/H+ antiport system, and suggest the presence of a local signal transduction system involving G-protein mediated PLA activation.
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PMID:Angiotensin II directly increases rabbit renal brush-border membrane sodium transport: presence of local signal transduction system. 165 30

Noradrenaline inhibits in rat islets the stimulation of insulin secretion induced by glucose and its potentiation by palmitate, but the signalling system responsible remains unknown. We have tested the hypothesis that noradrenaline-induced inhibition is mediated by an elevation of cyclic GMP (cGMP) levels. The analogue 8-Br-cGMP decreases dose-dependently the potentiation by palmitate of glucose-induced insulin secretion, whereas it only slightly affects the proper effect of glucose. Similarly, it abolishes palmitate acceleration of glucose-induced 45Ca2+ uptake without modifying the sugar effect. Finally, 8-Br-cGMP completely inhibits the stimulation of the lipid synthesis de novo induced by palmitate, but not that caused by glucose alone. On the other hand, noradrenaline increases dose-dependently islet cGMP content, with alpha 2-adrenergic specificity. As noradrenaline-induced elevation of cGMP is sensitive to pertussis toxin, it probably results from alpha 2-adrenoceptor activation of islet guanylate cyclase through a guanine nucleotide regulatory protein. It is concluded that the elevated cGMP levels mediate noradrenaline inhibition of lipid synthesis de novo, and hence of acceleration by palmitate of 45Ca2+ uptake and insulin secretion in the presence of glucose.
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PMID:Does cyclic guanosine monophosphate mediate noradrenaline-induced inhibition of islet insulin secretion stimulated by glucose and palmitate? 165 40

We tested the hypothesis that somatostatin (SRIF) inhibits insulin secretion from an SV40 transformed hamster beta cell line (HIT cells) by an effect on the voltage-dependent Ca2+ channels and examined whether G-proteins were involved in the process. Ca2+ currents were recorded by the whole cell patch-clamp method, the free cytosolic calcium, [Ca2+]i, was monitored in HIT cells by fura-2, and cAMP and insulin secretion were measured by radioimmunoassay. SRIF decreased Ca2+ currents, [Ca2+]i, and basal insulin secretion in a dose-dependent manner over the range of 10(-12)-10(-7)M. The increase in [Ca2+]i and insulin secretion induced by either depolarization with K+ (15 mM) or by the Ca2+ channel agonist, Bay K 8644 (1 microM) was attenuated by SRIF in a dose-dependent manner over the same range of 10(-12)-10(-7) M. the half-maximal inhibitory concentrations (IC50) for SRIF inhibition of insulin secretion were 8.6 X 10(-12) M and 8.3 X 10(-11) M for K+ and Bay K 8644-stimulated secretion and 1 X 10(-10) M and 2.9 X 10(-10) M for the SRIF inhibition of the K+ and Bay K 8644-induced rise in [Ca2+]i, respectively. SRIF also attenuated the rise in [Ca2+]i induced by the cAMP-elevating agent, isobutylmethylxanthine (1 mM) in the presence of glucose. Bay K 8644, K+ and SRIF had no significant effects on cAMP levels and SRIF had no effects on adenylyl cyclase activity at concentrations lower than 1 microM. SRIF (100 nM) did not change K+ efflux (measured by 86Rb+) through ATP-sensitive K+ channels in HIT cells. SRIF (up to 1 microM) had no significant effect on membrane potential measured by bisoxonol fluorescence. Pretreatment of the HIT cells with pertussis toxin (0.1 microgram/ml) overnight abolished the effects of SRIF on Ca2+ currents, [Ca2+]i and insulin secretion implying a G-protein dependence in SRIF's actions. Thus, one mechanism by which SRIF decreases insulin secretion is by inhibiting Ca2+ influx through voltage-dependent Ca2+ channels, an action mediated through a pertussis toxin-sensitive G-protein.
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PMID:Somatostatin inhibits insulin secretion by a G-protein-mediated decrease in Ca2+ entry through voltage-dependent Ca2+ channels in the beta cell. 170 40

Mastoparan, a tetradecapeptide purified from wasp venom, stimulates insulin and glucagon release by rat pancreatic islets in a dose-related manner. In perifusion experiments, mastoparan produces monophasic hormone release, which ceases within 10 min of removal of the peptide. After exposure of the isles to mastoparan, glucose-induced insulin release is clearly retained. In incubation experiments, mastoparan-induced insulin release is greatly blocked by pretreatment of the islets with pertussis toxin or neomycin (inhibitor of phosphoinositide turnover) or by lowering the ambient temperature to 17 C. Pretreatment of the islets with nifedipine (calcium channel blocker), H-7 (inhibitor of A- and C-kinase), somatostatin, or divalent cation-free medium does not affect the response to mastoparan. Pretreatment with parabromophenacylbromide (phospholipase-A2 inhibitor) does not block the response induced by a high concentration of (58 microM) mastoparan. The peptide does not stimulate insulin synthesis during 30 min of incubation. Mastoparan raises the cytosolic free Ca2+ concentration, measured by fura-2, in isolated islet cells at normal (1.9 mM) and very low (6.5 microM) extracellular Ca2+ concentrations. Intravenous administration of mastoparan in rats causes a significant elevation of both insulin and glucagon. Together with the previous data, we conclude that mastoparan stimulates islet hormone release through a temperature-dependent process mediated by pertussis toxin-sensitive GTP-binding protein(s). Activation of phospholipase-C and liberation of intracellular Ca2+ are likely to be coupled to exocytosis. Ca2+ influx through the Ca2+ channel and protein kinase-A and -C appear not to be involved in mastoparan's hormone-releasing action. Phospholipase-A2 may be involved in the hormone release induced by low, but not high, concentrations of the peptide.
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PMID:Mastoparan-induced hormone release from rat pancreatic islets. 172 98

The immunogenicity and adverse effects of an acellular pertussis vaccine consisting of a purified pertussis toxin inactivated with hydrogen peroxide (PTxd) was evaluated. Children aged 15 to 30 months were injected with 10 (n = 33) or 50 micrograms (n = 34) of PTxd or with diphtheria and tetanus toxoids and whole cell pertussis vaccine (DTP) (n = 34). All children had previously received three doses of DTP during infancy. Both dosages of PTxd induced higher IgG antibody (p less than 0.05 for 10 micrograms dose and p less than 0.01 for 50 micrograms dose) and pertussis antitoxin responses (p less than 0.01 for 50 micrograms dose) than DTP. The 50 micrograms dose gave slightly higher (though not significantly) antibody responses than the 10 micrograms dose of PTxd. None of the vaccines induced detectable IgM or IgA antibody responses to pertussis toxin. At 24 h, local reactions occurred in none of the children injected with 10 micrograms PTxd, 12% with 50 micrograms PTxd and 78% with DTP. Fever at 24 h occurred in 13% after 10 micrograms PTxd, in none after 50 micrograms PTxd and in 53% after DTP. Recipients of DTP, but not of PTxd, had significant increases in neutrophils and decreases in lymphocytes and haematocrit at 24 h (all p less than 0.05). None of the groups showed changes in blood glucose at 24 h. PTxd induced pertussis toxin antibody levels similar to those observed in patients convalescing from natural pertussis. This acellular pertussis vaccine deserves further evaluation for safety and immunogenicity in infants and for efficacy in preventing pertussis.
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PMID:Safety and immunogenicity of hydrogen peroxide-inactivated pertussis toxoid in 18-month-old children. 175 91

Many adverse clinical events occur after pertussis immunization in children, but the pathophysiology is not well understood. It has been suggested that some of these adverse events may be due to biologically-active LPF and endotoxin present in DTP vaccines. Fifty-six children were studied who experienced severe reactions (fever greater than or equal to 40.5 degrees C, seizures, persistent crying greater than or equal to 3 hours or hypotonic-hyporesponsive episodes) within 48 hr of DTP immunization. Leukocytosis with neutrophilia was noted acutely (after vaccination) compared to follow-up (approximately one month later). No changes in insulin or glucose values were noted. Utilizing the CHO cell assay, no biologically-active LPF was found in the acute sera of children who had DTP-associated seizures. We found no evidence that biologically-active LPF or altered insulin/glucose metabolism were related to severe DTP-associated reactions.
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PMID:Pathophysiology of reactions associated with pertussis vaccine. 177 21

The possible role of cAMP and/or arachidonic acid (and metabolites) in the stimulation of glucose transport elicited by bradykinin in Swiss 3T3 fibroblasts was investigated with particular attention to the part of this effect inhibitable by pertussis toxin. Application of the membrane permeant cAMP analog 8-BrcAMP modified neither basal nor stimulated transport observed after bradykinin, insulin, or the combination of the two, indicating that [cAMP]i fluctuations are probably not involved. In contrast, arachidonic acid, which is released by the cells exposed to bradykinin, was able to markedly stimulate glucose transport, however, only at relatively high concentrations (EC50 approximately 30 microM). The stimulation by arachidonic acid was insensitive to pertussis toxin and was largely inhibited by both the cyclooxygenase blocking drug, indomethacin, and the [Ca2+]i clamping at the resting level (by ionomycin administered in a Ca2(+)-free incubation medium). Neither of the last treatments affected the glucose transport activated by bradykinin to a great extent. Moreover, the bradykinin-induced arachidonic acid release was unaffected by pertussis toxin and markedly inhibited by two treatments ineffective on glucose transport, the blockade of [Ca2+]i increases elicited by the peptide and the administration of the phospholipase A2 blocker, quinacrine. These results exclude that glucose transport stimulation by bradykinin is mediated intracellularly via arachidonic acid release. Since the involvement of Ca2+ and diacylglycerol can also be ruled out by present and previous results, this effect of the peptide appears to be independent of the generation of known second messengers and might be triggered by the direct interaction of a pertussis toxin-sensitive G protein with the glucose transporter in the plane of the plasma membrane.
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PMID:Glucose transport stimulation by bradykinin in Swiss 3T3 fibroblasts: a pertussis toxin-sensitive mechanism operates without involvement of arachidonic acid and cyclic AMP. 184 1


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