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)

Two-component systems use phosphorylation reactions to regulate stimulus/response pathways. In Bordetella pertussis, a human respiratory pathogen, the infectious cycle of the organism is controlled by the BvgAS two-component system. BvgS has similarities to sensor and response regulator components and is an autophosphorylating kinase that phosphorylates BvgA. BvgA, a response regulator, is a DNA-binding protein that activates virulence gene transcription. Three phosphorylated BvgS domains, the transmitter, receiver, and C terminus, are essential for signal transduction. We now demonstrate that the BvgS transmitter is sufficient for autophosphorylation but is unable to phosphorylate the C terminus or BvgA. The BvgS receiver regulates several phenotypes: dephosphorylation of both the BvgS transmitter and C terminus as well as transfer of a phosphoryl group from the transmitter to the C terminus. Our results indicate that BvgAS signal transduction initiates with autophosphorylation of the transmitter followed by phosphotransfer to the receiver. The phosphorylated receiver can donate to the C terminus or to water. The phosphorylated C terminus is then able to transfer the phosphoryl group to BvgA.
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PMID:Central role of the BvgS receiver as a phosphorylated intermediate in a complex two-component phosphorelay. 896 72

The hypothesis that mu-opioid agonists having low antinociceptive efficacy might be more susceptible to interference with G-protein coupling than mu-opioid agonists having higher antinociceptive efficacy was tested. Supraspinal antinociceptive efficacy for the three mu-opioid agonists morphine, [D-Ala2, NMePhe4, Gly5-ol]-enkephalin (DAMGO) and sufentanil in the mouse 55 degrees C warm-water tail-flick test was evaluated 18-24 h after intracerebroventricular (i.c.v.) administration of beta-funaltrexamine (beta-FNA). The beta-FNA pretreatment (0.2-2.0 nmol) attenuated antinociception in the order morphine > DAMGO > sufentanil, consistent with previous reports of their relative antinociceptive efficacy. The association of efficacy with G-protein coupling was then assessed by determining sensitivity to i.c.v. (0.1-3.0 micrograms) pertussis toxin (PTX) or cholera toxin (CTX). The effect of PTX on equiantinociceptive doses was in the inverse order of agonist efficacy. CTX augmented sufentanil-induced antinociception. Morphine- and DAMGO-induced antinociception were unaffected by CTX. These data suggest that: (i) highly efficacious mu agonists (viz., sufentanil) couple more efficiently to PTX-sensitive inhibitory Gi-proteins than do agonists of lower efficacy (viz., morphine, DAMGO) and (ii) highly efficacious mu agonists have greater capacity to utilize CTX-sensitive stimulatory Gs-proteins than do mu-agonists with lower efficacy.
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PMID:An examination of the relationship between mu-opioid antinociceptive efficacy and G-protein coupling using pertussis and cholera toxins. 904 82

Pertussis toxin from Bordatella pertussis catalyzes the ADP ribosylation of several G-proteins, using NAD+ as a substrate. In the absence of an acceptor protein, the toxin acts as a NAD+ glycohydrolase. Pertussis toxin is one of the virulent factors for whooping cough and therefore a target for site-specific inhibitors based on the transition state structure. A family of kinetic isotope effects was determined for the hydrolysis reaction, using NAD+ labeled with 3H, 14C, and 15N as substrates. Primary isotope effects were 1.021 +/- 0.001 for [1'N-14C]NAD+ and 1.021 +/- 0.004 for [1N-15N]NAD+, and the double-primary effect of [1'N-14C,1N-15N]NAD+ was 1.049 +/- 0.004. Secondary kinetic isotope effects were 1.207 +/- 0.010 for the [1'N-3H]-, 1.144 +/- 0.005 for the [2'N-3H]-, 0.989 +/- 0.001 for the [4'N-3H]-, and 1.019 +/- 0.004 for the [5'N-3H]NAD+, respectively. Commitment to catalysis was excluded by isotope trapping experiments, and the experimental kinetic isotope effects were independent of pH. The measured isotope effects are therefore intrinsic. The isotope effects are remarkable because they indicate an oxocarbenium-like ribose ring at the transition state but a stiffer than expected vibrational environment for C1' at the reaction center. On the basis of these isotope effects, a bond order vibrational analysis was performed to locate a transition state structure consistent with the isotope effects. The kinetic isotope effects predict a residual bond order to the nicotinamide leaving group of 0.11, corresponding to a distance of 2.14 A. Participation of the water nucleophile is weak, consistent either with an S(N)1-like transition state with no water interaction or with the water oxygen no closer than 3.5 A from the reaction center. The positive charge of the ribose oxocarbenium is stabilized by delocalization between the C1'-O4' and C1'-C2' bonds. The enzyme contacts restrict the vibrational environment of the reaction coordinate requiring increased bonding force constants for the enzyme-stabilized transition state. NAD+ analogues with the nicotinamide ribose replaced by an iminoribitol ring, mimicking the flattened ribose ring of the transition state, are expected to be transition state inhibitors.
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PMID:Kinetic isotope effect characterization of the transition state for oxidized nicotinamide adenine dinucleotide hydrolysis by pertussis toxin. 910 61

1. The cold (4 degrees C) water swimming stress (CWSS) for 3 min significantly increased the inhibition of the tail-flick response in ICR mice. 2. Pertussis toxin (PTX, 0.05-0.5 microgram) in mice pretreated intrathecally (IT) for 6 days attenuated the inhibition of the tail-flick response induced by CWSS. However, intracerebroventricular (ICV) pretreatment with PTX at the same doses did not affect CWSS-induced inhibition of the tail-flick inhibition. 3. 3-Isobutyl-1-methylxanthine (IBMX, 0.01-1 ng) in mice pretreated IT for 10 min dose-dependently attenuated the inhibition of the tail-flick response induced by CWSS. However, IBMX in mice ICV pretreated ICV at the same doses was not effective in attenuating the CWSS-induced inhibition of the tail-flick response. 4. Neither IT nor ICV pretreatment with cholera toxin (CTX, 0.05-0.5 microgram) for 24 hr affected the inhibition of the tail-flick response induced by CWSS. 5. The ICV or IT injection of PTX, CTX, or IBMX did not affect the basal tail-flick response latency. 6. It is concluded that spinal, but not supraspinal, PTX-sensitive G-proteins and cAMP phosphodiesterase may be involved in the antinociception produced by CWSS. However, neither spinal nor supraspinal CTX-sensitive G-proteins appear to be involved in mediating the antinociception induced by CWSS.
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PMID:Effects of spinally and supraspinally injected 3-isobutyl-1-methylxanthine, cholera toxin, and pertussis toxin on cold water swimming stress-induced antinociception in the mouse. 914 32

The water osmotic permeability of frog urinary bladder was found to be increased from 0.08 +/- 0.01 to 1.28 +/- 0.20 microl/min cm2 when serosal bathing medium was changed 4 times for a fresh Ringer solution. High epithelium permeability is accompanied by an increased content of cyclic AMP in the bladder tissue (by 42%, P < 0.01), higher activity of both basal and forskolin-stimulated membrane adenylate cyclase (AC) (by 109% and 74%, respectively, P < 0.05) and by appearance of aggregates of intramembranous particles in the apical membrane. The water flow was inhibited by 10(-9)-10(-5) M prostaglandin E2 (PGE2); the inhibitory effect was eliminated in the presence of 10(-4) M N-ethylmaleimide. The increase of water permeability due to changes of the bathing medium was accompanied by a decrease of serosal PGE2 concentration from 14.8 +/- 1.0 in the 1st solution to 0.6 +/- 0.1 nM in the 5th. 10(-6) M PGE2 in vitro inhibited the activity of membrane AC from highly permeable bladders by 33.4% (P < 0.02). Pretreatment of the membranes with 10 microg/ml pertussis toxin (PT) completely reversed this effect (+149%, P < 0.01). A significant activation of AC was also observed under 10(-10) M PGE2 (by 196%). These data demonstrate that the water permeability could be markedly increased independently of ADH, suggesting that the trigger role in activation of water transport is played by a decreased level of PGE2 which could stimulate AC.
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PMID:Role of prostaglandin E2 in regulation of low and high water osmotic permeability in frog urinary bladder. 915 Feb 74

Pertussis toxin (PTX), which causes the ADP-ribosylation and thereby inactivation of Gi-proteins, has been employed in analgesia testing to elucidate receptors that are coupled to inhibitory G-proteins, such as the mu-opioid receptor. Consistent with previous findings, the antinociceptive effects of morphine (1-10 microg) as measured by tail-flick latency using a 55 degrees C water bath, were blocked by a single intrathecal injection of 0.5 microg PTX 6 days prior to intrathecal morphine administration. In addition, mice treated intrathecally with 0.5 microg of PTX had significantly shorter baseline tail-flick latencies compared with vehicle treated mice using a 55 degrees C water bath when tested 6 days after PTX or vehicle administration. Morphine-induced antinociception was blocked in a dose-dependent manner by PTX with complete blockade of morphine following a 0.3-microg dose of PTX. Further, mice administered 0.1 microg or 0.3 microg PTX intrathecally had significantly shorter tail-flick latencies compared with vehicle injected mice using a 40, 45 or 50 degrees C water bath when tested 7 days after intrathecal injection. Shorter tail-flick latencies were observed at 45 degrees C as early as 48 h after intrathecal administration of 0.03, 0.1 or 0.3 microg PTX and these shorter tail-flick latencies were observed up to 90 days after intrathecal PTX administration. The intrathecal administration of PTX caused hyperalgesia and allodynia that appears similar to the symptoms reported by patients suffering from neuropathic pain, and suggests that deficiencies in inhibitory systems, as compared with increases in excitatory systems, may play a role in the pathophysiology of at least some central or neuropathic pain states.
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PMID:Intrathecal pertussis toxin produces hyperalgesia and allodynia in mice. 915 Feb 97

Pertussis toxin from Bordetella pertussis is one of the ADP-ribosylating toxins which are the cytotoxic agents of several infectious diseases. Transition state analogues of these enzymes are expected to be potent inhibitors and may be useful in therapy. Pertussis toxin catalyzes the ADP-ribosylation of a cysteine in the synthetic peptide alphai3C20, corresponding to the C-terminal 20 amino acids of the alpha-subunits of the G-protein Gi3. A family of kinetic isotope effects was determined for the ADP-ribosylation reaction, using 3H-, 14C- and 15N-labeled NAD+ as substrates. Primary kinetic isotope effects were 1.050 +/- 0.006 for [1'N-14C] and 1.021 +/- 0.002 for [1N-15N], the double primary effect of [1'N-14C,1N-15N] was 1.064 +/- 0.002. Secondary kinetic isotope effects were 1.208 +/- 0.014 for [1'N-3H], 1.104 +/- 0.010 for [2'N-3H], 0.989 +/- 0.001 for [4'N-3H], and 1.014 +/- 0.002 for [5'N-3H]. Isotope trapping experiments yielded a commitment factor of 0.01, demonstrating that the observed isotope effects are near intrinsic. Solvent D2O kinetic isotope effects are inverse, consistent with deprotonation of the attacking Cys prior to transition state formation. The transition state structure was determined by a normal mode bond vibrational analysis. The transition state is characterized by a nicotinamide leaving group bond order of 0.14, corresponding to a bond length of 2.06 A. The incoming thiolate nucleophile has a bond order of 0.11, corresponding to 2.47 A. The ribose ring has strong oxocarbenium ion character. Pertussis toxin also catalyzes the slow hydrolysis of NAD+ in the absence of peptides. Comparison of the transition states for NAD+ hydrolysis and for ADP-ribosylation of peptide alphai3C20 indicates that the sulfur nucleophile from the peptide Cys participates more actively as a nucleophile in the reaction than does water in the hydrolytic reaction. Participation of the thiolate anion at the transition state provides partial neutralization of the cationic charge which normally develops at the transition states of N-ribohydrolases and transferases. Thus, the presence of the peptide provides increased SN2 character in a loose transition state which retains oxocarbenium character in the ribose.
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PMID:Pertussis toxin: transition state analysis for ADP-ribosylation of G-protein peptide alphai3C20. 920 66

World leaders from 159 countries agreed at the 1990 World Summit for Children to specific goals which would reduce levels of child and maternal mortality, and give every child access to basic education, clean water, and proper sanitation by 2000. Major progress has since been achieved in most countries, with more than 80% of the world's children now immunized against diphtheria, tetanus, and pertussis. Moreover, the deaths of over 1 million children annually are being averted through the increased use of oral rehydration therapy against diarrheal dehydration, poliomyelitis and guinea worm have almost been eradicated, the consumption of iodized salt is protecting approximately 12 million infants annually from iodine deficiency, and access to safe drinking water is on the rise. Scientific developments in pediatrics, the strengthening of national health services, and the use of cost-effective primary health care approaches such as immunization, oral rehydration therapy, the promotion of breast feeding, and growth monitoring have helped reduce the national rate of infant mortality (IMR) in Turkey to 42 per 1000 live births compared to the urban IMR in Turkey during the 1940s of 300-350/1000. Developments in public health, the Convention on the Rights of the Child (CRC), education and child development, and child protection and the CRC are discussed.
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PMID:The world's children. 943 56

Neuropeptide Y and peptide YY are important central and peripheral modulators of cardiovascular and neuroendocrine functions, that act through multiple receptor subtypes, Y1 through Y5. A neuropeptide Y-binding site of the Y2 type was characterized by ligand-binding studies in isolated nerve terminals from the rat neurohypophysis. Functionally, neuropeptide Y and peptide YY dose-dependently triggered arginine 8-vasopressin and oxytocin release from perfused isolated terminals, and potentiated the arginine-8-vasopressin release induced by depolarization. Osmotic stimulation by salt loading of rats for two and seven days caused a more than three-fold increase in the neuropeptide Y content of the nerve endings. However, the Y2 receptor expression and arginine-8-vasopressin content declined, showing that the neuropeptide Y system is dynamic and suggesting that it plays a physiological role in salt and water homeostasis. Two sets of observations suggest the arginine-8-vasopressin release by neuropeptide Y may not be explained by neuropeptide Y effects on intracellular Ca2+. First, absence of Ca2+ from the perfusion medium did not affect the arginine-8-vasopressin release, and secondly neuropeptide Y did not change intraterminal Ca2+ concentrations. Pretreatment with pertussis toxin blocked arginine-8-vasopressin secretion by neuropeptide Y, suggesting activation of Gi or Go heterotrimeric G-proteins are required for secretion. It is concluded, that the nerve endings of the neurohypophysis contain a complete neuropeptide Y system with ligand and receptors. Neuropeptide Y may act in an autocrine fashion via activation of Y2 neuropeptide Y receptors to stimulate the release of vasopressin and oxytocin via a Gi/Go dependent secretory mechanism.
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PMID:Neuropeptide Y2 receptors on nerve endings from the rat neurohypophysis regulate vasopressin and oxytocin release. 948 7

Pertussis toxin ADP-ribosylates a specific Cys side chain in the alpha-subunit of several G-proteins. Recombinant Gialpha1-subunits were rapidly ADP-ribosylated in the absence of betagamma-subunits, with a Km of 800 microM and a kcat of 40 min-1. Addition of betagamma-subunits decreases Km to 0.3 microM with little change of kcat. Kinetic isotope effects established the transition-state structure for ADP-ribosylation of Gialpha1 subunits. The transition state is dissociative, with a 2.1 A bond to the nicotinamide leaving group and a bond of 2.5 A to the sulfur nucleophile. The nucleophilic participation of Gialpha1 at the transition state is greater than that for water in the hydrolysis of NAD+by pertussis toxin. Crystal structures for Gialpha1 show the Cys nucleophile in a disordered segment or inaccessible for attack on NAD+. Therefore, transition-state formation requires an altered Gialpha1 conformation to expose and ionize Cys. The transition state has been docked into the crystal structure of pertussis toxin in a geometry required for transition state formation.
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PMID:Transition-state structure for the ADP-ribosylation of recombinant Gialpha1 subunits by pertussis toxin. 948 25


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