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)

Angiotensin II (ANG II) stimulates the delayed rectifier K+ current (IK) in neurons cultured from rat hypothalamus and brain stem via AT2 receptors, and this effect involves activation of a Gi protein and protein phosphatase 2A (PP2A). However, there was no evidence that the AT2 receptor involved in this response was the same as the recently cloned AT2 receptor. In the present study, intracellular injection of a 22-amino acid peptide (PEP-22) corresponding to the putative third intracellular loop of the cloned AT2 receptor elicited an increase in IK in cultured neurons that was similar to the effect produced by ANG II. Furthermore, this effect of PEP-22 was abolished by pertussis toxin (200 ng/ml, 24 h) pretreatment and also by superfusion of the PP2A inhibitor okadaic acid (10 nM), suggesting the involvement of Gi protein and PP2A, respectively. Intracellular injection of a random peptide or normal pipette solution did not affect neuronal IK. This is direct evidence to link the cloned AT2 receptor to a defined response elicited by ANG II.
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PMID:Modulation of the delayed rectifier K+ current in neurons by an angiotensin II type 2 receptor fragment. 784 Jan 57

Recent studies have suggested a role for an inhibitory G protein (Gi) and protein phosphatase 2A (PP2A) in the angiotensin II (Ang II) type 2 (AT2) receptor mediated stimulation of neuronal K+ currents. In the present study we have directly analyzed the effects of Ang II on PP2A activity in neurons cultured from newborn rat hypothalamus and brainstem. Ang II elicited time (30 min-24 h)- and concentration (10 nM -1 microM)-dependent increases in PP2A activity in these cells. This effect of Ang II involved AT2 receptors, since it was inhibited by the AT2 receptor selective ligand PD123319 (1 microM), but not by the Ang II type 1 receptor antagonist losartan (1 microM). Furthermore, the stimulatory effects of Ang II on PP2A activity were inhibited by pretreatment of cultures with pertussis toxin (PTX) (200 ng/ml; 24 h) indicating the involvement of an inhibitory G-protein; and by cycloheximide (CHX) (1 microgram/ml; 30 min) indicating a requirement for protein synthesis. These effects of Ang II appear to be via activation of PP2A, since Western Blot analyses revealed no effects of this peptide on the protein levels of the catalytic subunit of PP2A in cultured neurons. In summary, these data suggest that PP2A is a key component of the intracellular pathways coupled to neuronal AT2 receptors.
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PMID:Angiotensin II stimulates protein phosphatase 2A activity in cultured neuronal cells via type 2 receptors in a pertussis toxin sensitive fashion. 872 1

We have found that modification of rat PC12 cells with pertussis toxin resulted in an approximately 50% inhibition of a protein phosphatase 2A-like phosphatase. Protein phosphatase 2A (PP2A) is a major cellular serine/threonine-specific protein phosphatase. Treatment of extracts from pertussis toxin-modified PC12 cells with either immobilized alkaline phosphatase or Ca2+ reversed this inhibition. Reactivation of the PP2A-like phosphatase in Ca2+ appears to result from the dephosphorylation of a protein by the Ca2+/calmodulin-dependent protein phosphatase calcineurin. The PP2A-like phosphatase in extracts from pertussis toxin-modified PC12 cells eluted from a Mono Q column at a higher ionic strength than did the PP2A-like phosphatase in extracts from control cells. After incubation in Ca2+, the PP2A-like phosphatase in extracts from pertussis toxin-modified cells eluted from a Mono Q column at the same ionic strength as did the PP2A-like phosphatase in extracts from control cells. These results indicate that the effect of pertussis toxin on this PP2A-like activity results from the phosphorylation of either one of the subunits of the PP2A-like phosphatase or a protein that when phosphorylated binds to and inhibits this phosphatase. Pertussis toxin modification did not result in the phosphorylation of the catalytic subunit of PP2A. Because phosphorylation regulates the activities of many enzymes and cell surface receptors, a pertussis toxin-induced decrease in PP2A activity could alter signaling pathways and other cellular processes in which G proteins are not directly involved.
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PMID:Pertussis toxin modification of PC12 cells inhibits a protein phosphatase 2A-like phosphatase. 964 72

We have investigated the relationship between norepinephrine secretion and cytoskeletal F-actin in rat phaeochromocytoma PC12 cells. Stimulation of PC12 cells with extracellular ATP or high K+ caused both the release of norepinephrine and a decrease in F-actin. The stimulation of secretion and the decrease in F-actin were dependent on extracellular Ca2+. The addition of Ca2+ to digitonin-permeabilized PC12 cells also stimulated norepinephrine release and decreased F-actin. Modification of PC12 cells with pertussis toxin caused a 35% decrease in F-actin, and it enhanced ATP-stimulated and K+ stimulated norepinephrine secretion from intact cells and Ca(2+)-dependent norepinephrine secretion from permeabilized cells. After down regulation of protein kinase C, pertussis toxin still enhanced secretion, but it had no effect on F-actin indicating that the effect of pertussis toxin on F-actin was dependent on protein kinase C activity. The addition of okadaic acid, an inhibitor of serine/threonine protein phosphatases, to PC12 cells caused a decrease F-actin, but it had no effect on ATP-stimulated or K(+)-stimulated norepinephrine secretion. After down regulation of protein kinase C, much higher concentrations of okadaic acid were need to decrease F-actin. The similarity between the effects of pertussis toxin and low concentrations of okadaic acid suggest that the effect of pertussis toxin on cytoskeletal F-actin in PC12 cells may result from an inhibition of protein phosphatase 2A.
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PMID:Pertussis toxin modification of PC12 cells lowers cytoskeletal F-actin and enhances norepinephrine secretion: involvement of protein kinase C and protein phosphatases. 971 51

1. Histamine acted on H2 receptors in rat parotid tissues and induced the amylase secretion. Immunoblot analysis by using anti-H2 receptor protein antiserum demonstrated that histamine induced the increase and decrease in the amounts of H2 receptor proteins in basolateral and intracellular membranes, respectively. 2. Short-term treatment with histamine resulted in decreases in amylase secretion, the density of H2 receptors and their affinity for the agonists during further incubation with histamine, but showed an unaltered secretory response to isoproterenol, indicating that the histamine-induced desensitization was confined to H2 receptors. 3. This treatment triggered a 20% decrease in the histamine-stimulated adenylate cyclase activity and a 40% decrease in the phosphorylation level of Gi2alpha protein in the tissues, resulting in an increase in pertussis toxin (IAP)-catalyzed ADP-ribosylation of the protein. An enhancement of cholera toxin-catalyzed ADP-ribosylation of Gs protein was observed only during the first incubation with histamine. 4. This treatment triggered a 30% decrease and a 60% increase in the histamine-stimulated activities of protein kinase A and protein phosphatase 2A in the tissues, respectively. 5. Pretreatment with okadaic acid completely blocked the histamine-induced decrease in amylase secretion and increase in IAP-catalyzed ADP-ribosylation of Gi protein. The levels of Gi2alpha and Gs alpha proteins in the tissues were not modified by histamine treatment and the level of Gi2alpha protein was not affected by pretreatment with okadaic acid, as assessed by immunoblot analyses with anti-Gi2alpha and anti-Gs alpha protein antiserum. 6. The regulation of Gi2alpha protein phosphorylation in parotid tissues plays an important role in the histamine-induced desensitization of amylase secretion.
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PMID:Mechanism underlying histamine-induced desensitization of amylase secretion in rat parotid glands. 972 67

In lactating rats, suckling renders mammotropes more responsive to prolactin (PRL)-releasing stimuli and less responsive to PRL-inhibiting secretagogues. We have previously shown that a decrease in the activity of protein phosphatase 2A (PP2A) may be responsible for the decrease in responsiveness to the inhibitory secretagogue dopamine (DA). In our present experiments, we have studied the involvement of the adenylate cyclase (AC), stimulatory and inhibitory GTP-binding proteins and also the role of PP2A in the sensitization phenomenon. Pituitary cells obtained from mother rats separated from their pups for 4 h prior to dispersion (non-suckled), suckled for 10 or 30 min after the separation period (suckled) and without separation (continual suckling) were incubated in the presence of different doses of forskolin to activate AC and DA. In a further study, pituitary cells of non-suckled rats were pretreated with cholera toxin (CTX) or pertussis toxin (PTX) and tested for the stimulatory action of forskolin or TRH on PRL release. Ocadaic acid (OA) pretreatment has been used to investigate the involvement of PP2A. Hormone secretion was measured by the reverse hemolytic plaque assay (RHPA). Our results have shown that cells from non-suckled rats were unresponsive to forskolin. A 10-min suckling stimulus sensitizes pituitary mammotropes to respond with a PRL release to a dose-dependent activation of AC by forskolin. This sensitization of AC becomes a permanent feature of the cells when suckling continues for an additional 20 min. We have also found that pituitary mammotropes from non-suckled dams respond to forskolin or TRH with PRL release when they were preincubated with either PTX or the PP2A inhibitor OA. It clearly indicates that the non-responsive pituitary can be shifted to the responsive stage by uncoupling of inhibitory G-protein from its receptor as well as by inhibition of PP2A. This latter finding, consonant with our previous results, suggests that suckling may cause selective changes in the function of G(i) of mammotropes due to a rapid phosphorylation which can remove tonic, GTP-dependent inhibitory function.
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PMID:Inhibition of protein phosphatase 2A (PP2A) mimics suckling-induced sensitization of mammotropes: involvement of a pertussis toxin (PTX) sensitive G-protein and the adenylate cyclase (AC). 1037 12

Signalling via m3 and m2 receptors in smooth muscles involved activation of two G-protein-dependent pathways by each receptor. m2 receptors were coupled via Gbetagammai3 with activation of phospholipase C-beta3, phosphoinositide 3-kinase and Cdc42/Rac1 (where Cdc stands for cell division cycle) and p21-activated kinase 1 (PAK1), resulting in phosphorylation and inactivation of myosin light chain kinase (MLCK). Each step was inhibited by methoctramine and pertussis toxin. PAK1 activity was abolished in cells expressing both Cdc42-DN (where DN stands for dominant negative) and Rac1-DN. MLCK phosphorylation was inhibited by PAK1 antibody, and in cells expressing Cdc42-DN and Rac1-DN. m3 receptors were coupled via Galpha(q/11) with activation of phospholipase C-beta1 and via RhoA with activation of Rho-associated kinase (Rho kinase), phospholipase D and protein kinase C (PKC). Rho kinase and phospholipase D activities were inhibited by C3 exoenzyme and in cells expressing RhoA-DN. PKC activity was inhibited by bisindolylmaleimide, and in cells expressing RhoA-DN; PKC activity was also inhibited partly by Y27632 (44+/-5%). PKC-induced phosphorylation of PKC-activated 17 kDa inhibitor protein of type 1 phosphatase (CPI-17) at Thr38 was abolished by bisindolylmaleimide and inhibited partly by Y27632 (28+/-3%). Rho-kinase-induced phosphorylation of myosin phosphatase targeting subunit (MYPT1) and was abolished by Y27632. Sustained phosphorylation of 20 kDa regulatory light chain of myosin II (MLC20) and contraction were abolished by bisindolylmaleimide Y27632 and C3 exoenzyme and in cells expressing RhoA-DN. The results suggest that Rho-kinase-dependent phosphorylation of MYPT1 and PKC-dependent phosphorylation and enhancement of CPI-17 binding to the catalytic subunit of MLC phosphatase (MLCP) act co-operatively to inhibit MLCP activity, leading to sustained stimulation of MLC20 phosphorylation and contraction. Because Y27632 inhibited both Rho kinase and PKC activities, it could not be used to ascertain the contribution of MYPT1 to inhibition of MLCP activity. m2-dependent phosphorylation and inactivation of MLCK precluded its involvement in sustained MLC20 phosphorylation and contraction.
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PMID:Differential signalling by muscarinic receptors in smooth muscle: m2-mediated inactivation of myosin light chain kinase via Gi3, Cdc42/Rac1 and p21-activated kinase 1 pathway, and m3-mediated MLC20 (20 kDa regulatory light chain of myosin II) phosphorylation via Rho-associated kinase/myosin phosphatase targeting subunit 1 and protein kinase C/CPI-17 pathway. 1273 88

While it has been shown that the angiotensin type-2 (AT(2)) receptor plays an important role in the development and differentiation of many tissues, the second messengers involved in its signaling pathways are just beginning to be understood. To further determine the signaling pathways for the AT(2) receptor, we have investigated whether human angiotensin type-2 receptor transfected into Chinese hamster ovary (CHO) cells can modulate insulin-induced extracellular signal-related protein kinase (ERK-2) phosphorylation via a G-protein coupled mechanism. Our results indicate that the human AT(2) receptor decreases insulin-induced ERK-2 phosphorylation through a G-protein mediated pathway since inhibition was attenuated by pertussis toxin (a G(i)/G(0) inhibitor). Our findings further indicate that the inhibitory response was insensitive to sodium orthovanadate (a PTPase inhibitor), but sensitive (attenuated) to okadaic acid, suggesting an important role for protein phosphatase 2A (PP2A). We have also shown that alanine substitution of the putative G-protein coupling DRY(141-143) motif of the second intracellular loop significantly decreases the human AT(2) receptor's ability to inhibit insulin-induced ERK-2 phosphorylation. Our results support the hypothesis that the AT(2) receptor inhibits insulin-induced ERK-2 activity via a G-protein coupled pathway involving the up-regulation of PP2A.
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PMID:Human angiotensin II type-2 receptor inhibition of insulin-mediated ERK-2 activity via a G-protein coupled signaling pathway. 1509 86

Re-epithelialization of wounded skin is necessary for wound closure and restoration of barrier function and requires directional keratinocyte migration towards the center of the wound. The electric field (EF) generated immediately upon wounding could be the earliest signal keratinocytes receive to initiate directional migration and healing. Keratinocytes express many beta2-adrenergic receptors (beta2-ARs), but their role in the epidermis is unknown. We have previously shown that beta-AR agonists decrease keratinocyte migration in a cyclic AMP (cAMP) independent mechanism involving the activation of protein phosphatase 2A (PP2A). Here, we ask whether beta2-ARs play a role in keratinocyte galvanotaxis. We report a bimodal response. When keratinocytes were exposed to higher concentrations of beta-AR agonist (0.1 microM), their tracked migratory speed was inhibited, in both the presence (directional migration) and the absence (random migration) of a 100 mV mm(-1) EF, as expected. At lower agonist concentrations (0.1 pM to 0.1 nM), there was no effect on migratory speed; however, all directionality was lost - essentially, cells were 'blinded' to the directional cue. Preincubating the cells with beta-antagonist restored directional migration, demonstrating that the 'blindness' was beta2-AR mediated. Incubation of keratinocytes with agents known to increase intracellular cAMP levels, such as sp-cAMP, pertussis toxin and forskolin, resulted in similar 'blinding' to the EF, whereas random migration was unaffected. The inactive cAMP analog rp-cAMP had no effect on keratinocyte migration, whether directional or random. However, rp-cAMP pretreatment before beta-agonist addition fully restored galvanotaxis, demonstrating the complete cAMP dependence of the attenuation of keratinocyte directional migration. This is the first report that cAMP is capable of mediating keratinocyte galvanotaxis. beta-AR agonists and antagonists could be valuable tools for modulating re-epithelialization, an essential step in the wound-healing process. Thus, beta-ARs regulate the two distinct components of keratinocyte directional migration differently: migration speed via a cAMP-independent mechanism and galvanotaxis by a cAMP-dependent one.
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PMID:Cyclic AMP mediates keratinocyte directional migration in an electric field. 1584 Jun 50

In the present study, we investigated whether extracellular sphingosine 1-phosphate (S1P) is involved in airway hyper-reactivity in bronchial asthma. The effects of S1P on the response to methacholine was examined in the fura-2-loaded strips of guinea pig tracheal smooth muscle using simultaneous recording of the isometric tension and the ratio of fluorescence intensities at 340 and 380 nm (F(340)/F(380)). A 15-min pretreatment with S1P (>100 nM) markedly enhanced methacholine-induced contraction without elevating F(340)/F(380). This effect of S1P was suppressed in the presence of Y-27632 [(R)-(+)-trans-N-(4-pyridyl)-4-(1-aminoethyl)-cyclohexane-carboxamide], a selective inhibitor of Rho-kinase, in a concentration-dependent manner. Moreover, pretreatment with pertussis toxin caused an inhibition in S1P-induced hyper-reactivity to methacholine in a time- and concentration-dependent manner. In contrast, although S1P-induced Ca(2+) mobilization was attenuated by SKF96365 and verapamil, the subsequent response to methacholine was unaffected. A 15-min pretreatment with lower concentrations of S1P (<100 nM), which is clinically attainable, did not increase methacholine-induced contraction. However, when the incubation was lengthened to 6 h, S1P (<100 nM) enhanced the subsequent response to methacholine. Next, application of S1P to cultured human bronchial smooth muscle cells increased the proportion of active RhoA (GTP-RhoA) and phosphorylation of myosin phosphatase target subunit 1 (MYPT1). This phosphorylation of MYPT1 was significantly inhibited by application of Y-27632 and by pretreatment with pertussis toxin. Our findings demonstrate that exposure of airway smooth muscle to S1P results in airway hyper-reactivity mediated by Ca(2+) sensitization via inactivation of myosin phosphatase, which links G(i) and RhoA/Rho-kinase processes.
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PMID:Sphingosine 1-phosphate causes airway hyper-reactivity by rho-mediated myosin phosphatase inactivation. 1710 28


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