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1.
Activation of K-Cl cotransport is associated with activation ofmembrane-bound serine/threonine protein phosphatases (S/T-PPases). Wecharacterize red blood cell S/T-PPases and K-Clcotransport activity regarding protein phosphatase inhibitors andresponse to changes in ionic strength and cell size. Proteinphosphatase type 1 (PP1) activity is highly sensitive to calyculin A(CalA) but not to okadaic acid (OA). PP2A activity is highly sensitive to CalA and OA. CalA completely inhibits K-Cl cotransport activity, whereas OA partially inhibits K-Cl cotransport. Membrane PP1 and membrane PP2A activities are elevated in cells suspended in hypotonic solutions, where K-Cl cotransport is elevated. Increases in membrane PP1 activity (62 ± 10% per 100 meq/l) result from decreases in intracellular ionic strength and correlate with increases in K-Cl cotransport activity (54 ± 10% per 100 meq/l). Increasesin membrane PP2A activity (270 ± 77% per 100 mosM) result fromvolume increases and also correlate with increases in K-Cl cotransportactivity (420 ± 47% per 100 mosM). The characteristics ofmembrane-associated PP1 and PP2A are consistent with a role for bothphosphatases in K-Cl cotransport activation in human erythrocytes.

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2.
Volume-sensitive K-Cl cotransport occurs in red blood cells of many species. In intact cells, activation of K-Cl cotransport by swelling requires dephosphorylation of some cell protein, but maximal activity requires the presence of intracellular ATP. We have examined the relation between K-Cl cotransport activity and ATP in ghosts prepared from human red blood cells. K-Cl cotransport activity in swollen ghosts increased by ATP, and the increase requires Mg so that it almost certainly results from the phosphorylation of some membrane component. However, even in ATP-free ghosts residual volume-sensitive K-Cl cotransport can be demonstrated. This residual cotransport in ATP-free ghosts is greater in the presence of vanadate, a tyrosyl phosphatase inhibitor, and in ghosts that contain ATP cotransport is reduced by genistein, a tyrosyl kinase inhibitor. Okadaic acid, an inhibitor of serine and threonine phosphatases, inhibits K-Cl cotransport in ghosts as it does in intact cells. Experiments in which ghosts were preexposed to okadaic acid showed that the protein dephosphorylation that permits K-Cl cotransport can proceed to completion before the ghosts are swollen and K transport measured and therefore dephosphorylation is not a response to ghost swelling. In experiments with ATP-free ghosts we found that phosphorylation is not necessary to increase the cotransport rate when shrunken ghosts are swollen, nor is rephosphorylation necessary to decrease the cotransport rate when swollen ghosts are shrunken. Cotransport is greater in swollen than in shrunken ghosts even when the swollen and shrunken ghosts have the same concentration of cytoplasmic solutes. We conclude that, although phosphorylation and dephosphorylation modify the activity of the cotransporter in swollen and in shrunken ghosts, neither of these processes nor any other known messenger is involved in signal transduction between the cell volume sensor and the cotransporter as originally proposed by Jennings and Al- Rohil (Jennings, M. L., and N. Al-Rohil. 1990. Journal of General Physiology. 95: 1021-1040).  相似文献   

3.
Mg is an importantdeterminant of erythrocyte cation transport system(s) activity. Weinvestigated cation transport in erythrocytes from mice bred for high(MGH) and low (MGL) Mg levels in erythrocytes and plasma. We found thatK-Cl cotransport activity was higher in MGL than in MGH erythrocytes,and this could explain their higher mean corpuscular hemoglobinconcentration, median density, and reduced cell K content. Althoughmouse KCC1 protein abundance was comparable in MGL and MGHerythrocytes, activities of Src family tyrosine kinases were higher inMGH than in MGL erythrocytes. In contrast, protein phosphatase (PP)isoform 1 (PP1) enzymatic activity, which has been suggested toplay a positive regulatory role in K-Cl cotransport, was lower in MGHthan in MGL erythrocytes. Additionally, we found that the Src familykinase c-Fgr tyrosine phosphorylates PP1 in vitro. These findingssuggest that in vivo downregulation of K-Cl cotransport activity by Mgis mediated by enhanced Src family kinase activity, leading toinhibition of the K-Cl cotransport stimulator PP1.

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4.
The interplay between serine/threonine and tyrosine phosphorylation was studied in human neutrophils. The direct effects of calyculin and okadaic acid, potent inhibitors of PP1 and PP2A serine/threonine phosphatases, on the patterns of neutrophil phosphorylation, and their effects on the responses of neutrophils to CD32 cross-linking were monitored. After a 2-min incubation with 10-6 M calyculin, a transient tyrosine phosphorylation of a subset of proteins, among which Cbl and Syk, was observed. After a longer incubation (>5 min) with calyculin, concomitant with an accumulation of serine and threonine phosphorylation, neutrophil responses to CD32 cross-linking were selectively altered. Tyrosine phosphorylation of Cbl in response to CD32 cross-linking was inhibited by calyculin, and this inhibition was linked with a slower electrophoretic mobility of Cbl as a consequence of its phosphorylation on serine/threonine residues. However, tyrosine phosphorylation of Syk and of the receptor itself were not affected. Furthermore, the mobilization of intracellular calcium stimulated by CD32 cross-linking was totally abrogated by calyculin. Finally, the stimulation of superoxide production observed in response to CD32 cross-linking was enhanced in calyculin-treated cells. These results suggest that serine/threonine phosphorylation events regulate the signaling pathways activated by CD32 cross-linking in neutrophils and identify a novel mechanism of modulation of the functional responsiveness of human neutrophils to CD32 cross-linking.  相似文献   

5.
We report efficient methods for using functional proteomics to study signal transduction pathways in mouse fibroblasts following stimulation with PDGF. After stimulation, complete cellular proteins were separated using two-dimensional electrophoresis and phosphorylated proteins were detected with anti-phosphotyrosine and anti-phosphoserine antibodies. About 260 and 300 phosphorylated proteins were detected with the anti-phosphotyrosine and anti-phosphoserine antibodies, respectively, at least 100 of which showed prominent changes in phosphorylation as a function of time after stimulation. Proteins showing major time-dependent changes in phosphorylation were subjected to in-gel digestion with trypsin and identified by mass spectroscopy using MALDI-TOF mass fingerprinting and ESI peptide sequencing. We have observed phosphorylated proteins known to be part of the PDGF signal transduction pathway such as ERK 1, serine/threonine protein kinase akt and protein tyrosine phosphatase syp, proteins such as proto-oncogene tyrosine kinase fgr previously known to participate in other signal transduction pathways, and some proteins such as plexin-like protein with no previously known function in signal transduction. Information about the phosphorylation site was obtained for proto-oncogene tyrosine kinase fgr and for cardiac alpha-actin. The methods used here have proven to be suitable for the identification of time-dependent changes in large numbers of proteins involved in signal transduction pathways.  相似文献   

6.
The high affinity receptor for immunoglobulin (Ig) E on mast cells, along with the antigen receptors on T and B cells and Fc receptors for IgG, belongs to a class of receptors which lack intrinsic kinase activity, but activate non-receptor tyrosine and serine/threonine kinases. Receptor engagement triggers a chain of signaling events leading from protein phosphorylation to activation of phosphatidylinositol-specific phospholipase C, an increase in intracellular calcium levels, and ultimately the activation of more specialized functions. IgE receptor disengagement leads to reversal of phosphorylation by undefined phosphatases and to inhibition of activation pathways. Here we show that phenylarsine oxide, a chemical which reacts with thiol groups and has been reported to inhibit tyrosine phosphatases, uncouples the IgE receptor-mediated phosphorylation signal from activation of phosphatidyl inositol metabolism, the increase in intracellular calcium levels, and serotonin release. Phenylarsine oxide inhibits neither the kinases (tyrosine and serine/threonine) phosphorylating the receptor and various cellular substrates nor, unexpectedly, the phosphatases responsible for the dephosphorylation following receptor disengagement. By contrast, it abolishes the receptor-mediated phosphorylation of phospholipase C-gamma 1, but not phospholipase C activity in vitro. Therefore the phosphorylation and activation of phospholipase C likely requires a phenylarsine oxide-sensitive element. Receptor aggregation thus activates at least two distinct phosphorylation pathways: a phenylarsine oxide-insensitive pathway leading to phosphorylation/dephosphorylation of the receptor and of various substrates and a sensitive pathway leading to phospholipase C-gamma 1 phosphorylation.  相似文献   

7.
To investigate the functional significance of epidermal growth factor (EGF) receptor phosphorylation, experimental systems were explored in which receptor phosphorylation on tyrosine and serine/threonine could be differentially stimulated. Exposure of A431 cells to 20 nM EGF at 37 degrees C results in phosphorylation of serine, threonine, and tyrosine sites on the receptor. Monoclonal antibody (mAb) 225 binds to the EGF receptor with affinity comparable to EGF and competes with the binding of EGF. Exposure of A431 cells to 20 nM EGF in the presence of 300 nM anti-EGF receptor mAb 225 (15-fold excess) selectively activated serine and threonine phosphorylation of the receptor, but not tyrosine phosphorylation. This observation indicates that EGF-mediated receptor phosphorylation on tyrosine and on serine/threonine residues is dissociable. The intracellular fate of the EGF receptor was examined under conditions that produce different phosphorylation states of receptor amino acids. Exposure of A431 cells to EGF decreased the half-life (T1/2) of the receptor from 17.8 h to 5.6 h, with activation of tyrosine, serine, and threonine phosphorylation. Incubation with mAb 225 augmented the degradation rate (T1/2 = 8.5 h) without activation of receptor phosphorylation. Concurrent exposure to EGF (20 nM) and mAb 225 (300 nM) resulted in comparable enhanced degradation (T1/2 = 9.5 h), with increased phosphorylation only on serine and threonine residues. These results suggest that serine/threonine phosphorylation is irrelevant to the augmentation of receptor degradation. Methylamine, an inhibitor of lysosomal function that did not affect phosphorylation of the EGF receptor, completely protected EGF receptors from rapid degradation induced by EGF, but it only slightly altered the rate of EGF receptor degradation elicited by mAb 225 or by EGF plus 15-fold excess mAb 225. In contrast, mAb 455, which binds to the receptor but does not inhibit EGF binding and EGF-induced activation of phosphorylation on tyrosine, serine, and threonine residues, did not influence EGF-induced rapid, methylamine sensitive degradation of EGF receptor. The results suggest that when EGF receptors are internalized under conditions that do not activate the receptor tyrosine kinase, they are sorted into a nonlysosomal pathway that differs from the methylamine-sensitive lysosomal pathway traversed following activation by EGF. The data indicate the possibility of a function for tyrosine kinase activation and tyrosine autophosphorylation in determining the lysosomal intracellular pathway of EGF receptor processing and degradation.  相似文献   

8.
9.
Type 1 interferons (including IFNα/β) activate their cell surface receptor to induce the intracellular signal transduction pathways that play an important role in host defenses against infectious agents and tumors. The extent of cellular responses to IFNα is limited by several important mechanisms including the ligand-stimulated and specific serine phosphorylation-dependent degradation of the IFNAR1 chain of Type 1 IFN receptor. Previous studies revealed that acceleration of IFNAR1 degradation upon IFN stimulation requires activities of tyrosine kinase TYK2 and serine/threonine protein kinase D2 (PKD2), whose recruitment to IFNAR1 is also induced by the ligand. Here we report that activation of PKD2 by IFNα (but not its recruitment to the receptor) depends on TYK2 catalytic activity. PKD2 undergoes IFNα-inducible tyrosine phosphorylation on specific phospho-acceptor site (Tyr-438) within the plekstrin homology domain. Activated TYK2 is capable of facilitating this phosphorylation in vitro. Tyrosine phosphorylation of PKD2 is required for IFNα-stimulated activation of this kinase as well as for efficient serine phosphorylation and degradation of IFNAR1 and ensuing restriction of the extent of cellular responses to IFNα.  相似文献   

10.
Recent data show that TCR/CD3 stimulation induces activation of Stat5 in murine T cells. Here, we show that CD3 ligation by mAb and Staphylococcal enterotoxin (SE) induce a rapid, gradually accumulating, long-lasting tyrosine, and serine phosphorylation of Stat3 (but not Stat5) in allogen-specific human CD4+ T cell lines. In contrast, IL-2 induces a rapid and transient tyrosine and serine phosphorylation of Stat3. Compared with IL-2, CD3 ligation induces a delayed Stat3 binding to oligonucleotide probes from the ICAM-1 and IL-2R alpha promoter. CD3-mediated activation of Stat3 is almost completely inhibited by a Src kinase inhibitor (PP1), whereas IL-2-induced Stat3 activation is unaffected. In conclusion, we show that CD3 ligation by mAb and SE triggers a rapid, PP1-sensitive tyrosine and serine phosphorylation of Stat3 in human CD4+ T cells. Moreover, we provide evidence that TCR/CD3 and IL-2 induce Stat3 activation via distinct signaling pathways.  相似文献   

11.
Pawlowski M  Ragab A  Rosa JP  Bryckaert M 《FEBS letters》2002,521(1-3):145-151
Thrombin-induced extracellular signal-regulated kinase 2 (ERK2) activation is negatively regulated in conditions of all bP3 integrin engagement and platelet aggregation. Here we show by Western blotting with antibodies against mono- and biphosphorylated forms of ERK2 that the dephosphorylation of ERK2 by alpha llb beta 3 engagement affects threonine183 and not tyrosine185. Addition of a potent serine/threonine phosphatase inhibitor, okadaic acid (OA), restored thrombin-induced threonine phosphorylation of ERK2 in conditions of platelet aggregation, whereas OA had no effect in the absence of alpha llb beta 3 engagement. These observations are consistent with alpha llb beta 3 engagement acting via at least one serine/threonine phosphatase,which dephosphorylates the phosphothreonine183 residue of ERK2. Moreover, a small amount (14%) of ERK2 was translocated to the alpha llb beta 3-dependent cytoskeleton, mostly ina monophosphorylated (i.e. inactive) form, suggesting that cytoskeleton-associated ERK2 plays only a minor role, if any. Finally, we show that negative regulation (i.e. dephosphorylation)occurs primarily or totally in the cytosol and that the alpha llb beta 3-dependent ERK2 Thr183-specific phosphatase is different from phosphatase 1 (PP1) or PP2A. We conclude that all alpha llb beta 3 engagement down-regulates ERK2 through selective dephosphorylation of the phosphothreonine183 residue by a cytosolic serine/threonine phosphatase different from known platelet phosphatases.  相似文献   

12.
K-Cl cotransport, theelectroneutral-coupled movement of K and Cl ions, plays an importantrole in regulatory volume decrease. We recently reported that nitrite,a nitric oxide derivative possessing potent vasodilation properties,stimulates K-Cl cotransport in low-K sheep red blood cells (LK SRBCs).We hypothesized that activation of vascular smooth muscle (VSM) K-Clcotransport by vasodilators decreases VSM tension. Here we tested thishypothesis by comparing the effects of commonly used vasodilators,hydralazine (HYZ), sodium nitroprusside, isosorbide mononitrate, andpentaerythritol, on K-Cl cotransport in LK SRBCs and in primarycultures of rat VSM cells (VSMCs) and of HYZ-induced K-Clcotransport activation on relaxation of isolated porcine coronaryrings. K-Cl cotransport was measured as the Cl-dependent K efflux or Rbinflux in the presence and absence of inhibitors for other K/Rbtransport pathways. All vasodilators activated K-Cl cotransport in LKSRBCs and HYZ in VSMCs, and this activation was inhibited by calyculinand genistein, two inhibitors of K-Cl cotransport. KT-5823, a specificinhibitor of protein kinase G, abolished the sodiumnitroprusside-stimulated K-Cl cotransport in LK SRBCs, suggestinginvolvement of the cGMP pathway in K-Cl cotransport activation.Hydralazine, in a dose-dependent manner, and sodium nitroprussiderelaxed (independently of the endothelium) precontractedarteries when only K-Cl cotransport was operating and other pathwaysfor K/Rb transport, including the Ca-activated K channel, wereinhibited. Our findings suggest that K-Cl cotransport may be involvedin vasodilation.

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13.
The Na+, K+-ATPase or Na+, K+-pump plays a critical role in ion homeostasis and many cellular events. The Na+, K+-pump activity is regulated by serine/threonine phosphorylation, the role of tyrosine kinases in the regulation, however, is obscure. We now present novel evidence showing that tyrosine phosphorylation activates the Na+, K+-pump in cortical neurons. The electrogenic activity of the Na+, K+-pump was measured using whole-cell voltage clamp. A tonic activity was revealed by an inward current induced by the specific inhibitor ouabain or strophanthidin; an outward current due to activation of the pump was triggered by raising extracellular K+. The inward and outward currents were attenuated by the tyrosine kinase inhibitor genistein, herbimycin A, or lavendustin A, while blocking tyrosine phosphatases increased the pump current. Down-regulation of the pump current was also seen with the Src inhibitor PP1 and intracellularly applied anti-Lyn or anti-Yes antibody. Consistently, intracellular application of Lyn kinase up-regulated the pump current. Immunoprecipitation and western blotting showed tyrosine phosphorylation and a direct interaction between Lyn and the alpha3 subunit of the Na+, K+-pump. The tyrosine phosphorylation of the alpha3 subunit was reduced by serum deprivation. These data suggest that the Na+, K+-ATPase activity in central neurons is regulated by specific Src tyrosine kinases via a protein-protein mechanism and may play a role in apoptosis.  相似文献   

14.
The regulation of protein phosphorylation requires coordinated interaction between protein kinases and protein phosphatases (PPs). Recent evidence has shown that the Galphaq-protein-coupled metabotropic glutamate receptor (mGluR) 5 up-regulates phosphorylation of MAPK/ERK1/2. However, signaling mechanisms linking mGluR5 to ERK are poorly understood. In this study, roles of a major serine/threonine PP, PP2A, in this event were evaluated in cultured neurons. We found that the PP1/2A inhibitors okadaic acid and calyculin A mimicked the effect of the mGluR5 agonists (RS)-3,5-dihydroxyphenylglycine and (RS)-2-chloro-5-hydroxyphenylglycine in facilitating phosphorylation of ERK1/2 and its upstream kinase, MEK1/2, in a PP2A-dependent but not PP1-dependent manner. Co-administration of either inhibitor with an mGluR5 agonist produced additive phosphorylation of ERK1/2. Enzymatic assays showed a basal level of phosphatase activity of PP2A under normal conditions, and activation of mGluR5 selectively inhibited PP2A, but not PP1, activity. In addition, a physical association of the cytoplasmic C terminus of mGluR5 with PP2A was observed, and ligand activation of mGluR5 reduced mGluR5-PP2A binding. Additional mechanistic studies revealed that mGluR5 activation increased tyrosine (Tyr307) phosphorylation of PP2A, which was dependent on activation of a p60c-Src family tyrosine kinase, but not the epidermal growth factor receptor tyrosine kinase and resulted in dissociation of PP2A from mGluR5 and reduced PP2A activity. Together, we have identified a novel, mGluR5-triggered signaling mechanism involving use- and Src-dependent inactivation of PP2A, which contributes to mGluR5 activation of MEK1/2 and ERK1/2.  相似文献   

15.
Hypertonic shrinkage of dog red cells caused rapid activation of Na/H exchange and rapid deactivation of [K-Cl] cotransport. Hypotonic swelling caused delayed deactivation of Na/H exchange and delayed activation of [K-Cl] cotransport. Okadaic acid stimulated shrinkage-induced Na/H exchange and inhibited swelling-induced [K-Cl] cotransport. The data are compatible with the kinetic model of Jennings and Al-Rohil (1990. J. Gen. Physiol. 95:1021-1040) for volume regulation of [K-Cl] cotransport in rabbit red cells and suggest that in dog red cells Na/H exchange and [K-Cl] cotransport are controlled by a common regulatory system. The proposal of Jennings and Schulz (1991. J. Gen. Physiol. 96:799-817) that activation/deactivation of volume-sensitive transport involves phosphorylation/dephosphorylation of a regulatory protein is supported by these observations.  相似文献   

16.
An increase in the intracellular cAMP concentration induces tyrosine phosphorylation of the epidermal growth factor receptor (EGFR) followed by activation of extracellular signal-regulated kinases 1/2 (ERK1/2). In this report we demonstrate that these effects of cAMP are mediated via activation of protein kinase A (PKA). Chemical inhibition of PKA suppressed forskolin-induced EGFR tyrosine phosphorylation and ERK1/2 activation in PC12 cells. Furthermore, forskolin failed to induce significant tyrosine phosphorylation of the EGFR and ERK1/2 activation in PKA-defective PC12 cells. Forskolin-induced EGFR tyrosine phosphorylation was also observed in A431 cells and in membranes isolated from these cells. Phosphoamino acid analysis indicated that the recombinant catalytic subunit of PKA elicited phosphorylation of the EGFR on both tyrosine and serine but not threonine residues in A431 membranes. Together, our data indicate that activation of PKA mediates the effects of cAMP on the EGFR and ERK1/2. While PKA may directly phosphorylate the EGFR on serine residues, PKA-induced tyrosine phosphorylation of the EGFR occurs by an indirect mechanism.  相似文献   

17.
《The Journal of cell biology》1994,126(4):1111-1121
Stimulation of adherent human neutrophils (PMN) with tumor necrosis factor (TNF) triggers protein tyrosine phosphorylation (Fuortes, M., W. W. Jin, and C. Nathan. 1993. J. Cell Biol. 120:777-784). We investigated the dependence of this response on beta 2 integrins by using PMN isolated from a leukocyte adhesion deficiency (LAD) patient, which do not express beta 2 integrins, and by plating PMN on surface bound anti-beta 2 (CD18) antibodies. Protein tyrosine phosphorylation increased in PMN plated on fibrinogen and this phosphorylation was enhanced by TNF. Triggering of protein tyrosine phosphorylation did not occur in LAD PMN plated on fibrinogen either in the absence or the presence of TNF. Surface bound anti-CD18, but not isotype-matched anti- Class I major histocompatibility complex (MHC) antigens, antibodies triggered tyrosine phosphorylation in normal, but not in LAD PMN. As the major tyrosine phosphorylated proteins we found in our assay conditions migrated with an apparent molecular mass of 56-60 kD, we investigated whether beta 2 integrins are implicated in activation of members of the src family of intracellular protein-tyrosine kinases. We found that the fgr protein-tyrosine kinase (p58fgr) activity, and its extent of phosphorylation in tyrosine, in PMN adherent to fibrinogen, was enhanced by TNF. Activation of p58fgr in response to TNF was evident within 10 min of treatment and increased with times up to 30 min. Also other activators of beta 2 integrins such as phorbol-12- myristate 13-acetate (PMA), and formyl methionyl-leucyl-phenylalanine (FMLP), induced activation of p58fgr kinase activity. Activation of p58fgr kinase activity, and phosphorylation in tyrosine, did not occur in PMN of a LAD patient in response to TNF. Soluble anti-CD18, but not anti-Class I MHC antigens, antibodies inhibited activation of p58fgr kinase activity in PMN adherent to fibrinogen in response to TNF, PMA, and FMLP. These findings demonstrate that, in PMN, beta 2 integrins are implicated in triggering of protein tyrosine phosphorylation, and establish a link between beta 2 integrin-dependent adhesion and the protein tyrosine kinase fgr in cell signaling.  相似文献   

18.
RACK1 is an intracellular receptor for the serine/ threonine protein kinase C. Previously, we demonstrated that RACK1 also interacts with the Src protein-tyrosine kinase. RACK1, via its association with these protein kinases, may play a key role in signal transduction. To further characterize the Src-RACK1 interaction and to analyze mechanisms by which cross-talk occurs between the two RACK1-linked signaling kinases, we identified sites on Src and RACK1 that mediate their binding, and factors that regulate their interaction. We found that the interaction of Src and RACK1 is mediated, in part, by the SH2 domain of Src and by phosphotyrosines in the sixth WD repeat of RACK1, and is enhanced by serum or platelet-derived growth factor stimulation, protein kinase C activation, and tyrosine phosphorylation of RACK1. To the best of our knowledge, this is the first report of tyrosine phosphorylation of a member of the WD repeat family of proteins. We think that tyrosine phosphorylation of these proteins is an important mechanism of signal transduction in cells.  相似文献   

19.
TAK1 (transforming growth factor beta-activated kinase 1) is a serine/threonine kinase that is a mitogen-activated protein kinase kinase kinase and an essential intracellular signaling component in inflammatory signaling pathways. Upon stimulation of cells with inflammatory cytokines, TAK1 binds proteins that stimulate autophosphorylation within its activation loop and is thereby catalytically activated. This activation is transient; it peaks within a couple of minutes and is subsequently down-regulated rapidly to basal levels. The mechanism of down-regulation of TAK1 has not yet been elucidated. In this study, we found that toxin inhibition of type 2A protein phosphatases greatly enhances interleukin 1 (IL-1)-dependent phosphorylation of Thr-187 in the TAK1 activation loop as well as the catalytic activity of TAK1. From proteomic analysis of TAK1-binding proteins, we identified protein phosphatase 6 (PP6), a type-2A phosphatase, and demonstrated that PP6 associated with and inactivated TAK1 by dephosphorylation of Thr-187. Ectopic and endogenous PP6 co-precipitated with TAK1, and expression of PP6 reduced IL-1 activation of TAK1 but did not affect osmotic activation of MLK3, another MAPKKK. Reduction of PP6 expression by small interfering RNA enhances IL-1-induced phosphorylation of Thr-187 in TAK1. Enhancement occurred without change in levels of PP2A showing specificity for PP6. Our results demonstrate that PP6 specifically down-regulates TAK1 through dephosphorylation of Thr-187 in the activation loop, which is likely important for suppressing inflammatory responses via TAK1 signaling pathways.  相似文献   

20.
The mechanisms mediating and regulating assembly and disassembly of intercellular junctions is a subject of intensive research. The IgG autoantibodies produced in patients with the immunoblistering skin disease pemphigus vulgaris (PV) can induce keratinocyte (KC) dyshesion (acantholysis) via mechanisms that involve signaling kinases targeting intercellular adhesion molecules, thus providing a useful model to study the physiologic regulation of KC cohesion. Previous studies showed that activation of Src and protein kinase C are the earliest events in the PV IgG-induced intracellular phosphorylation cascades and that cholinergic agonists are effective for treating patients with pemphigus. In this study, we sought to elucidate the molecular mechanisms allowing cholinergic agonists to inhibit PV IgG-induced acantholysis and phosphorylation of KC adhesion molecules. The extent of acantholysis in KC monolayers correlated closely with the degree of PV IgG-induced phosphorylation of p120- and beta-catenins, with classic isoforms of protein kinase C mediating serine phosphorylation of beta-catenin and Src-tyrosine phosphorylation of p120-catenin. The M(1) muscarinic agonist pilocarpine blocked phosphorylation of both catenins, which could be abolised by the M(1) antagonist MT7. The alpha7 nicotinic agonist AR-R17779 inhibited phosphorylation of P120-cateinin. The alpha7 antagonist methyllycaconitine abolished the effect of AR-R17779. Okadaic acid abrogated protective effects of agonists on phosphorylation of beta-catenin, and pervanadate, on that of p120-catenin. Stimulation of KCs with pilocarpine significantly (p < 0.05) elevated both serine/threonine and tyrosine phosphatase activities in KCs. AR-R17779 both stimulated tyrosine phosphatase and decreased PV IgG-induced Src activity. Methyllycaconitine released Src activity in intact KCs and caused acantholysis. Thus, downstream signaling from M(1) abolished PV IgG-dependent catenin phosphorylation due to activation of both serine/threonine and tyrosine phosphatases, whereas alpha7 action involved both activation of tyrosine phosphatase and inhibition of Src. These findings identified novel paradigm of regulation of signaling kinases associated with cholinergic receptors and provided mechanistic explanation of therapeutic activity of cholinomimetics in PV patients.  相似文献   

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