Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The myeloid differentiation Ag CD14 is considered to play a critical role in the binding of LPS to monocytes. To determine if differences in LPS-binding capacities of cells could reflect a variability of CD14 molecules, we analyzed the interactions of various reagents with these molecules in human blood monocytes and in promyelocytic (HL60) and monocytic (THP-1) cell lines. The expression of CD14 epitopes was analyzed with the fluorescent anti-CD14 mAbs My4 and LeuM3. Expression of LPS-binding sites (LPS+ molecules) was detected with LPS-FITC. THP-1 cells stimulated with calcitriol (VitD3), as well as the majority of blood monocytes (50-90%) were My4+/LPS+. However, untreated THP-1 cells, and a substantial population (10-50%) of human monocytes from healthy donors, were My4+/LPS-, thus suggesting the existence of CD14 isoforms with different LPS-binding capacities. In line with this assumption, monocytes stimulated with PMA selectively shed LeuM3+ molecules, but almost no My4+ and LPS+ constituents. Analysis of monocytes after treatment with phosphatidylinositol-specific phospholipase C indicated that among CD14 molecules with LPS-binding capacity, some are susceptible and others are resistant to the enzyme, each type being mainly expressed by a different monocyte subset. Studies of uninduced and chemically induced THP-1 cells showed that wheat-germ agglutinin blocked the binding of My4 to constitutive, but not to chemically inducible CD14. The overall results suggest the existence of at least three different forms of CD14, which may reflect different stages of cell maturation.
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PMID:Variation of LPS-binding capacity, epitope expression, and shedding of membrane-bound CD14 during differentiation of human monocytes. 754 22

Tumor necrosis factor alpha (TNF alpha), interleukin 1 beta (IL-1 beta), and endotoxin (LPS) are potent pro-inflammatory mediators which induce multiple and diverse biological responses in a wide variety of cell types. However, these pro-inflammatory mediators also have significant overlap and redundancy in their biological effects. This suggests that there is significant diversity in second messenger signal transduction systems induced by these stimuli to explain the diversity in biological responses, as well as significant redundancy. Here we show that one such second messenger common to several proinflammatory stimuli may be phosphatidic acid (PA). Intracellular PA species, which may have intracellular signaling functions, are rapidly induced in P388 monocytic leukemia cells by TNF alpha, IL-1 beta, or LPS. These PA species vary according to the bond type (i.e., sn-1 ester vs. ether vs. vinyl ether), acyl chain length, and the degree of saturation in the sn-1 and sn-2 positions. Although PA itself may have direct second messenger activities, many of the PA species induced are converted to diacylglycerol species (DG), which are structurally distinct from the DGs generated by phosphatidylcholine-specific phospholipase C (PC-PLC). Lisofylline [(R)-1-(5-hydroxyhexyl)-3,7-dimethylxanthine; LSF] selectively inhibits generation of selected species of PA in P388 cells induced by TNF alpha, IL-1 beta or LPS. TNF alpha-induced sphingomyelin hydrolysis, PLC-mediated PC hydrolysis, and DG kinase-mediated PA formation or TNF alpha-induced NF-kappa B activation and apoptosis are not inhibited by LSF. LSF has a marked protective effect in a variety of acute inflammatory animal models that may be due to inhibition of this shared second messenger pathway involving PA.
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PMID:Potential role for phosphatidic acid in mediating the inflammatory responses to TNF alpha and IL-1 beta. 770 34

Asbestos and silica are well-known fibrogenic dusts. However, there is no comprehensive understanding of the molecular and cellular events that lead to fibrosis as a consequence of asbestos or silica inhalation. Previous studies have shown that asbestos stimulates superoxide anion production in alveolar macrophages through the phospholipase C/protein kinase C pathway. In contrast, silica does not appear to activate this pathway nor stimulate superoxide anion production, but silica does stimulate cytokine release by some undetermined pathway. Therefore, using human alveolar macrophages isolated from normal healthy volunteers, we evaluated the potential involvement of intracellular calcium and tyrosine kinases as potential signal transduction pathways. In the absence of serum, crystalline silica, and to a lesser extent amorphous silica, caused a rapid and dose-dependent elevation of intracellular calcium coming from the extracellular space. However, in the presence of serum, which is required for silica-stimulated cytokine release, neither form of silica caused noticeable elevation of intracellular calcium. Silica, however, did increase the extent of tyrosine phosphorylation, most notably of proteins at approximately 46 and 50 kDa, suggesting activation of a tyrosine kinase pathway. Preincubation of alveolar macrophages for 24 hr with silica-primed human alveolar macrophages for enhanced interleukin-1 beta (IL-1 beta) release stimulated by endotoxin (LPS) that was dose dependent. The enhanced LPS-stimulated release of IL-1 beta correlated with enhanced mitogen-activated protein kinase activity. Taken together, these results indicate that a tyrosine kinase pathway is activated during silica stimulation of human alveolar macrophages.
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PMID:Mechanisms associated with human alveolar macrophage stimulation by particulates. 770 10

Exposure of macrophages to endotoxin (lipopolysaccharide, LPS) leads to a suppression of their capacity to bind LPS and to produce cytokines after reexposure to LPS. This phenomenon is termed endotoxin tolerance, or LPS-induced desensitization. LPS also stimulates the secretion of serine proteases in macrophages, and activates membrane phospholipases. We have investigated the role of trypsin (a serine protease) and of a phosphatidylinositol-specific phospholipase C (PI-PLC, which cleaves GPI-anchored molecules such as CD14), on LPS-induced desensitization. The results obtained by treatment with PI-PLC or in the presence of protease inhibitors, suggested that activation of phospholipases and proteases are not involved in LPS-induced desensitization. However, trypsin treatment of macrophages abolished both LPS binding and cytokine responses. The recovery of macrophages from this trypsin-induced tolerance (restoration of TNF-alpha synthesis without reexpression of LPS-binding sites) was very different from that following LPS-induced tolerance (reexpression of LPS-binding sites without restoration of TNF-alpha synthesis). The results are consistent with the hypothesis that signaling LPS-receptors might be synthesized de novo after trypsin degradation, whereas non-signaling LPS-receptors might be internalized and recycled after preexposure to LPS.
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PMID:Differential recovery of macrophages from endotoxin-tolerant states elicited by lipopolysaccharide and enzymatic treatments. 795 59

Parotin subunit (PS) is a unique glycoprotein, isolated from bovine parotid glands, which possesses the ability to induce polyclonal antibody production and IL-1-like activity. The present studies investigated the existence of receptors for PS on B cell surfaces using PS-affinity chromatography. No PS-binding proteins (PSR) solubilized from human B cell surfaces with Triton X-100 were detected, whereas the PSR released from human B cell membranes with phosphatidylinositol-specific phospholipase C (PI-PLC) treatment were composed of 75- and 40-kDa proteins. PI-PLC treatment markedly reduced polyclonal antibody responses to PS but weakly inhibited the responses to PWM, xanthan gum, and LPS in human and mouse lymphocytes. Addition of PSR caused a dose-related reduction in polyclonal IgM and IgG antibody responses to PS. These results suggest that PSR can act as glycosylphosphatidylinositol-anchored receptors for PS.
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PMID:Parotin subunit as a potent polyclonal B cell activator binds to newly found glycosylphosphatidylinositol (GPI)-anchored proteins on human B cell surfaces. 813 Dec 11

The environmental contaminant 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) has previously been shown to directly suppress humoral immunity in mice when administered either in vivo or to isolated low-density B lymphocytes in culture. Because TCDD-mediated suppression of the antibody forming cell response to both LPS and SRBC was found to require early xenobiotic exposure (i.e., within 3 and 24 hr of antigen addition, respectively), an early B cell activation event is most likely to be affected by TCDD. Antigen recognition via the surface immunoglobulin (sIg) receptor leads to B cell activation and clonal expansion, priming the cell to secrete specific antibody. The signal transduction events triggered by either antigen or anti-Ig antibodies are similar and relatively well characterized in comparison to other models of B cell activation, such as stimulation by LPS or activated T-helper cell membranes. In order to study the potential effects of TCDD on early B cell activation events, we examined murine low-density B cell responses to activation by anti-IgM in the presence of immunosuppressive concentrations of TCDD. Compared to vehicle controls, TCDD inhibited anti-IgM-stimulated proliferative responses but not Ia expression induced by sIgM ligation. In addition, B cell proliferative responses to the combination of PMA and ionomycin were suppressed by up to 50% of control levels at 30 nM TCDD, indicating that TCDD may disrupt signaling pathways distal to phospholipase C. The magnitude of TCDD-induced suppression of the PMA plus ionomycin induced proliferative response was dependent upon the ionomycin concentration but not the PMA concentration, suggesting that TCDD manifests its anti-proliferative effects on B cells by inhibiting calcium-dependent activation.
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PMID:Inhibition of calcium-dependent B cell activation by 2,3,7,8-tetrachlorodibenzo-p-dioxin. 817 34

Protein tyrosine kinases (PTKs) have been implicated in signal transduction in a variety of cell types. B lymphocytes express the genes encoding for eight members of the src family of nonreceptor PTKs. Four of these PTKs (p55blk, p53/56lyn, p59fyn, and p56lck) are activated by the ligation of mIg receptors. The functional roles of these PTKs in membrane-bound immunoglobulins (mIg) receptor-mediated activation of resting B lymphocytes were examined using the PTK inhibitor, herbimycin A. Here we show that mIg receptor-mediated B-cell proliferation and differentiation were inhibited by treatment with herbimycin A, while inhibitor-treated B cells retained LPS (mitogen) responsiveness for proliferation and antibody formation. Further studies demonstrated that herbimycin A blocked the G0 to G1 transition during B-cell activation. When the effects of herbimycin A were directly examined by a kinase activity assay, the enzymatic activity of each PTK was inhibited to varying degrees. The inhibition of PTK activity was also reflected by reduced tyrosine phosphorylation of intracellular substrates, including phospholipase C-gamma. These results implicate PTK-dependent signaling pathways in the mIg receptor-mediated functional activation of B lymphocytes.
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PMID:Inhibition of protein tyrosine kinase activity by herbimycin A prevents anti-mu but not LPS-mediated cell cycle progression and differentiation of splenic B lymphocytes. 839 38

We previously showed that a relatively high dose of LPS induced the selective translocation of protein kinase C-beta (PKC-beta) in LPS-responsive mouse macrophages. This result suggested that phosphatidylinositol-specific phospholipase C (PLC) might be activated in the upstream of PKC-beta. Stimulation of C3H/HeN mouse macrophages by LPS induced the characteristic phosphatidylinositol-1,4,5-trisphosphate (IP3) response, that is, a biphasic response consisting of a rapid increase occurring within the first 1 min, and another increase beginning at around 1 min after stimulation. Only the first response was disappeared when cells were treated with a platelet-activating factor receptor antagonist. LPS-inducible TNF-alpha gene activation, however, was not suppressed by the same antagonist, but suppressed by PKC inhibitors. LPS-stimulated macrophage lysates showed tyrosine phosphorylation of some proteins, and the strongest phosphorylation was observed at molecular mass of 140 kDa. The phosphorylation of this protein started at 40 s after LPS stimulation and continued to increase. Anti-PLC-gamma2 Ab seemed to recognize the same protein as the tyrosine-phosphorylated 140-kDa protein. A low dose of LPS (1 ng/ml) could not induce the tyrosine phosphorylation of this protein. Furthermore, LPS induced only the first phase change, but not the second phase increase in LPS-hyporesponsive C3H/HeJ mouse macrophages. These results indicate that the first phase rapid IP3 change, which is also seen in HeJ macrophages, is mediated via a platelet-activating factor receptor, and is not responsible for TNF-alpha production, while the second phase change mediated by a molecule other than CD14 is responsible for PKC-beta translocation and TNF-alpha production. The results also suggest that the later IP3 change is considered to be mediated through a gamma2 type of phosphatidylinositol-specific PLC.
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PMID:Lipopolysaccharide-induced biphasic inositol 1,4,5-trisphosphate response and tyrosine phosphorylation of 140-kilodalton protein in mouse peritoneal macrophages. 901 81

Fig. 1 depicts our current thinking about the ways in which Mo1 and p150,95 form cis interactions with other leukocyte receptors. With respect to the associations of Mo1 with Fc gamma RIIIB and uPAR, the inhibitory effect of saccharides such as NADG suggests a lectin-carbohydrate interaction that may involve the recognition of Mo1's beta-glucan site for N-linked carbohydrates4 that are expressed by both Fc gamma RIIIB and uPAR. This hypothesis is supported by the results of Stockl et al., who showed that the binding of C-terminal-specific mAb VIM12 to Mo1, which enhances the phospholipase C-mediated release of Fc gamma RIIIB, was inhibited by NADG. However, unlike the sample lectin-carbohydrate interaction that appears to govern the association between Mo1 and Fc gamma RIIIB, effective Mo1-dependent uPAR signaling also depends on the binding of intact uPA to uPAR (the receptor-binding ATF of uPA proving insufficient to prime neutrophils for an enhanced burst response to FMLP). We speculate that ATF (residues 6-135) binds to uPAR while the carboxyl terminal fragment (residues 136-411), which includes a glycosylation site at residue 144, binds to the lectinlike site of Mo1, thus fostering the linkage between the two receptors. In support of this model is the fact that exposure of neutrophils to ATF reduced the degree of molecular proximity between Mo1 and uPAR (the latter probably occupied by endogenous intact uPA) and increased the molecular association between Mo1 and Fc gamma RIIIB (both as detected by quantitative RET). This hypothesis is analogous to the concept proposed by Nykjaer et al in which plasminogen activator inhibitor-1 initially binds to uPA to form a complex that secondarily binds to the alpha 2 macroglobulin receptor, leading to internalization of the complex. Whereas the contribution of intact uPA to the interaction between Mo1 and uPAR remains speculative (based on the indirect data available), no such ambiguity exists for the role of the LPS/LBP ligand in regulating the association between Mo1 and CD14. In this circumstance, no physical linkage exists between the two receptors without the ligand complex. This observation is consistent with the previously described affinity of the beta 2 integrins for LPS, leading to the notion that the LPS portion of the LPS/LPB complex binds to Mo1, serving to link it with LPS/LBP bound to CD14. The observed reversibility of the interactions between the integrin glycoproteins and uPAR or CD14 illustrates the fact that these associations can be highly dynamic and tied to cellular processes that include directed motility (Mo1-uPAR), adherence to substrates (Mo1-CD14), and energy metabolism (p150,95-uPAR). We speculate that the GPI-anchored receptor proteins serve as rapidly diffusible, expendable "scouts" for the beta 2 integrins, which serve to expand their ligand binding repertoire in a cis-acting fashion.
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PMID:Beta 2 (CD11/CD18) integrins can serve as signaling partners for other leukocyte receptors. 914 45

1. Nucleotide-induced currents in untreated (proliferating) and lipopolysaccharide (LPS; 100 ng ml(-1)) treated (non-proliferating) rat microglial cells were recorded by the whole-cell patch-clamp technique. Most experiments were carried out on non-proliferating microglial cells. ATP (100 nM-1 mM), ADP (10 nM-10 mM) and UTP (1 microM-100 mM), but not uridine (100 microM-10 mM) produced a slow outward current at a holding potential of 0 mV. The effect of UTP (1 mM) did not depend on the presence of extracellular Mg2+ (1 mM). The outward current response to UTP (1 mM) was similar in non-proliferating and proliferating microglia. 2. In non-proliferating microglial cells, the ATP (10 microM)-induced outward current was antagonized by suramin (300 microM) or reactive blue 2 (50 microM), whereas 8-(p-sulphophenyl)-theophylline (8-SPT; 100 microM) was inactive. By contrast, the current induced by UTP (1 mM) was increased by suramin (300 microM) and was not altered by reactive blue 2 (50 microM) or 8-SPT (100 microM). 3. The current response to UTP (1 mM) disappeared when K+ was replaced in the pipette solution by an equimolar concentration of Cs+ (150 mM). However, the effect of UTP (1 mM) did not change when most Cl- was replaced with an equimolar concentration of gluconate (145 mM). The application of 4-aminopyridine (1 mM) or Cs+ (1 mM) to the bath solution failed to alter the UTP (1 mM)-induced current. UTP (1 mM) had almost no effect in a nominally Ca2+-free bath medium, or in the presence of charybdotoxin (0.1 microM); the inclusion of U-73122 (5 microM) or heparin (5 mg ml(-1)) into the pipette solution also blocked the responses to UTP (1 mM). By contrast, the effect of ATP (10 microM) persisted under these conditions. 4. I-V relations were determined by delivering fast voltage ramps before and during the application of UTP (1 mM). In the presence of extracellular Cs+ (1 mM) and 4-aminopyridine (1 mM) the UTP-evoked current crossed the zero current level near -75 mV. Omission of Ca2+ from the Cs+ (1 mM)- and 4-aminopyridine (1 mM)-containing bath medium or replacement of K+ by Cs+ (150 mM) in the pipette solution abolished the UTP current. 5. Replacement of GTP (200 microM) by GDP-beta-S (200 microM) in the pipette solution abolished the current evoked by UTP (1 mM). 6. When the pipette solution contained Cs+ (150 mM) instead of K+ and in addition inositol 1,4,5,-trisphosphate (InsP3; 10 microM), an inward current absolutely dependent on extracellular Ca2+ was activated after the establishment of whole-cell recording conditions. This current had a typical delay, a rather slow time course and did not reverse its amplitude up to 100 mV, as measured by fast voltage ramps. 7. A rise of the internal free Ca2+ concentration from 0.01 to 0.5 microM on excised inside-out membrane patches produced single channel activity with a reversal potential of 0 mV in a symmetrical K+ solution. The reversal potential was shifted to negative values, when the extracellular K+ concentration was decreased from 144 to 32 mM. By contrast, a decrease of the extracellular Cl- concentration from 164 to 38 mM did not change the reversal potential. 8. Purine and pyrimidine nucleotides act at separate receptors in rat microglial cells. Pyrimidinoceptors activate via a G protein the enzyme phospholipase C with the subsequent release of InsP3. The depletion of the intracellular Ca2+ pool appears to initiate a capacitative entry of Ca+ from the extracellular space. This Ca2+ then activates a Ca2+-dependent K+ current.
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PMID:Coexistence of purino- and pyrimidinoceptors on activated rat microglial cells. 924 43


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