UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HIV-1 infection of the central nervous system can cause severe neurologic disease although only microglial cells and brain macrophages are susceptible to productive viral infection. Substances secreted by infected cells are thought to cause disease indirectly. Tumor necrosis factor alpha (TNF-alpha) is one candidate neurotoxin and is upregulated during HIV-1 infection of the brain, likely via activation of the transcription factor NF-kappaB. We used the proteasome inhibitors, MG132 and ALLN (N-acetyl-Leu-Leu-Norleucinal), to inhibit NF-kappaB activation in primary human fetal microglia (PHFM) and primary monocyte derived-macrophages, and showed that they could block TNF-alpha release stimulated by lipopolysaccharide (LPS) or TNF-alpha. In addition, we performed electrophoretic mobility shift analysis and determined that in microglia, the p50/p65 heterodimer of NF-kappaB is activated by LPS stimulation, and is inhibited by MG132. Thus, blockade of NF-kappaB activation in microglia in vitro can decrease production of TNF-alpha and may prove to be a novel strategy for treating HIV-1 dementia.
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PMID:Proteasome blockers inhibit TNF-alpha release by lipopolysaccharide stimulated macrophages and microglia: implications for HIV-1 dementia. 1022 15

Anthrax lethal toxin (LeTx), consisting of protective antigen (PA) and lethal factor (LF), rapidly kills primary mouse macrophages and macrophage-like cell lines such as RAW 264.7. LF is translocated by PA into the cytosol of target cells, where it acts as a metalloprotease to cleave mitogen-activated protein kinase kinase 1 (MEK1) and possibly other proteins. In this study, we show that proteasome inhibitors such as acetyl-Leu-Leu-norleucinal, MG132, and lactacystin efficiently block LeTx cytotoxicity, whereas other protease inhibitors do not. The inhibitor concentrations that block LF cytotoxicity are similar to those that inhibit the proteasome-dependent IkappaB-alpha degradation induced by lipopolysaccharide. The inhibitors did not interfere with the proteolytic cleavage of MEK1 in LeTx-treated cells, indicating that they do not directly block the proteolytic activity of LF. However, the proteasome inhibitors did prevent ATP depletion, an early effect of LeTx. No overall activation of the proteasome by LeTx was detected, as shown by the cleavage of fluorogenic substrates of the proteasome. All of these results suggest that the proteasome mediates a toxic process initiated by LF in the cell cytosol. This process probably involves degradation of unidentified molecules that are essential for macrophage homeostasis. Moreover, this proteasome-dependent process is an early step in LeTx intoxication, but it is downstream of the cleavage by LF of MEK1 or other putative substrates.
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PMID:Proteasome activity is required for anthrax lethal toxin to kill macrophages. 1033 20

The ubiquitin/proteasome pathway mediates the degradation of many short-lived proteins that are critically involved in the regulation of cell proliferation and cell death, including the tumor suppressor protein p53. Accumulation of p53 and induction of apoptosis in RAW 264.7 macrophages in response to nitric oxide are well established. However, the molecular mechanisms involved in nitric oxide-induced p53 accumulation are unknown. Here we show that, similar to nitric oxide, treatment of macrophages with specific proteasome inhibitors, including clastolactacystin-beta-lactone, induces p53 accumulation and apoptosis, suggesting that nitric oxide may affect the activity of the proteasome. In support of this hypothesis, both exposure of cells to S-nitrosoglutathione and stimulation of endogenous nitric oxide production by lipopolysaccharide/interferon-gamma treatment result in inhibition of proteasome activity as measured in vitro by the degradation of the proteasome-specific substrate succinyl-Leu-Leu-Val-Tyr-4-methylcoumarin-7-amide. Moreover, chemically diverse nitric oxide donors interfere with proteasome-mediated degradation of polyubiquitinated p53 in vitro. These data imply that nitric oxide-induced apoptosis and accumulation of p53 are, at least in part, mediated by inhibition of the proteasome.
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PMID:Activation of the cell death program by nitric oxide involves inhibition of the proteasome. 1039 92

Recently isolated trophoblasts express nitric oxide synthase 2 (NOS-2) and cyclooxygenase 2 (COX-2), decreasing the levels of the corresponding mRNAs when the cells were maintained in culture. The sustained expression of COX-2 and NOS-2 in trophoblasts was dependent on the activation of nuclear factor kappaB (NF-kappaB) since proteasome inhibitors and antioxidants that abrogated NF-kappaB activity suppressed the induction of both genes. The time-dependent fall of the mRNA levels of NOS-2 and COX-2 paralleled the inhibition of NF-kappaB, determined by electrophoretic mobility shift assays, and the increase of the IkappaBalpha and IkappaBbeta inhibitory proteins. Isolated trophoblasts synthesized reactive oxygen intermediates (ROI), a process impaired after culturing the cells, and that might be involved in the NF-kappaB activation process. Moreover, treatment of recently isolated cells with ROI scavengers suppressed the expression of COX-2 and NOS-2. Challenge of trophoblasts with interleukin-1beta up-regulated the expression of both proteins, an effect that was potentiated by lipopolysaccharide. These results indicate that the physiological expression of NOS-2 and COX-2 in trophoblasts involves a sustained activation of NF-kappaB which inhibition abrogates the inducibility of both genes.
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PMID:Requirement of nuclear factor kappaB for the constitutive expression of nitric oxide synthase-2 and cyclooxygenase-2 in rat trophoblasts. 1046 30

The proteasome has been implicated in systemic responses to infection or inflammatory stimuli including catabolism of skeletal muscle. Cytokines including tumor necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) are known to be elevated systemically and locally under these conditions. They are also known to be potent inducers of three peptide subunits of the proteasome, including LMP7, that replace constitutively expressed subunits and change enzymatic properties. To determine whether endotoxemia alters the expression of inducible proteasome subunits, we examined the levels of LMP7 in tissues from rats 3 days after the injection of lipopolysaccharide (LPS) or normal saline solution (NS). By both immunoblotting and immunohistochemistry, significant increases in levels of LMP7 were observed in the heart, kidney, and lung of animals given LPS as compared with results in NS-treated animals, whereas immunoblotting revealed no changes in LMP7 levels in skeletal muscle or brain. Increased expression of LMP7 was limited to certain subpopulations of cells and was further localized at the subcellular level. Decreases in organ weight were also documented for organs in which the expression of LMP7 was up-regulated. Systemic or local release of cytokines or other proinflammatory mediators is suggested as the most likely mechanism for changes in LMP7 expression during endotoxemia. Changes in LMP7 expression may have functional consequences that contribute to organ dysfunction during systemic responses to infection and inflammatory stimuli.
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PMID:Up-regulation of the proteasome subunit LMP7 in tissues of endotoxemic rats. 1077 48

Expression of inflammatory nitric oxide synthase (NOS2) is mediated by transcription factor NFkappaB. By using the specific proteasome inhibitor lactacystin to examine IkappaB degradation, we observed a paradoxical increase in lipopolysaccharide- and cytokine-dependent NOS2 expression at low concentrations or when lactacystin was added subsequent to cytokines. Lactacystin reduced the initial accumulation of NOS2 mRNA but reduced its subsequent decrease. Lactacystin increased NOS2 promoter activation after 24 h, but not after 4 h, and similarly prevented initial NFkappaB activation and at later times caused NFkappaB reactivation. Lactacystin reduced initial degradation of IkappaB-alpha and IkappaB-beta, however, at later times selectively increased IkappaB-beta, which was predominantly non-phosphorylated. Expression of full-length rat IkappaB-beta, but not a carboxyl-terminal truncated form, inhibited NOS2 induction and potentiation by lactacystin. Lactacystin increased IkappaB-beta expression in the absence of NOS2 inducers, as well as expression of heat shock protein 70, and the heat shock response due to hyperthermia increased IkappaB-beta expression. These results suggest that IkappaB-beta contributes to persistent NFkappaB activation and NOS2 expression in glial cells, that IkappaB-beta is a stress protein inducible by hyperthermia or proteasome inhibitors, and that delayed addition of proteasome inhibitors can have stimulatory rather than inhibitory actions.
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PMID:Inhibitory and stimulatory effects of lactacystin on expression of nitric oxide synthase type 2 in brain glial cells. The role of Ikappa B-beta. 1082 92

Interleukin-1beta is a secreted protein that accumulates in the cytosol as an inactive precursor (pIL-1beta) before processing and release of biologically active protein. To understand the impact of this property on IL-1beta production, we examined the intracellular stability of pIL-1beta in lipopolysaccharide (LPS)-stimulated human monocytes. Precursor IL-1beta was degraded with a relatively short half-life of 2.5 h in the promonocytic cell line, THP-1, and in primary monocytes. MG132 (carbobenzoxyl-leucinyl-leucinyl-leucinal) stabilized pIL-1beta levels in THP-1 cells, suggesting that degradation was proteasome-mediated, but this inhibitor was toxic for primary monocytes, causing release of pIL-1beta as well as the cytoplasmic enzyme, lactate dehydrogenase (LDH) into supernatants. In contrast, clasto-lactacystin beta-lactone, a specific inhibitor of the proteasome, caused a dose-dependent stabilization of intracellular pIL-1beta, and this led to a corresponding increase in mIL-1beta and pIL-1beta but not LDH release into culture supernatants. Therefore, by regulating intracellular levels of precursor IL-1beta, the proteasome plays an important and previously unrecognized role in controlling the amount of biologically active IL-1beta that is exported by activated monocytes.
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PMID:Proteasome-mediated regulation of interleukin-1beta turnover and export in human monocytes. 1091

It has been demonstrated from studies using NF-kappaB inhibitors that NF-kappaB may be involved in the iNOS induction stimulated by cytokines and/or lipopolysaccharide (LPS) in various cell types and tissues. However, the actions of the inhibitors are less selective and highly cytotoxic. We constructed stable clones of C6 cells transfected with two types of IkappaBalpha mutant genes (IkappaBalpha(SS --> AA); Ser-32/36 to Ala-32/36, IkappaBalpha(KK --> RR); Lys-21/22 to Arg-21/22). IkappaBalpha(SS --> AA) strongly inhibited (1) LPS-, IL-1beta-, and TNF-alpha-induced nuclear translocation and DNA binding of NF-kappaB to the kappaB site; and (2) iNOS induction stimulated by LPS or IL-1beta plus IFN-gamma. These results indicate that NF-kappaB plays a critical role in cytokines and/or LPS-induced iNOS induction. Surprisingly, similar to the endogenous IkappaBalpha, IkappaBalpha(KK --> RR) was degraded by various stimuli, and proteasome inhibitors blocked this event. These results suggest that another Lys residue(s), other than Lys-21/22, may be required for the ligand-induced IkappaBalpha degradation by the ubiquitin-proteasome pathway.
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PMID:Involvement of nuclear factor-kappaB (NF-kappaB) signaling in the expression of inducible nitric oxide synthase (iNOS) gene in rat C6 glioma cells. 1096 56

We investigated the expression of interferon gamma (IFN-gamma)-regulated subunits and the enzymatic activity of proteasomes purified from tumor-derived and normal B lymphocytes representing different stages of B-cell activation/differentiation. The catalytic beta subunits (Lmp2 and Lmp7) and the regulatory subunits (PA28alpha and PA28beta) were expressed at equally high levels in Epstein-Barr virus (EBV)-transformed lymphoblastoid cell lines (LCLs), freshly isolated B-chronic lymphocytic leukemia (B-CLL) cells and normal CD23(-) B lymphocytes. Lmp2 and Lmp7 were selectively down-regulated in germinal center cell-derived Burkitt's lymphoma (BL) and Hodgkin's lymphoma (HD) cell lines. There was a direct correlation between the expression of Lmp2/7 and the chymotrypsin and trypsin-like activities in proteasomes purified from LCLs, BLs and CLL cells, whereas 5 HD cell lines expressing B or T-cell markers exhibited a variable pattern of subunit expression and enzymatic activity. Poor hydrolysis of the fluorogenic substrates by proteasomes from BL cells correlated with a distinct pattern of cleavage of a reference 50mer peptide, production of different sets of degradation products and significantly reduced recovery of a known cytotoxic T-lymphocyte (CTL) target epitope. The enzymatic activity of proteasomes from normal CD23(-) "resting" B lymphocytes resembled that of BL cells in spite of high Lmp2/7 expression. This pattern was not reversed by treatment with the B-cell mitogen, lipopolysaccharide (LPS). The results suggest that different stages of B-cell activation/differentiation are associated with distinct profiles of IFN-gamma-regulated subunit composition and enzymatic activity of the proteasome. This may have important implications for the analysis and manipulation of tumor-specific immune responses.
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PMID:Variations in proteasome subunit composition and enzymatic activity in B-lymphoma lines and normal B cells. 1109 9

p105 (NFKB1) acts in a dual way as a cytoplasmic IkappaB molecule and as the source of the NF-kappaB p50 subunit upon processing. p105 can form various heterodimers with other NF-kappaB subunits, including its own processing product, p50, and these complexes are signal responsive. Signaling through the IkappaB kinase (IKK) complex invokes p105 degradation and p50 homodimer formation, involving p105 phosphorylation at a C-terminal destruction box. We show here that IKKbeta phosphorylation of p105 is direct and does not require kinases downstream of IKK. p105 contains an IKK docking site located in a death domain, which is separate from the substrate site. The substrate residues were identified as serines 923 and 927, the latter of which was previously assumed to be a threonine. S927 is part of a conserved DSGPsi motif and is functionally most critical. The region containing both serines is homologous to the N-terminal destruction box of IkappaBalpha, -beta, and -epsilon. Upon phosphorylation by IKK, p105 attracts the SCF E3 ubiquitin ligase substrate recognition molecules betaTrCP1 and betaTrCP2, resulting in polyubiquitination and complete degradation by the proteasome. However, processing of p105 is independent of IKK signaling. In line with this and as a physiologically relevant model, lipopolysaccharide (LPS) induced degradation of endogenous p105 and p50 homodimer formation, but not processing in pre-B cells. In mutant pre-B cells lacking IKKgamma, processing was unaffected, but LPS-induced p105 degradation was abolished. Thus, a functional endogenous IKK complex is required for signal-induced p105 degradation but not for processing.
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PMID:Shared pathways of IkappaB kinase-induced SCF(betaTrCP)-mediated ubiquitination and degradation for the NF-kappaB precursor p105 and IkappaBalpha. 1115 90

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