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

The transcription factor nuclear factor-kappaB (NF-kappaB) plays crucial roles in a wide variety of cellular functions and its activity is strictly regulated by cytosolic inhibitors known as IkappaBs. We here report a new member of the IkappaB protein family, IkappaB-zeta, harboring six ankyrin repeats at its carboxyl terminus. IkappaB-zeta mRNA is strongly induced after stimulation by lipopolysaccharide. The induction of IkappaB-zeta is also observed by stimulation with interleukin-1beta but not by tumor necrosis factor-alpha. In contrast to cytosolic IkappaB-alpha, -beta, and -epsilon, the induced IkappaB-zeta localizes in the nucleus via its amino-terminal region, which shows no homology with other proteins. Transiently expressed IkappaB-zeta inhibits the NF-kappaB activity without affecting the nuclear translocation of NF-kappaB upon stimulation. The expressed IkappaB-zeta preferentially associates with the NF-kappaB subunit p50 rather than p65 and recombinant IkappaB-zeta proteins inhibit the DNA binding of the p65/p50 heterodimer and the p50/p50 homodimer. Thus, IkappaB-zeta negatively regulates NF-kappaB activity in the nucleus, possibly in order to prevent excessive inflammation. Moreover, transfection of IkappaB-zeta renders cells more susceptible to apoptosis induced by tumor necrosis factor-alpha. The proapoptotic activity of IkappaB-zeta further suggests that it might be one of key regulators for inflammation and other biologically relevant processes.
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PMID:A novel IkappaB protein, IkappaB-zeta, induced by proinflammatory stimuli, negatively regulates nuclear factor-kappaB in the nuclei. 1135 51

The Mail (molecule possessing ankyrin repeats induced by lipopolysaccharide) protein is a member of the IkappaB family. It has six ankyrin repeats that are conserved in other IkappaB proteins, such as IkappaB-alpha and Bcl-3. Mail mRNA expression is induced rapidly following lipopolysaccharide (LPS) injection, most notably in the spleen, lung, and lymph nodes of mice, where immune cells, such as lymphocytes and macrophages, are abundant. In this study, we cloned and characterized the Mail gene. The isolated genomic clones span approximately 30 kb and encompass the entire gene. Comparisons with Mail cDNA revealed that the Mail gene consists of 14 exons. Several splice junctions encoding ankyrin repeats are conserved among Mail and other IkappaB family genes. Southern hybridization showed that Mail is a single-copy gene. Using fluorescence in situ hybridization analysis, mouse and rat Mail genes were mapped to Chromosome (Chr) 16C1.2-C1.3 and Chr 11q21.1, respectively. Primer extension determined the transcription start site of Mail. Sequence analysis of the proximal promoter region revealed the presence of a TATA box and putative transcription factor-binding sites, such as those for NF-kappaB and NF-IL6. This region is sufficient to drive high-level reporter gene expression in LPS-stimulated transfected cells.
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PMID:Genomic organization, chromosomal localization, and promoter analysis of the mouse Mail gene. 1179 98

Activation of nuclear factor-kappaB (NF-kappaB), a prominent cellular response to bacterial endotoxin or other microbial products, must be strictly regulated because excessive activation leads to overproduction of cytotoxic cytokines that culminates in septic shock. During screening for genes up-regulated upon inflammation, we identified a new member of the IkappaB family proteins with the ankyrin-repeats. This protein, designated IkappaB-zeta, is hardly detectable in resting cells, but is strongly induced upon stimulation by lipopolysaccharide, which stimulates cells through the Toll-like receptor 4. Interleukin-1beta stimulation also results in the strong induction of IkappaB-zeta, but tumor necrosis factor-alpha does not. In contrast to IkappaB-alpha or IkappaB-beta, IkappaB-zeta localizes in the nucleus, where it inhibits NF-kappaB activity. NF-kappaB activity is essential for the induction of IkappaB-zeta, but is not sufficient. Thus, this protein is a new anti-inflammatory protein, which is specifically induced upon inflammation to regulate NF-kappaB activity.
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PMID:IkappaB-zeta, a new anti-inflammatory nuclear protein induced by lipopolysaccharide, is a negative regulator for nuclear factor-kappaB. 1283 61

Toll-like receptors (TLRs) recognize microbial components and trigger the inflammatory and immune responses against pathogens. IkappaBzeta (also known as MAIL and INAP) is an ankyrin-repeat-containing nuclear protein that is highly homologous to the IkappaB family member Bcl-3 (refs 1-6). Transcription of IkappaBzeta is rapidly induced by stimulation with TLR ligands and interleukin-1 (IL-1). Here we show that IkappaBzeta is indispensable for the expression of a subset of genes activated in TLR/IL-1R signalling pathways. IkappaBzeta-deficient cells show severe impairment of IL-6 production in response to a variety of TLR ligands as well as IL-1, but not in response to tumour-necrosis factor-alpha. Endogenous IkappaBzeta specifically associates with the p50 subunit of NF-kappaB, and is recruited to the NF-kappaB binding site of the IL-6 promoter on stimulation. Moreover, NF-kappaB1/p50-deficient mice show responses to TLR/IL-1R ligands similar to those of IkappaBzeta-deficient mice. Endotoxin-induced expression of other genes such as Il12b and Csf2 is also abrogated in IkappaBzeta-deficient macrophages. Given that the lipopolysaccharide-induced transcription of IkappaBzeta occurs earlier than transcription of these genes, some TLR/IL-1R-mediated responses may be regulated in a gene expression process of at least two steps that requires inducible IkappaBzeta.
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PMID:Regulation of Toll/IL-1-receptor-mediated gene expression by the inducible nuclear protein IkappaBzeta. 1524 16

MAIL (molecule-possessing ankyrin repeats induced by lipopolysaccharide) is a nuclear IkappaB protein that is also termed interleukin-1-inducible nuclear ankyrin repeat protein or inhibitor of nuclear factor kappaB (IkappaB) zeta. In this study, we generated Mail-/- mice to investigate the roles of MAIL in whole organisms. Mail-/- mice grew normally until 4-8 weeks after birth, when they began to develop lesions in the skin of the periocular region, face, and neck. MAIL mRNA and protein were constitutively expressed in the skin of wild type controls, especially in the keratinocytes. Serum IgE was higher in Mail-/- mice than in normal. Histopathological analysis indicated that the Mail-/- skin lesions appeared to be atopic dermatitis (AD) eczema with inflammatory cell infiltration. In addition, markedly elevated expression of some chemokines such as thymus and activation-regulated chemokine was detected in the Mail-/- skin lesions, similar to that observed in the skin of patients with AD. In Mail-/- mice, MAIL-deficient keratinocytes might be activated to produce chemokines and induce intraepidermal filtration of inflammatory cells, resulting in the onset of the AD-like disease. These findings suggest that MAIL is an essential molecule for homeostatic regulation of skin immunity. The Mail-/- mouse is a valuable new animal model for research on AD.
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PMID:Targeted disruption of MAIL, a nuclear IkappaB protein, leads to severe atopic dermatitis-like disease. 1549 98

We have recently identified an inducible nuclear factor-kappaB (NF-kappaB) regulator, IkappaB-zeta, which is induced by microbial ligands for Toll-like receptors such as lipopolysaccharide and the proinflammatory cytokine interleukin (IL)-1beta but not by tumor necrosis factor (TNF)-alpha. In the present study, we examined mechanisms for stimulus-specific induction of IkappaB-zeta. The analysis of the IkappaB-zeta promoter revealed an essential role for an NF-kappaB binding sequence in transcriptional activation. The activation, however, did not account for the Toll-like receptor/IL-1 receptor-specific induction of IkappaB-zeta, because the promoter analysis and nuclear run-on analysis indicated that its transcription was similarly induced by TNF-alpha. To examine post-transcriptional regulation, we analyzed the decay of IkappaB-zeta mRNA, and we found that it was specifically stabilized by lipopolysaccharide or IL-1beta but not by TNF-alpha. Furthermore, we found that costimulation with TNF-alpha and another proinflammatory cytokine, IL-17, elicited the IkappaB-zeta induction. Stimulation with IL-17 alone did not induce IkappaB-zeta but stabilized its mRNA. Therefore, IkappaB-zeta induction requires both NF-kappaB activation and stimulus-specific stabilization of its mRNA. Because IkappaB-zeta is essential for expression of a subset of NF-kappaB target genes, the stimulus-specific induction of IkappaB-zeta may be of great significance in regulation of inflammatory reactions.
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PMID:Stimulus-specific induction of a novel nuclear factor-kappaB regulator, IkappaB-zeta, via Toll/Interleukin-1 receptor is mediated by mRNA stabilization. 1552 67

IkappaB inhibits nuclear factor kappa B (NF-kappaB), which is known to regulate the expression of various genes, including genes involved in inflammation. Recently, a novel IkappaB family protein, 'molecule possessing ankyrin repeats induced by lipopolysaccharide' (MAIL), was identified. MAIL is a nuclear-acting, inducible protein, unlike typical IkappaB proteins. However, the mechanism of its induction by lipopolysaccharide (LPS) is unclear. Using the LPS-reactive region located upstream from the MAIL gene, we investigated the mechanism of MAIL induction. MAIL expression was strongly regulated by NF-kappaB and partly regulated by CREB. Furthermore, deletion, point mutation and binding analyses revealed that the NF-kappaB binding site located at -229 to -220 bp is an essential target of MAIL expression. Overexpression of MAIL protein suppressed the LPS-induced promoter activity of the MAIL gene. These data indicate that MAIL expression is strongly upregulated by NF-kappaB, and it is controlled, at least in part, by an autoregulation mechanism.
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PMID:Transcriptional regulation of the MAIL gene in LPS-stimulated RAW264 mouse macrophages. 1552 73

In spermatogenesis, Sertoli cells serve as supporting cells for the proliferation and differentiation of germ cells. However, it appears that Sertoli cell function is regulated by adjacent spermatogonial cells in the testis because expression of lipocalin-2 mRNA, which encodes an iron-siderophore-binding protein, is barely detectable in Sertoli cells of germ cell-deficient W/Wv mice, and more abundantly expressed in jsd/jsd mice. By employing a coculture system comprising immortalized Sertoli cells (designated as Sertoli-B) and c-Kit(+) spermatogonial cells from 7-d-old mouse testis, we found that lipocalin-2 gene transcription in Sertoli cells is induced by a factor secreted from spermatogonial cells. Transfection of Sertoli-B cells with a series of reporter constructs encompassing an upstream region of the mouse lipocalin-2 gene revealed that a nuclear factor (NF)-kappaB binding consensus sequence in the proximal region of lipocalin-2 gene is responsible for transcriptional activation. A major NF-kappaB component, p65, bound to this region and translocated from the cytoplasm to the nucleus upon stimulation with spermatogonial cell-conditioned medium. Moreover, short interference RNA directed to p65 or a dominant-negative form of IkappaBalpha suppressed the spermatogonial cell factor-mediated transcription of lipocalin-2. However, NF-kappaB-activating inflammatory molecules, such as IL-1beta and lipopolysaccharide, did not induce lipocalin-2 mRNA in Sertoli-B cells and the expression of lipocalin-2 was unaffected in the testis of IkappaBzeta-deficient mice. These results demonstrate that spermatogonial cells regulate lipocalin-2 gene expression in Sertoli cells in a manner distinct from that employed by immune cells.
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PMID:Spermatogonial cell-mediated activation of an IkappaBzeta-independent nuclear factor-kappaB pathway in Sertoli cells induces transcription of the lipocalin-2 gene. 1632 95

A novel member of the IkappaB family, human IkappaB-zeta, was identified by a differential screening approach of apoptosis-sensitive and -resistant tumor cells. The protein consists of 6 ankyrin repeats at its COOH terminus and shares about 30% identity with other IkappaB members. IkappaB-zeta associates with both the p65 and p50 subunit of NF-kappaB and inhibits the transcriptional activity as well as the DNA binding of the transcription factor. Interestingly, IkappaB-zeta is localized in the nucleus where it aggregates in matrix-associated deacetylase bodies, indicating that IkappaB-zeta regulates nuclear NF-kappaB activity rather than its nuclear translocation from the cytoplasm. IkappaB-zeta expression itself was regulated by NF-kappaB, suggesting that its activity is controlled in a negative feedback loop. Unlike classical IkappaB proteins, IkappaB-zeta was not degraded upon cell stimulation. Treatment with tumor necrosis factor-alpha, interleukin-1beta, and lipopolysaccharide induced a strong induction of IkappaB-zeta transcripts. Expression of IkappaB-zeta was detected in different tissues including lung, liver, and in leukocytes but not in the brain. Suppression of endogenous IkappaB-zeta by RNA interference rendered cells more resistant to apoptosis, whereas overexpression of IkappaB-zeta was sufficient to induce cell death. Our results, therefore, suggest that IkappaB-zeta functions as an additional regulator of NF-kappaB activity and, hence, provides another control level for the activation of NF-kappaB-dependent target genes.
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PMID:A novel member of the IkappaB family, human IkappaB-zeta, inhibits transactivation of p65 and its DNA binding. 1651 45

IkappaB-zeta, an essential transcriptional regulator in inflammatory reactions, is induced by microbial substances that stimulate Toll-like receptors and interleukin (IL)-1beta but not by tumor necrosis factor (TNF)-alpha, via specific mRNA stabilization. Here, we attempted to identify a cis-element in IkappaB-zeta mRNA that confers the specific induction. To evaluate the activities of various fragments in the post-transcriptional regulation, we constructed unique reporter plasmids, in which a fragment was inserted downstream of a destabilized luciferase cDNA transcribed by the SV40 early enhancer/promoter. In NIH3T3 cells, a reporter plasmid harboring IkappaB-zeta mRNA exhibited elevated luciferase activity following stimulation with lipopolysaccharide or IL-1beta, but not TNF-alpha, indicating the stimulus-specificity. We found that a 165-nucleotide fragment in the 3'-untranslated region conferred the specific induction. Stimulus-specific induction of IkappaB-zeta was observed by transfection of full-length IkappaB-zeta mRNA, but not of a mRNA without the fragment. Thus, this sequence is essential for the stimulus-specific induction of IkappaB-zeta via a post-transcriptional regulatory mechanism.
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PMID:A cis-element in the 3'-untranslated region of IkappaB-zeta mRNA governs its stimulus-specific expression. 1738 99


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