EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Live probiotic bacteria are effective in reducing gut permeability and inflammation. We have previously shown that probiotics release peptide bioactive factors that modulate epithelial resistance in vitro. The objectives of this study were to determine the impact of factors released from Bifidobacteria infantis on intestinal epithelial cell permeability and tight junction proteins and to assess whether these factors retain their bioactivity when administered to IL-10-deficient mice. B. infantis conditioned medium (BiCM) was applied to T84 human epithelial cells in the presence and absence of TNF-alpha and IFN-gamma. Transepithelial resistance (TER), tight junction proteins [claudins 1, 2, 3, and 4, zonula occludens (ZO)-1, and occludin] and MAP kinase activity (p38 and ERK) were examined. Acute effects of BiCM on intestinal permeability were assessed in colons from IL-10-deficient mice in Ussing chambers. A separate group of IL-1-deficient mice was treated with BiCM for 4 wk and then assessed for intestinal histological injury, cytokine levels, epithelial permeability, and immune response to bacterial antigens. In T84 cells, BiCM increased TER, decreased claudin-2, and increased ZO-1 and occludin expression. This was associated with enhanced levels of phospho-ERK and decreased levels of phospho-p38. BiCM prevented TNF-alpha- and IFN-gamma-induced drops in TER and rearrangement of tight junction proteins. Inhibition of ERK prevented the BiCM-induced increase in TER and attenuated the protection from TNF-alpha and IFN-gamma. Oral BiCM administration acutely reduced colonic permeability in mice whereas long-term BiCM treatment in IL-10-deficient mice attenuated inflammation, normalized colonic permeability, and decreased colonic and splenic IFN-gamma secretion. In conclusion, peptide bioactive factors from B. infantis retain their biological activity in vivo and are effective in normalizing gut permeability and improving disease in an animal model of colitis. The effects of BiCM are mediated in part by changes in MAP kinases and tight junction proteins.
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PMID:Secreted bioactive factors from Bifidobacterium infantis enhance epithelial cell barrier function. 1878 64

Several proangiogenic/proinflammatory factors involved in endometrial cancer are regulated by leptin, but the signaling mechanisms responsible for these leptin-induced actions are largely unknown. Here, we report that in benign (primary and HES) and cancerous-endometrial epithelial cells (EEC) (An3Ca, SK-UT2 and Ishikawa), leptin in a dose-dependent manner regulates vascular endothelial growth factor, (VEGF); interleukin-1 beta, (IL-1beta); leukemia inhibitory factor, (LIF) and their respective receptors, VEGFR2, IL-1R tI and LIFR. Remarkably, leptin induces a greater increase in VEGF/VEGFR2 and LIF levels in cancer than in benign cells. However, IL-1beta was only increased by leptin in benign primary-EEC. Cancer-EEC expressed higher levels of leptin receptor (full-length OB-Rb and short isoforms) in contrast to benign primary-EEC. Leptin-mediated activation of JAK2 (janus kinase 2) was upstream to the activation of PI-3K (phosphatidylinositol-3 kinase) and/or MAPK (mitogen-activated protein kinase) signaling pathways. Leptin induction of cytokines/receptors generally involved JAK2 and MAPK activation, but PI-3K phosphorylation was required for leptin increase of LIF, IL-1/IL-1R tI. Leptin-mediated activation of mTOR (mammalian target of Rapamycin), mainly linked to MAPK, played a central role in leptin regulation of all cytokines and receptors. These results suggest that leptin's effects are cell-specific and could confer a proliferative or cell survival advantage or possibly promote endometrial thickness. Leptin's effects on proangiogenic molecules were more evident in malignant versus benign cells and may imply that there is an underlying shift in leptin-induced cell signaling pathways in endometrial cancer cells.
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PMID:Leptin regulation of proangiogenic molecules in benign and cancerous endometrial cells. 1879 54

TLR ligands induce dendritic cell (DC) maturation. During this process, cells initiate proteolytic degradation of internalized protein Ags into peptides that complex with MHC class II (MHC II) and simultaneously increase expression of costimulatory molecules and of cytokines such as IL-6, IL-12, and IL-23. In these ways, TLR-activated DCs are able to activate naive Th cells and initiate Th1 and Th17 responses, and TLR ligands thus serve as adjuvants for these types of responses. In contrast, products from helminth parasites generally do not activate DCs and act as adjuvants for Th2 response induction. We have explored the underlying basis for this form of adjuvanticity. We show that exposure of DCs to soluble Ags from the eggs of the helminth parasite Schistosoma mansoni (schistosome egg Ag (SEA)) leads to the induction of proteolysis of internalized Ag. This occurs in the absence of significant induction of costimulatory molecule expression or production of proinflammatory cytokines. SEA-induced Ag processing occurs independently of MyD88 or Toll/IL-1 receptor domain containing adaptor inducing IFN-beta (Trif), but is significantly attenuated by inhibition of p38, but not ERK, signaling. In DCs exposed to SEA, ligation of CD40 provides a necessary second signal that stimulates costimulatory molecule expression, allowing DCs to mature into capable APCs. Collectively, the data demonstrate the existence of a MyD88/Trif-independent, p38-dependent pathway of Ag processing in DCs, which is uncoupled from conventional DC maturation and is associated with induction of Th2-type immune responses.
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PMID:Uncoupling of induced protein processing from maturation in dendritic cells exposed to a highly antigenic preparation from a helminth parasite. 1901 45

Gut mucosal enterochromaffin (EC) cells are regarded as key regulators of intestinal motility and fluid secretion via secretion of serotonin (5HT), are increased in numbers in mucosal inflammation and located in close proximity to immune cells. We examined whether interleukin (IL)1beta and Escherichia coli lipopolysaccharide (LPS) induced EC cell 5HT release through Toll-like/IL-1 (TIL) receptor activation, nuclear factor kappa B (NFkappaB) and mitogen-activated protein kinase (MAPK) phosphorylation and evaluated whether somatostatin could inhibit this phenomenon. Pure (>98%) human intestinal EC cells were isolated by fluorescent activated cell sorting from preparations of normal (n = 5) and Crohn's colitis (n = 6) mucosa. 5HT release was measured (ELISA), and NFkappaB and ERK phosphorylation quantitated (ELISA) in response to IL1beta and LPS. 5HT secretion was increased by both E. coli LPS (EC(50) = 5 ng mL(-1)) and IL1beta (EC(50) = 0.05 pmol L(-1)) >2-fold (P < 0.05) in Crohn's EC cells compared with normal EC cells. Secretion was reversible by the TLR4 antagonist, E. coli K12 LPS (IC(50) = 12 ng mL(-1)) and the IL1beta receptor antagonist (ILRA; IC(50) = 3.4 ng mL(-1)). IL1beta caused significant (P < 0.05) NFkappaB and MAPK phosphorylation (40-55%). The somatostatin analogue, lanreotide inhibited IL1beta-stimulated secretion in Crohn's (IC(50) = 0.61 nmol L(-1)) and normal EC cells (IC(50) = 1.8 nmol L(-1)). Interleukins (IL1beta) and bacterial products (E. coli LPS) stimulated 5HT secretion from Crohn's EC cells via TIL receptor activation (TLR4 and IL1beta). Immune-mediated alterations in EC cell secretion of 5HT may represent a component of the pathogenesis of abnormal bowel function in Crohn's disease. Inhibition of EC cell-mediated 5HT secretion may be an alternative therapeutic strategy in the amelioration of inflammatory bowel disease symptomatology.
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PMID:IL1beta- and LPS-induced serotonin secretion is increased in EC cells derived from Crohn's disease. 1901 13

IL-1 receptor antagonist (IL-1Ra), a natural inhibitor of IL-1beta, has been shown to regulate the progression of a variety of inflammatory diseases. Although experimental studies and clinical trials have demonstrated the importance of IL-1Ra in chronic inflammatory diseases, the cellular mechanisms responsible for regulating the endogenous production of IL-1Ra by innate immune cells are currently unresolved. In the present study, we identify that glycogen-synthase kinase 3 (GSK3) regulates the production of the anti-inflammatory cytokine IL-1Ra via its ability to regulate the MAPK ERK1/2 in TLR-stimulated cells. Elucidation of the cell-signaling pathway by which GSK3 controlled ERK activity demonstrated that GSK3 inhibition resulted in an abrogation in the levels of the inhibitory residue serine 71 on Rac1 and increased the ability of Rac1 to interact with and activate p21-activated protein kinase. siRNA-mediated knockdown of Rac1 attenuated the ability of GSK3 inhibition to augment phospho-ERK1/2 levels in LPS-stimulated immune cells. Moreover, inhibiting the ability of GSK3 to augment ERK1/2 activity abrogated enhanced IL-1Ra production by GSK3-inhibited cells. Our findings identify that GSK3 negatively regulates the levels of IL-1Ra produced by LPS-stimulated innate immune cells.
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PMID:Toll-like receptor-mediated production of IL-1Ra is negatively regulated by GSK3 via the MAPK ERK1/2. 1910 87

The objective of this study is to determine the effects of adrenomedullin (AM) on IL-1- and TNF-alpha-induced rheumatoid synovial fibroblasts (RASFs)-mediated osteoclastogenesis. The formation of osteoclasts in co-cultures of RASFs and peripheral blood mononuclear cells was evaluated by tartrate-resistant acid phosphatase and resorption pit formation assay. The expression of RANKL, OPG, p-ERK, p-p38, and p-JNK was examined by immunoblotting and quantitative reverse transcription-polymerase chain reaction. AM (1-52) inhibits IL-1- and TNF-alpha-induced RASFs-mediated osteoclastogenesis. AM affected IL-1-, TNF-alpha-induced RANKL and OPG expression in RASFs. AM also inhibits IL-1 and TNF-alpha-induced phosphorylation of ERK-1/2, p38 MAPK, and JNK. Inhibitor of AM (AM 22-52) inhibits the effects of AM on the osteoclastogenesis. These results suggest that AM might be involved in the inflammatory cytokines-mediated osteoclastogenesis and thus bone damage, and indicate that it can be a new therapeutic strategy against joint destruction in RA.
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PMID:Adrenomedullin inhibits MAPK pathway-dependent rheumatoid synovial fibroblast-mediated osteoclastogenesis by IL-1 and TNF-alpha. 1911 17

Endothelial progenitor cells (EPCs) may provide novel opportunities for therapeutic angiogenesis after ischemic diseases. However, it is unclear how the angiogenic potential of EPCs might be affected by an inflammatory environment. We examine how the potent cytokine interleukin-1beta (IL-1beta) affects angiovasculogenic responses in EPCs in culture. Mononuclear cells isolated from mouse spleen were plated on fibronectin-coated wells and grown in EGM-2 MV media. Endothelial progenitor cells were phenotyped using multiple markers (UEA-Lectin, ac-LDL, CD133, CD34, vWillebrand Factor, Flk-1) and to identify the IL-1 Receptor-I. We quantified cell and colony counts and performed MTT (3-(4,5-dimethylthiazol-2-yl)2,5-diphenyl-tetrazolium bromide) and Matrigel assays, in vitro, under control and IL-1beta (10 ng/mL) conditions. Endothelial progenitor cells exposed to IL-1beta increased in the number of cells and colonies compared with untreated cells, without any effect on cell metabolic integrity. Furthermore, IL-1beta treatment augmented EPC angiogenic function, significantly increasing the number of vessel-like structures in the Matrigel assay. An early phosphorylation of ERK1/2 occurred after IL-1beta stimulation, and this pathway was inhibited if IL-1 Receptor-I was blocked. Our results suggest that IL-1beta is a potent stimulator of in vitro angiogenesis through ERK signaling in mouse EPCs. Further studies are warranted to assess how interactions between proinflammatory environments and EPC responses may be leveraged to enhance therapeutic angiogenesis.
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PMID:Interleukin-1beta augments angiogenic responses of murine endothelial progenitor cells in vitro. 1924 Jul 40

Here we investigate the potential of PCL-b-PEO micelles in preventing the cell death of isolated human islets of Langerhans. PCL-b-PEO micelles were loaded with c-Jun NH2-terminal kinases inhibitor SP600125 to rescue the isolated islets. Mechanistic studies of the uptake were conducted in PC12 cells. Incorporation of SP600125 afforded 8.2 fold greater solubility of SP600125 in micelle suspension. To investigate the effectiveness of micelle-incorporated SP600125 in preventing the islet cell death, we challenged the islets with TNF-alpha, IL-1, and IFN gamma. Micelle-incorporated SP600125 did not lose its inhibitory activity during incorporation into micelles, and it protected the islets against cytokine-induced loss of viability to the same extent as control SP600125. Moreover, the concentration of micelle-incorporated SP600125 used was 13-fold lower, demonstrating the greater efficacy of micelle delivered SP600125. Micelles maintained their cytoplasmic distribution without detectable nuclear localization in islets. The inhibition of JNK was confirmed by western blots. This study suggests that micelle-based intracellular delivery of potent, poorly water soluble, cell-death-pathway inhibitors may represent a valuable addition to established delivery of cytocidal block-copolymer micelle-incorporated bioactives.
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PMID:Block-copolymer micelles as carriers of cell signaling modulators for the inhibition of JNK in human islets of Langerhans. 1934 94

Proinflammatory cytokines of the IL-1 family play an important role for the anti-mycobacterial host defense mechanisms. In the present study we have deciphered the pathways leading from recognition of Mycobacterium tuberculosis to the production and release of IL-1beta, the most important member of the IL-1 family. By stimulating cells defective in various pattern recognition receptors, we could demonstrate that IL-1beta production is induced by M. tuberculosis through pathways involving TLR2/TLR6 and NOD2 receptors. In contrast, TLR4, TLR9 and TLR1 receptors are not involved in IL-1beta induction. Recognition of M. tuberculosis by TLR and NOD2 leads to transcription of proIL-1beta through mechanisms involving ERK, p38 and Rip2, but not JNK. Interestingly, although caspase-1 is necessary for the processing of proIL-1beta, activation of caspase-1 is not dependent on the stimulation of cells by M. tuberculosis. Monocytes expressed constitutively active caspase-1. The secretion of IL-1beta is dependent on the activation of P2X7-induced pathways by endogenously released ATP. In conclusion, we have dissected the molecular mechanisms responsible for IL-1beta production by M. tuberculosis, and that may contribute to a deeper knowledge of the mechanisms of cell activation by M. tuberculosis.
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PMID:Transcriptional and inflammasome-mediated pathways for the induction of IL-1beta production by Mycobacterium tuberculosis. 1954 85

IL-1 is a potent cytokine that can induce bone erosion in inflammatory sites such as rheumatoid joint regions via activation of osteoclasts. Not only is IL-1 capable of activating osteoclasts, but it is also a key cytokine involved in the differentiation, multinucleation, and survival of osteoclasts. Herein, we show that IL-1 has the potential to drive osteoclast differentiation via a receptor activator of NF-kappaB ligand (RANKL)/RANK-independent mechanism. Although IL-1 has a synergistic effect on RANKL-induced osteoclast formation, IL-1 alone cannot induce osteoclast differentiation from osteoclast precursors (bone marrow-derived macrophages (BMMs)) due to a lack of IL-1 signaling potential in these cells. However, we demonstrate that overexpression of the IL-1RI receptor in BMMs or induction of IL-1RI by c-Fos overexpression enables IL-1 alone to induce the formation of authentic osteoclasts by a RANKL/RANK-independent mechanism. The expression of IL-1RI is up-regulated by RANKL via c-Fos and NFATc1. Furthermore, the addition of IL-1 to IL-1RI overexpressing BMMs (IL-1/IL-1RI) strongly activates NF-kappaB, JNK, p38, and ERK which is a hallmark gene activation profile of osteoclastogenesis. Interestingly, IL-1/IL-1RI does not induce expression of c-Fos or NFATc1 during osteoclast differentiation, although basal levels of c-Fos and NFATc1 seem to be required. Rather, IL-1/IL-1RI strongly activates MITF, which subsequently induces osteoclast-specific genes such as osteoclast-associated receptor and tartrate-resistant acid phosphatase. Together, these results reveal that IL-1 has the potential to induce osteoclast differentiation via activation of microphthalmia transcription factor under specific microenvironmental conditions.
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PMID:The mechanism of osteoclast differentiation induced by IL-1. 1958 10

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