MicroRNA‐7 negatively regulates Toll‐like receptor 4 signaling pathway through FAM177A
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Abstract:
Toll-like receptor (TLR) 4 signalling is critical for innate immunoinflammatory response and widely triggers the development of various types of clinical diseases. MicroRNA-7 (miR-7) is well documented to play an important regulatory role in various biological events. However, the exact role of miR-7 in TLR4 signalling pathway remains to be fully elucidated. In the present study, we found that miR-7 expression in TLR4 signalling-activated bone marrow-derived macrophages (BMDMs) stimulated by LPS was dramatically increased. Importantly, miR-7 deficiency significantly enhanced the production of related inflammatory cytokines including IL-1β, IL-6 and IL-12, as well as TNF-α, on LPS-activated BMDMs, accompanied by elevated transduction of TLR4 signalling including Myd88-dependent and Myd88-independent pathways, whereas miR-7 overexpression significantly decreased the transduction of TLR4 signalling and the production of related inflammatory cytokines. Mechanistically, we identified family with sequence similarity 177, member A (FAM177A) as a novel target molecule of miR-7. Furthermore, down-regulation of FAM177A using RNAi could impair the transduction of TLR4 signalling. Finally, down-regulation of FAM177A also reversed the effect of miR-7 deficiency on TLR4 signalling transduction and production of related inflammatory cytokines on BMDMs. Therefore, we provide the new evidence that miR-7 acts as a novel negative fine-tuner in regulating TLR4 signalling pathways by targeting FAM177A, which might throw light on the basal understanding on the regulatory mechanism of TLR4 signalling and benefit the development of therapeutic strategies against related clinical diseases.Keywords:
Signalling
Objective:To investigate the influences of Aβ25-35 on the TLR3 and TLR4 mRNA. Method: NG108-15 cell line was stimulated with Aβ25-35,the supernatant was collected 24 hours later and the inflammatory factors TNF-α and IFN-β were quantitatively measured,the changes in the mRNA expression of TLR3 and TLR4 were detected by real-time PCR. Result:Aβ induced the over-secreting of TNF-α、IFN-β and over-expression of TLR3 and TLR4 mRNA (P 0. 01). Conclusions:Aβ induced the over-secreting of inflammatory factors and over-expression of TLR3 and TLR4,indicating the action of Aβ in causing AD disease might be affiliated with the immune inflammation and the TLRs signaling pathway.
TLR3
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Abstract Toll-like receptors (TLRs) are a family of mammalian homologues of Drosophila Toll and play important roles in host defense. Two of the TLRs, TLR2 and TLR4, mediate the responsiveness to LPS. Here the gene expression of TLR2 and TLR4 was analyzed in mouse macrophages. Mouse splenic macrophages responded to an intraperitoneal injection or in vitro treatment of LPS by increased gene expression of TLR2, but not TLR4. Treatment of a mouse macrophage cell line with LPS, synthetic lipid A, IL-2, IL-15, IL-1β, IFN-γ, or TNF-α significantly increased TLR2 mRNA expression, whereas TLR4 mRNA expression remained constant. TLR2 mRNA increase in response to synthetic lipid A was severely impaired in splenic macrophages isolated from TLR4-mutated C3H/HeJ mice, suggesting that TLR4 plays an essential role in the process. Specific inhibitors of mitogen-activated protein/extracellular signal-regulated kinase kinase and p38 kinase did not significantly inhibit TLR2 mRNA up-regulation by LPS. In contrast, LPS-mediated TLR2 mRNA induction was abrogated by pretreatment with a high concentration of curcumin, suggesting that NF-κB activation may be essential for the process. Taken together, our results indicate that TLR2, in contrast to TLR4, can be induced in macrophages in response to bacterial infections and may accelerate the innate immunity against pathogens.
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Abstract Toll-like receptor (TLR) 4 has been identified as the primary receptor for enteric LPS, whereas TLR2 has been implicated as the receptor for Gram-positive and fungal cell wall components and for bacterial, mycobacterial, and spirochetal lipoproteins. Vascular endothelial cell (EC) activation or injury by microbial cell wall components such as LPS is of critical importance in the development of sepsis and septic shock. We have previously shown that EC express predominantly TLR4, and have very little TLR2. These cells respond vigorously to LPS via TLR4, but are unresponsive to lipoproteins and other TLR2 ligands. Here we show that LPS, TNF-α, or IFN-γ induce TLR2 expression in both human dermal microvessel EC and HUVEC. Furthermore, LPS and IFN-γ act synergistically to induce TLR2 expression in EC, and LPS-induced TLR2 expression is NF-κB dependent. LPS and IFN-γ also up-regulate TLR4 mRNA expression in EC. These data indicate that TLR2 and TLR4 expression in ECs is regulated by inflammatory molecules such as LPS, TNF-α, or IFN-γ. TLR2 and TLR4 molecules may render EC responsive to TLR2 ligands and may help to explain the synergy between LPS and lipoproteins, and between LPS and IFN-γ, in inducing shock associated with Gram-negative sepsis.
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SOCS2
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Abstract Toll-like receptors (TLRs) recognize pathogen-associated molecular patterns, which are non-self macromolecular components of pathogens that allow the innate-immune system to recognize infection. TLRs are expressed on macrophages and dendritic cells (DC). TLR stimulation or CD40 agonists can induce inflammatory cytokine secretion from macrophages and DC, and promote DC maturation. The regulation of TLR expression by inflammation has begun to be explored. Our studies have focused on the regulation of TLR4 surface expression on DC. TLR4, along with the adaptor molecule MD2, is involved in the recognition of lipopolysaccharide (LPS). CD40 stimulation via cross-linked anti-CD40 monoclonal antibody (mAb) up-regulates TLR4-MD2 surface expression on a DC cell line (DC2.4) and on ex vivo-cultured splenic DC. LPS treatment down-regulated surface TLR4-MD2 on DC2.4 cells, but if combined with anti-CD40 mAb, increased TLR4-MD2 expression was observed. The increased TLR4-MD2 surface expression by any treatment did not correlate with TLR4 mRNA levels. The functional consequence of increased TLR4-MD2 expression following LPS and anti-CD40 treatment was examined. Although CD40 prestimulation did slightly enhance interleukin-12p70 secretion after LPS restimulation, simultaneous anti-CD40 mAb and LPS treatment, which up-regulates TLR4-MD2 complex, does not restore DC responsiveness to subsequent LPS.
Ex vivo
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Toll-like receptors is a group of pattern recognition receptors which are found in the recent years. TLR4 is one of hot topics among the 11 TLR members which have been identifited. Activated TLR4 midiates signal transduction pathway via MyD88 and mitogen activated protein, then induces immune response. TLR4 is expressed in a verity of tumors. TLR4 can promote inflammation and the development and progression of tumor via different signal pathway. TLR4 plays an important role in the cancer pain and immune escape. TLR4 may become a new target for cancer biotherapy.
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Background: LPS sensitivity in the liver significantly worsens the outcome of gram negative sepsis. MD-2 facilitates the recognition of LPS by Toll-like receptor (TLR4). In this study we investigated the changes in TLR4 and MD-2 levels in LPS sensitive livers.
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Abstract The human homologue of Drosophila Toll (hToll), also called Toll-like receptor 4 (TLR4), is a recently cloned receptor of the IL-1/Toll receptor family. Interestingly, the TLR4 gene has been localized to the same region to which the Lps locus (endotoxin unresponsive gene locus) is mapped. To examine the role of TLR4 in LPS responsiveness, we have generated mice lacking TLR4. Macrophages and B cells from TLR4-deficient mice did not respond to LPS. All these manifestations were quite similar to those of LPS-hyporesponsive C3H/HeJ mice. Furthermore, C3H/HeJ mice have, in the cytoplasmic portion of TLR4, a single point mutation of the amino acid that is highly conserved among the IL-1/Toll receptor family. Overexpression of wild-type TLR4 but not the mutant TLR4 from C3H/HeJ mice activated NF-κB. Taken together, the present study demonstrates that TLR4 is the gene product that regulates LPS response.
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