1.Toll-like receptor signal transduction.
Jayalakshmi KRISHNAN ; Kumar SELVARAJOO ; Masa TSUCHIYA ; Gwang LEE ; Sangdun CHOI
Experimental & Molecular Medicine 2007;39(4):421-438
Toll-like receptors (TLRs) are the archetypal pattern recognition receptors in sensing exogenous pathogens. Activation of TLRs is a first line of defense of the immune system, leading to the activation and recruitment of neutrophils and macrophages to sites of infection and enhances antimicrobial activity. The TLR signaling through different intracellular molecules, such as MAP kinases and IkappaB kinases which are conserved signaling elements for many receptors, leads to a distinct set of proinflammatory gene expressions. However, how these pathways differentially and precisely control the transcription of identical genes remains largely unknown. Our review focuses on the details of up-to- date signaling molecules including negative regulators and their role in controlling innate immune response. We also stress the importance of developing systemic approaches for the global understanding of TLR signaling so that appropriate drug therapeutic targets can be identified for regulating inflammatory diseases.
Adaptor Proteins, Signal Transducing/*immunology
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Animals
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Humans
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MAP Kinase Signaling System/*immunology
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Receptor Cross-Talk
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Receptors, Interleukin-1/immunology
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*Signal Transduction
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Toll-Like Receptors/*immunology
2.Statistical Analysis of Gene Expression in Innate Immune Responses: Dynamic Interactions between MicroRNA and Signaling Molecules.
Vincent PIRAS ; Kumar SELVARAJOO ; Naoki FUJIKAWA ; Sangdun CHOI ; Masaru TOMITA ; Alessandro GIULIANI ; Masa TSUCHIYA
Genomics & Informatics 2007;5(3):107-112
MicroRNAs (miRNAs) are known to negatively control protein-coding genes by binding to messenger RNA (mRNA) in the cytoplasm. In innate immunity, the role of miRNA gene silencing is largely unknown. In this study, we performed microarray-based experiments using lipopolysaccharide (LPS)-stimulated macrophages derived from wild-type, MyD88 knockout (KO), TRIF KO, and MyD88/TRIF double KO mice. We employed a statistical approach to determine the importance of the commonality and specificity of miRNA binding sites among groups of temporally co-regulated genes. We demonstrate that both commonality and specificity are irrelevant to define a priori groups of co-downregulated genes. In addition, analyzing the various experimental conditions, we suggest that miRNA regulation may not only be a late-phase process (after transcription) but can also occur even early (1h) after stimulation in knockout conditions. This further indicates the existence of dynamic interactions between miRNA and signaling molecules/ transcription factor regulation; this is another proof for the need of shifting from a 'hard-wired' paradigm of gene regulation to a dynamical one in which the gene co-regulation is established on a case-by-case basis.
Animals
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Binding Sites
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Cytoplasm
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Gene Expression*
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Gene Silencing
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Immunity, Innate*
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Macrophages
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Mice
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MicroRNAs*
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RNA, Messenger
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Sensitivity and Specificity
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Transcription Factors