Egil Lien scite author profile

Microbial DNA sequences containing unmethylated CpG dinucleotides activate Toll-like receptor 9 (TLR9). We have found that TLR9 is localized to the endoplasmic reticulum (ER) of dendritic cells (DCs) and macrophages. Because there is no precedent for immune receptor signaling in the ER, we investigated how TLR9 is activated. We show that CpG DNA binds directly to TLR9 in ligand-binding studies. CpG DNA moves into early endosomes and is subsequently transported to a tubular lysosomal compartment. Concurrent with the movement of CpG DNA in cells, TLR9 redistributes from the ER to CpG DNA-containing structures, which also accumulate MyD88. Our data indicate a previously unknown mechanism of cellular activation involving the recruitment of TLR9 from the ER to sites of CpG DNA uptake, where signal transduction is initiated.

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Toll-like Receptor 2 Functions as a Pattern Recognition Receptor for Diverse Bacterial Products

Lien¹,

Sellati²,

Yoshimura³

et al. 1999

Journal of Biological Chemistry

848

702

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Toll-like receptors (TLRs) 2 and 4 are signal transducers for lipopolysaccharide, the major proinflammatory constituent in the outer membrane of Gram-negative bacteria. We observed that membrane lipoproteins/lipopeptides from Borrelia burgdorferi, Treponema pallidum, and Mycoplasma fermentans activated cells heterologously expressing TLR2 but not those expressing TLR1 or TLR4. These TLR2-expressing cells were also stimulated by living motile B. burgdorferi, suggesting that TLR2 recognition of lipoproteins is relevant to natural Borrelia infection. Importantly, a TLR2 antibody inhibited bacterial lipoprotein/lipopeptide-induced tumor necrosis factor release from human peripheral blood mononuclear cells, and TLR2-null Chinese hamster macrophages were insensitive to lipoprotein/lipopeptide challenge. The data suggest a role for the native protein in cellular activation by these ligands. In addition, TLR2-dependent responses were seen using whole Mycobacterium avium and Staphylococcus aureus, demonstrating that this receptor can function as a signal transducer for a wide spectrum of bacterial products. We conclude that diverse pathogens activate cells through TLR2 and propose that this molecule is a central pattern recognition receptor in host immune responses to microbial invasion.

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Pathogen blockade of TAK1 triggers caspase-8–dependent cleavage of gasdermin D and cell death

Orning

Weng

Starheim

et al. 2018

Science

766

589

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Limited proteolysis of Gasdermin D (GSDMD) generates an N-terminal pore-forming fragment that controls pyroptosis in macrophages. GSDMD is processed via inflammasome-activated caspase-1 or −11. It is currently unknown if macrophage GSDMD can be processed by other mechanisms. Here we describe an additional pathway controlling GSDMD processing. The inhibition of TGF-β activated kinase-1 (TAK1) or IKK kinases by the Yersinia effector protein YopJ elicits RIPK1-and caspase-8-dependent cleavage of GSDMD which subsequently results in cell death. GSDMD processing also contributes to the NLRP3 inflammasome-dependent release of IL-1β. Thus, caspase-8 acts as a regulator of GSDMD-driven cell death, and our study establishes the importance of TAK1 and IKK activity in the control of GSDMD cleavage and cytotoxicity.

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Egil Lien

NLRP3 inflammasomes are required for atherogenesis and activated by cholesterol crystals

TLR9 signals after translocating from the ER to CpG DNA in the lysosome

Toll-like Receptor 2 Functions as a Pattern Recognition Receptor for Diverse Bacterial Products

Pathogen blockade of TAK1 triggers caspase-8–dependent cleavage of gasdermin D and cell death

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