Muguette Jéhanno scite author profile

Although the role of Toll-like receptors in extracellular bacterial sensing has been investigated intensively, intracellular detection of bacteria through Nod molecules remains largely uncharacterized. Here, we show that human Nod1 specifically detects a unique diaminopimelate-containing N-acetylglucosamine-N-acetylmuramic acid (GlcNAc-MurNAc) tripeptide motif found in Gram-negative bacterial peptidoglycan, resulting in activation of the transcription factor NF-kappaB pathway. Moreover, we show that in epithelial cells (which represent the first line of defense against invasive pathogens), Nod1is indispensable for intracellular Gram-negative bacterial sensing.

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NLRX1 is a mitochondrial NOD‐like receptor that amplifies NF‐κB and JNK pathways by inducing reactive oxygen species production

Tattoli

et al. 2008

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NOD-like receptors (NLRs) are a family of intracellular sensors of microbial-or danger-associated molecular patterns. Here, we report the identification of NLRX1, which is a new member of the NLR family that localizes to the mitochondria. NLRX1 alone failed to trigger most of the common signalling pathways, including nuclear factor-jB (NF)-jB-and type I interferondependent cascades, but could potently trigger the generation of reactive oxygen species (ROS). Importantly, NLRX1 synergistically potentiated ROS production induced by tumour necrosis factor a, Shigella infection and double-stranded RNA, resulting in amplified NF-jB-dependent and JUN amino-terminal kinasesdependent signalling. Together, these results identify NLRX1 as a NLR that contributes to the link between ROS generation at the mitochondria and innate immune responses.

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Murine Nod1 but not its human orthologue mediates innate immune detection of tracheal cytotoxin

Philpott²,

et al. 2005

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Tracheal cytotoxin (TCT) was originally described as the minimal effector that was able to reproduce the cytotoxic response of Bordetella pertussis on ciliated epithelial cells. This molecule triggers pleiotropic effects such as immune stimulation or slowwave sleep modulation. Further characterization identified TCT as a specific diaminopimelic acid (DAP)-containing muropeptide, GlcNAc-(anhydro)MurNAc-L-Ala-D-Glu-mesoDAP-D-Ala. Here, we show that the biological activity of TCT depends on Nod1, an intracellular sensor of bacterial peptidoglycan. However, Nod1-dependent detection of TCT was found to be host specific, as human Nod1 (hNod1) poorly detected TCT, whereas mouse Nod1 (mNod1) did so efficiently. More generally, hNod1 required a tripeptide (L-Ala-D-Glu-mesoDAP) for efficient sensing of peptidoglycan, whereas mNod1 detected a tetrapeptide structure (L-Ala-D-Glu-mesoDAP-D-Ala). In murine macrophages, TCT stimulated cytokine secretion and NO production through Nod1. Finally, in vivo, injection of the tetrapeptide structure in mice triggered a transient yet strong release of cytokines into the bloodstream and the maturation of macrophages, in a Nod1-dependent manner. This study thereby identifies Nod1 as the long sought after sensor of TCT in mammals.

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