William F. Dietrich scite author profile

The pathogenesis of Bacillus anthracis, the bacterium that causes anthrax, depends on secretion of three factors that combine to form two bipartite toxins. Edema toxin, consisting of protective antigen (PA) and edema factor (EF), causes the edema associated with cutaneous anthrax infections, whereas lethal toxin (LeTx), consisting of PA and lethal factor (LF), is believed to be responsible for causing death in systemic anthrax infections. EF and LF can be transported by PA into the cytosol of many cell types. In mouse macrophages, LF can cause rapid necrosis that may be related to the pathology of systemic infections. Inbred mouse strains display variable sensitivity to LeTx-induced macrophage necrosis. This trait difference has been mapped to a locus on chromosome 11 named Ltxs1 (refs. 7,8). Here we show that an extremely polymorphic gene in this locus, Nalp1b, is the primary mediator of mouse macrophage susceptibility to LeTx. We also show that LeTx-induced macrophage death requires caspase-1, which is activated in susceptible, but not resistant, macrophages after intoxication, suggesting that Nalp1b directly or indirectly activates caspase-1 in response to LeTx.

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The Birc1e cytosolic pattern-recognition receptor contributes to the detection and control of Legionella pneumophila infection

Zamboni

et al. 2006

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Baculovirus inhibitor of apoptosis repeat-containing 1 (Birc1) proteins have homology to several germline-encoded receptors of the innate immune system. However, their function in immune surveillance is not clear. Here we describe a Birc1e-dependent signaling pathway that restricted replication of the intracellular pathogen Legionella pneumophila in mouse macrophages. Translocation of bacterial products into host-cell cytosol was essential for Birc1e-mediated control of bacterial replication. Caspase-1 was required for Birc1e-dependent antibacterial responses ex vivo in macrophages and in a mouse model of Legionnaires' disease. The interleukin 1beta converting enzyme-protease-activating factor was necessary for L. pneumophila growth restriction, but interleukin 1beta was not required. These results establish Birc1e as a nucleotide-binding oligomerization-leucine-rich repeat protein involved in the detection and control of intracellular L. pneumophila.

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Flagellin-Deficient Legionella Mutants Evade Caspase-1- and Naip5-Mediated Macrophage Immunity

et al. 2006

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Macrophages from C57BL/6J (B6) mice restrict growth of the intracellular bacterial pathogen Legionella pneumophila. Restriction of bacterial growth requires caspase-1 and the leucine-rich repeat-containing protein Naip5 (Birc1e). We identified mutants of L. pneumophila that evade macrophage innate immunity. All mutants were deficient in expression of flagellin, the primary flagellar subunit, and failed to induce caspase-1-mediated macrophage death. Interestingly, a previously isolated flagellar mutant (fliI) that expresses, but does not assemble, flagellin did not replicate in macrophages, and induced macrophage death. Thus, flagellin itself, not flagella or motility, is required to initiate macrophage innate immunity. Immunity to Legionella did not require MyD88, an essential adaptor for toll-like receptor 5 (TLR5) signaling. Moreover, flagellin of Legionella and Salmonella induced cytotoxicity when delivered to the macrophage cytosol using Escherichia coli as a heterologous host. It thus appears that macrophages sense cytosolic flagellin via a TLR5-independent pathway that leads to rapid caspase-1-dependent cell death and provides defense against intracellular bacterial pathogens.

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Critical function for Naip5 in inflammasome activation by a conserved carboxy-terminal domain of flagellin

Lightfield¹,

et al. 2008

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Inflammasomes are cytosolic multiprotein complexes that sense microbial infection and trigger cytokine production and cell death. However, the molecular components of inflammasomes, and what they sense, remain poorly defined. Here we demonstrate that 35 amino acids from the Cterminus of flagellin triggered inflammasome activation in the absence of bacterial contaminants or secretion systems. To further elucidate the host flagellin-sensing pathway, we generated mice deficient in Naip5. Naip5-deficient mice failed to activate the inflammasome in response to the 35 amino acids of flagellin or in response to Legionella pneumophila infection. Taken together, these data clarify the molecular basis for the cytosolic response to flagellin.Inflammasomes are cytosolic multiprotein complexes that are critical regulators of inflammation, and are required for proteolytic activation of the cysteine protease caspase-1 (refs. 1-3). Caspase-1 (A000492; http://www.signaling-gateway.org/molecule/query?afcsid=A000492) is itself required for the proteolytic processing and release of inflammatory cytokines such as interleukin 1β (IL-1β) and IL-18, as well as for induction of a necrotic-like cell death called pyroptosis1-3. The molecular components and structures of inflammasomes remain poorly defined. It is believed that multiple distinct inflammasomes may exist, each containing a key scaffold protein of the NLR (nucleotide-binding domain, leucine-rich repeat) superfamily that confers specificity for particular microbial products. For example, NLR proteins of the NLRP1 family (also called NALP1) appear to activate the inflammasome in response to anthrax lethal toxin4 and bacterial muramyl dipeptide5. In contrast, the NLR protein NLRP3 (also called NALP3 or cryopyrin) has been proposed to sense a wide range of stimuli including bacterial RNA6, viral DNA7, uric acid crystals8, muramyl dipeptide9,10, nigericin11, amyloid-beta12, and other irritants13-16. There is at present no molecular explanation for how a single NLR protein can NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript be activated by all these microbial products and the precise molecular nature of what is sensed by any inflammasome remains undefined.The inflammasome containing the NLR protein IPAF (also called NLRC4) is one of the best characterized inflammasomes, and has been proposed by several groups to respond to the presence of flagellin in the cytosol17-19. Flagellin-deficient mutants of Salmonella typhimurium and Legionella pneumophila are defective in IPAF-dependent inflammasome activation, and flagellin, purified from or expressed in bacteria, triggers IPAF-dependent caspase-1 activation when delivered to the cytosol of macrophages by use of a pore-forming toxin (listeriolysin O (LLO)) or transfection reagents17-21. It was proposed that during natural infections, flagellin triggers inflammasome activation upon secretion into the host cytosol via bacterial type III/IV secretion systems17-21. However, doubts have been expressed as to w...

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