Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0023241 (
Legionella
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Spinal muscular atrophy (SMA) is a relatively common, autosomal recessively inherited neurodegenerative disorder that maps to human chromosome 5q13. This region of the human genome has an intricate genomic structure that has complicated the evaluation of SMA candidate genes. We have chosen to study the mouse region syntenic for human SMA in the hope that the homologous mouse interval would contain the same genes as human 5q13 on a simpler genomic background. Here, we report the mapping of such a region to mouse chromosome 13 and to the critical interval for Lgn1, a mouse locus responsible for modulating the intracellular replication and pathogenicity of the bacterium
Legionella
pneumophila. We have generated a mouse YAC contig across the Lgn1/Sma interval and have mapped the two flanking gene markers for the human SMA locus, MAP1B and CCNB1, onto this contig. In addition, we have localized the two SMA candidate genes, SMN and
NAIP
, to the Lgn1 critical region, making these two genes candidates for the Lgn1 phenotype. Upon subcloning of the YAC contig into P1s and BACs, we have detected a large, low copy number repeat that contains at least one copy of Naip exon 5. Identification of the Lgn1 gene will either provide a novel function for SMN or
NAIP
or reveal the existence of another, yet uncharacterized gene in the SMA critical region. Mutations in such a gene might help to explain some of the phenotypic variability among the human SMAs.
...
PMID:The mouse region syntenic for human spinal muscular atrophy lies within the Lgn1 critical interval and contains multiple copies of Naip exon 5. 897 18
The orthologous genomic segments on mouse chromosome 13D1-D3 and human chromosome 5q11.2-q13.3 have been extensively studied because of their involvement in two distinct disease phenotypes, spinal muscular atrophy (SMA) in human and susceptibility to
Legionella
pneumophila (determined by Lgn1) in mice. The overlapping intervals in both species contain genomic amplifications of distinct structure, indicating an independent origin. We have endeavored to construct a comprehensive comparative gene map of the mouse and human Lgn1/SMA intervals in the hopes that the origins and maintenance of the genomic amplifications may become clear. Our comparative gene map demonstrates that the only regional gene in common between the amplified segments in mouse and human is the Lgn1 candidate Naip/
NAIP
. We have also determined that mice of the 129 haplotype harbor seven intact and three partial Naip transcription units arranged in a closely linked direct repeat on chromosome 13. Several, but not all, of these Naip loci are contained within the Lgn1 critical interval. We present a model for the origins of the mouse and human repetitive arrays from a common ancestral haplotype.
...
PMID:Evolutionary divergence of the mouse and human Lgn1/SMA repeat structures. 1070 19
In inbred mouse strains, permissiveness to intracellular replication of
Legionella
pneumophila is controlled by a single locus (Lgn1), which maps to a region within distal Chromosome 13 that contains multiple copies of the gene
baculoviral IAP repeat-containing 1
(Birc1, also called Naip; refs. 1-3). Genomic BAC clones from the critical interval were transferred into transgenic mice to functionally complement the Lgn1-associated susceptibility of A/J mice to L. pneumophila. Here we report that two independent BAC clones that rescue susceptibility have an overlapping region of 56 kb in which the entire Lgn1 transcript must lie. The only known full-length transcript coded in this region is Birc1e (also called Naip5).
...
PMID:Birc1e is the gene within the Lgn1 locus associated with resistance to Legionella pneumophila. 1248 12
Inflammasomes are large cytoplasmic complexes that sense microbial infections/danger molecules and induce caspase-1 activation-dependent cytokine production and macrophage inflammatory death. The inflammasome assembled by the NOD-like receptor (NLR) protein NLRC4 responds to bacterial flagellin and a conserved type III secretion system (TTSS) rod component. How the NLRC4 inflammasome detects the two bacterial products and the molecular mechanism of NLRC4 inflammasome activation are not understood. Here we show that NAIP5, a BIR-domain NLR protein required for
Legionella
pneumophila replication in mouse macrophages, is a universal component of the flagellin-NLRC4 pathway. NAIP5 directly and specifically interacted with flagellin, which determined the inflammasome-stimulation activities of different bacterial flagellins. NAIP5 engagement by flagellin promoted a physical NAIP5-NLRC4 association, rendering full reconstitution of a flagellin-responsive NLRC4 inflammasome in non-macrophage cells. The related NAIP2 functioned analogously to NAIP5, serving as a specific inflammasome receptor for TTSS rod proteins such as Salmonella PrgJ and Burkholderia BsaK. Genetic analysis of Chromobacterium violaceum infection revealed that the TTSS needle protein CprI can stimulate NLRC4 inflammasome activation in human macrophages. Similarly, CprI is specifically recognized by human
NAIP
, the sole
NAIP
family member in human. The finding that
NAIP
proteins are inflammasome receptors for bacterial flagellin and TTSS apparatus components further predicts that the remaining
NAIP
family members may recognize other unidentified microbial products to activate NLRC4 inflammasome-mediated innate immunity.
...
PMID:The NLRC4 inflammasome receptors for bacterial flagellin and type III secretion apparatus. 2199 34
The
NAIP
gene encodes an intracellular innate immunity receptor that senses flagellin. The genomic region containing
NAIP
presents a complex genomic organization and includes various
NAIP
paralogs. Here, we assessed the degree of copy number variation of the complete
NAIP
gene (NAIPFull) in various human populations and studied the functional impact of such variation on host cell fate using
Legionella
pneumophila as an infection model. We determined that African populations have a NAIPFull duplication at a higher frequency than Europeans and Asians, with an increased transcription of the gene. In addition, we demonstrated that a higher amount of the NAIPFull protein dramatically increases cell death upon infection by L. pneumophila, a mechanism that may account for increased host resistance to infection. We postulate that the NAIPFull gene duplication might have been evolutionary maintained, or even selected for, because it may confer an advantage to the host against flagellated bacteria.
...
PMID:Population variation in NAIP functional copy number confers increased cell death upon Legionella pneumophila infection. 2206 12
A flagellin-independent caspase-1 activation pathway that does not require NAIP5 or NRLC4 is induced by the intracellular pathogen
Legionella
pneumophila. Here we demonstrate that this pathway requires caspase-11. Treatment of macrophages with LPS up-regulated the host components required for this caspase-11 activation pathway. Activation by
Legionella
differed from caspase-11 activation using previously described agonists in that
Legionella
caspase-11 activation was rapid and required bacteria with a functional type IV secretion system called Dot/Icm.
Legionella
activation of caspase-11 induced pyroptosis by a mechanism independent of the
NAIP
/NLRC4 and caspase-1 axis.
Legionella
activation of caspase-11 stimulated activation of caspase-1 through NLRP3 and ASC. Induction of caspase-11-dependent responses occurred in macrophages deficient in the adapter proteins TRIF or MyD88 but not in macrophages deficient in both signaling factors. Although caspase-11 was produced in macrophages deficient in the type-I IFN receptor, there was a severe defect in caspase-11-dependent pyroptosis in these cells. These data indicate that macrophages respond to microbial signatures to produce proteins that mediate a capsase-11 response and that the caspase-11 system provides an alternative pathway for rapid detection of an intracellular pathogen capable of evading the canonical caspase-1 activation system that responds to bacterial flagellin.
...
PMID:Caspase-11 stimulates rapid flagellin-independent pyroptosis in response to Legionella pneumophila. 2349 48
Biochemical studies suggest that the
NAIP
family of NLR proteins are cytosolic innate receptors that directly recognize bacterial ligands and trigger NLRC4 inflammasome activation. In this study, we generated Naip5(-/-), Naip1(-/-), and Naip2(-/-) mice and showed that bone marrow macrophages derived from these knockout mice are specifically deficient in detecting bacterial flagellin, the type III secretion system needle, and the rod protein, respectively. Naip1(-/-), Naip2(-/-), and Naip5(-/-) mice also resist lethal inflammasome activation by the corresponding ligand. Furthermore, infections performed in the Naip-deficient macrophages have helped to define the major signal in
Legionella
pneumophila, Salmonella Typhimurium and Shigella flexneri that is detected by the
NAIP
/NLRC4 inflammasome. Using an engineered S. Typhimurium infection model, we demonstrate the critical role of NAIPs in clearing bacterial infection and protecting mice from bacterial virulence-induced lethality. These results provide definitive genetic evidence for the important physiological function of NAIPs in antibacterial defense and inflammatory damage-induced lethality in mice.
...
PMID:Genetic functions of the NAIP family of inflammasome receptors for bacterial ligands in mice. 2714 Jan 98
Inflammasomes are multimeric protein complexes that assemble in the cytosol of many types of cells, including innate immune cells. The inflammasomes can be activated in response to infection or in response to stress signals that induce damage in the host cell membranes. These platforms trigger inflammatory processes, cell death, and the control of microbial replication. Many inflammasomes have been described so far, including NLRP3,
NAIP
/NLRC4, caspase-11, and AIM2. The ligand for NLRP3 is still unidentified, but the efflux of K
+
is essential for NLRP3 activation. By contrast, inflammasomes, such as those composed of
NAIP
/NLRC4, caspase-11, and AIM2, can be activated by bacterial flagellin, LPS, and dsDNA. The knowledge of inflammasome biology has advanced tremendously in the last decade, fostered by the use of model organisms, such as
Legionella
pneumophila
This bacterium evolved, infecting unicellular protozoa in freshwater environments, and the human infection is accidental. Thus,
L. pneumophila
did not evolve sophisticated mechanisms to inhibit mammalian innate immunity. For this reason, it has emerged as a very appropriate model of a pathogenic microbe for the investigation of inflammasome biology. In this review, we highlight the current information regarding the biology of inflammasomes and emphasize the advances achieved using
L. pneumophila
We also describe the inflammasomes activated in response to
L. pneumophila
infection and discuss the effector mechanisms that operate to clear the infection.
...
PMID:Inflammasome biology taught by
Legionella pneumophila
. 2799 48
