Association of mutations in the <i>NALP3/CIAS1/PYPAF1</i> gene with a broad phenotype including recurrent fever, cold sensitivity, sensorineural deafness, and AA amyloidosis

Aganna, Ebun; Martinon, Fabio; Hawkins, Philip N.; Ross, J. B. Alexander; Swan, Daniel; Booth, David R.; Lachmann, HJ; Gaudet, Roxanne; Woo, Patricia; Feighery, C.; Cotter, Finbarr E.; Thome, Margot; Hitman, G. A.; Tschopp, Jürg; McDermott, Michael F.

doi:10.1002/art.10509

Cited by 334 publications

(229 citation statements)

References 24 publications

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“…Alternative splicing of the LRR region is evident for virtually all NALPs as detected by EST analysis and the cloning of various NALPs. 66,67 Moreover, it is interesting to note that exon-exon junctions disrupt the b-strand that is predicted in binding targets. Therefore, alternative splicing not only reorganize the numbers of bstrand but generate completely new b-strands allowing maximal variability in the ligand recognition region.…”

Section: Repertoire and Genomic Organization Of The Nalp Lrrsmentioning

confidence: 99%

“…66,86,87 All three disorders are closely related autoinflammatory syndromes characterized by periodic fever, skin rashes, amyloidosis and in the case of CINCA, the eventual development of neurological complications. Mutations in NALP3 confer a gain of function to the protein, resulting in constitutively active NALP3 in Muckle Wells patients.…”

Section: Nalp3 Inflammasome and Autoinflammatory Disordersmentioning

confidence: 99%

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Inflammatory caspases and inflammasomes: master switches of inflammation

2006

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Fifteen years have passed since the cloning and characterization of the interleukin-1b-converting enzyme (ICE/caspase-1), the first identified member of a family of proteases currently known as caspases. Caspase-1 is the prototypical member of a subclass of caspases involved in cytokine maturation termed inflammatory caspases that also include caspase-4 caspase -5, caspase -11 and caspase -12. Efforts to elucidate the molecular mechanisms involved in the activation of these proteases have uncovered an important role for the NLR family members, NALPs, NAIP and IPAF. These proteins promote the assembly of multiprotein complexes termed inflammasomes, which are required for activation of inflammatory caspases. This article will review some evolutionary aspects, biochemical evidences and genetic studies, underlining the role of inflammasomes and inflammatory caspases in innate immunity against pathogens, autoinflammatory syndromes and in the biology of reproduction. Inflammatory CaspasesThe history of caspases began with the identification of an aspartate-specific protease activity involved in the conversion of the 31 kDa proIL-1b precursor to its active 17 kDa biologically active form, 1,2 and the identification of caspase-1 as the protease responsible for proIL-1b maturation. 3,4 The subsequent discovery of ced-3, that shares similarities with caspase-1 and which is involved in programmed cell death (PCD) in Caenorhabditis elegans, suggested that caspases might play fundamental roles in apoptosis. 5 As reviewed in the papers accompanying this issue of Cell Death and Differentiation, the role of apoptotic caspases in C. elegans and in vertebrates is crucial and deal with many facets of cell biology, development and diseases. In this review, we will focus on a subset of caspases present only in vertebrates and known as inflammatory caspases.Inflammatory caspases (also known as group I caspases) are encoded by three main genes in humans caspase-1, caspase-4 and caspase-5 and three main genes in mouse, caspase-1, caspase-11 and caspase-12. 6,7 In mammals, these caspases are characterized by the presence of a CARD domain at the N-terminus (Figure 1a). Human, chimp and mouse inflammatory caspases share significant similarity and are organized in a single locus (Figure 1c). Phylogenetic analysis of the conserved CARD domain suggests that the inflammatory caspases can be separated in evolutionaryrelated clusters (Figure 1b). The caspase-1 cluster contains caspase-1 and four other genes encoding decoy caspases: cop, inca1, inca2 and iceberg. These decoy caspase-1-like genes are absent in the mouse genome, suggesting that they have arisen recently by duplication of caspase-1. Although human and mouse caspase-1 are likely orthologues, sequence analysis suggests that human caspase-4 and caspase-5 have originated from a duplication of caspase-11. 7 However, the human caspase-12 gene, which in the chimp genome contains an SHG box important for it enzymatic activity, 8 evolved towards an enzymatically inactive form at some stage...

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Section: Repertoire and Genomic Organization Of The Nalp Lrrsmentioning

confidence: 99%

Section: Nalp3 Inflammasome and Autoinflammatory Disordersmentioning

confidence: 99%

Inflammatory caspases and inflammasomes: master switches of inflammation

2006

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“…69 These pathologies are listed in order of increasing disease severity and life-threatening potential, and are characterized by recurrent episodes of fever, rush, arthropathies and various degrees of neurological complications. [70][71][72] Genetic studies of CAPS identified more than 90 disease-associated genetic variants of the NLRP3 gene, the majority of which are autosomal dominant missense point mutations located in exon 3, encoding the NATCH domain ( Figure 3 and Table 1). 73,74 Despite the familial recurrence, some genetic variants inducing CAPS phenotypes result from de novo mutations.…”

Section: Genetics Of Inflammasomes In Autoinflammatory Diseasesmentioning

confidence: 99%

The inflammasomes in health and disease: from genetics to molecular mechanisms of autoinflammation and beyond

2011

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Nucleotide-binding oligomerization domain (NOD)-containing protein-like receptors (NLRs) are a recently discovered class of innate immune receptors that play a crucial role in initiating the inflammatory response following pathogen recognition. Some NLRs form the framework for cytosolic platforms called inflammasomes, which orchestrate the early inflammatory process via IL-1b activation. Mutations and polymorphisms in NLR-coding genes or in genetic loci encoding inflammasome-related proteins correlate with a variety of autoinflammatory diseases. Moreover, the activity of certain inflammasomes is associated with susceptibility to infections as well as autoimmunity and tumorigenesis. In this review, we will discuss how identifying the genetic characteristics of inflammasomes is assisting our understanding of both autoinflammatory diseases as well as other immune system-driven disorders.

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“…68 Similar analyses have been performed in populations defined by the mutations in genes that are responsible for the hereditary inflammatory diseases FMF, Familial Cold Urticaria (FCAS), Muckle-Wells Syndrome (MWS), Hyperimmunoglobulinemia D with periodic fever syndrome (HIDS), TNF-receptor associated periodic syndromes (TRAPS), Neonatal-onset inflammatory disease/ chronic infantile neurologic cutaneous and articular syndrome (NOMID/CINCA) and Pyogenic arthritis with pyoderma gangrenosum and acne (PAPA). [76][77][78][79] All of these are characterized by recurrent febrile episodes with various constellations of clinical features. AA amyloidosis is common in FMF, rare in HIDS, uncommon in FCAS, present in about 10% of cases of TRAPS, and 25% of MWS.…”

Section: Amyloidoses Derived From Molecules Involved In Immune Functionmentioning

confidence: 99%

“…The relationship of this gene to intrinsic inflammatory processes is unclear. 77,78,[80][81][82][83] The prototypic and most frequently described of these disorders, FMF is autosomal recessive as is HIDS. The others appear to have dominant inheritance.…”

Section: Amyloidoses Derived From Molecules Involved In Immune Functionmentioning

confidence: 99%

The genetics of the amyloidoses: interactions with immunity and inflammation

Buxbaum

2006

Genes Immun

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Historically, the amyloidoses have been associated with inflammation and the immune response. From Virchow's original description in human pathologic inflammatory states through their identification in horses used to produce antitoxin to their frequent occurrence in the course of multiple myeloma and a somewhat abortive designation as 'gammaloid', the disorders were felt to have an inflammatory origin. These presumptive associations antedated the availability of a reliable method for tissue extraction that would allow chemical analysis of the major deposited molecules. With the identification of the multiple precursors and the realization that most were not intrinsic elements of immune/inflammatory pathways, the investigative emphasis shifted to the analysis of the biophysical events involved in aggregation and fibril formation. As more in vivo models and better tools for examination of tissues have become available, it appears as if inflammation may participate as both a response to, and an amplifier of, the effects of the fibrillar aggregates. Hence, while only a limited number of amyloid protein precursors are involved in immunity and inflammation per se, host defense, in its broadest sense, is likely to be involved in the clinically relevant amyloidoses. Further it now appears that harnessing the immune respone in an appropriate fashion may be able to play a role in treatment.

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Association of mutations in the NALP3/CIAS1/PYPAF1 gene with a broad phenotype including recurrent fever, cold sensitivity, sensorineural deafness, and AA amyloidosis

Cited by 334 publications

References 24 publications

Inflammatory caspases and inflammasomes: master switches of inflammation

Inflammatory caspases and inflammasomes: master switches of inflammation

The inflammasomes in health and disease: from genetics to molecular mechanisms of autoinflammation and beyond

The genetics of the amyloidoses: interactions with immunity and inflammation

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