Abstract
The characterization of patients with recurrent inflammatory syndromes into distinct clinical phenotypes provided early clues to the mode of inheritance of these conditions and facilitated the subsequent identification of causative gene mutations. The prototype autoinflammatory syndrome, familial Mediterranean fever, is characterized by self-limiting episodes of localized inflammation. Hallmarks of the classical autoimmune response are largely absent. The use of positional cloning techniques led to the identification of the causative gene, MEFV, and its product pyrin. This previously unrecognized protein plays an important role in modulating the innate immune response. Cryopyrin, the protein encoded by CIAS1, is mutated in a spectrum of autoinflammatory conditions, the cryopyrinopathies. In response to a wide range of potential pathogens, it forms a macromolecular complex termed the “inflammasome,” resulting in caspase-1 activation and subsequent release of the active proinflammatory cytokine interleukin-1β (IL-1β). The role of an established biochemical pathway in regulating inflammation was uncovered by the discovery that the hyperimmunoglobulin D with periodic fever syndrome (HIDS) results from mutations in MVK, which encodes an enzyme in the isoprenoid pathway. The discovery that mutations in the gene encoding tumor necrosis factor (TNF) receptor 1 (TNFR1) cause a proinflammatory phenotype was unanticipated, as it seemed more likely that such mutations would instead have resulted in an immunodeficiency pattern. This review describes the clinical phenotypes of autoinflammatory syndromes, the underlying gene mutations, and current concepts regarding their pathophysiology.
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Aksentijevich I, Torosyan Y, Samuels J, Centola M, Pras E, Chae JJ, Oddoux C, Wood G, Azzaro MP, Palumbo G, Giustolisi R, Pras M, Ostrer H, Kastner DL (1999) Mutation and haplotype studies of familial Mediterranean fever reveal new ancestral relationships and evidence for a high carrier frequency with reduced penetrance in the Ashkenazi Jewish population. Am J Hum Genet 4:949–962
Aksentijevich I, Nowak M, Mallah M, Chae JJ, Watford WT, Hofmann SR, Stein L, Russo R, Goldsmith D, Dent P, Rosenberg HF, Austin F, Remmers EF, Balow JE Jr, Rosenzweig S, Komarow H, Shoham NG, Wood G, Jones J, Mangra N, Carrero H, Adams BS, Moore TL, Schikler K, Hoffman H, Lovell DJ, Lipnick R, Barron K, O’Shea JJ, Kastner DL, Goldbach-Mansky R (2002) De novo CIAS1 mutations, cytokine activation, and evidence for genetic heterogeneity in patients with neonatal-onset multisystem inflammatory disease (NOMID): a new member of the expanding family of pyrin-associated autoinflammatory diseases. Arthritis Rheum 12:3340–3348
Aksentijevich I, Putnam C, Remmers EF, Mueller JL, Le J, Kolodner RD, Moak Z, Chuang M, Austin F, Goldbach-Mansky R, Hoffman HM, Kastner DL (2007) The clinical continuum of cryopyrinopathies: novel CIAS1 mutations in North American patients and a new cryopyrin model. Arthritis Rheum 4:1273–1285
Badour K, Zhang J, Shi F, McGavin MK, Rampersad V, Hardy LA, Field D, Siminovitch KA (2003) The Wiskott-Aldrich syndrome protein acts downstream of CD2 and the CD2AP and PSTPIP1 adaptors to promote formation of the immunological synapse. Immunity 1:141–154
Bodar EJ, van der Hilst JC, van Heerde W, van der Meer JW, Drenth JP, Simon A (2007) Defective apoptosis of peripheral-blood lymphocytes in hyper-IgD and periodic fever syndrome. Blood 6:2416–2418
Calligaris L, Marchetti F, Tommasini A, Ventura A (2007) The efficacy of anakinra in an adolescent with colchicine-resistant familial Mediterranean fever. Eur J Pediatr Jun 23 [Epub ahead of print]
Centola M, Wood G, Frucht DM, Galon J, Aringer M, Farrell C, Kingma DW, Horwitz ME, Mansfield E, Holland SM, O’Shea JJ, Rosenberg HF, Malech HL, Kastner DL (2000) The gene for familial Mediterranean fever, MEFV, is expressed in early leukocyte development and is regulated in response to inflammatory mediators. Blood 10:3223–3231
Chae JJ, Komarow HD, Cheng J, Wood G, Raben N, Liu PP, Kastner DL (2003) Targeted disruption of pyrin, the FMF protein, causes heightened sensitivity to endotoxin and a defect in macrophage apoptosis. Mol Cell 3:591–604
Chae JJ, Wood G, Masters SL, Richard K, Park G, Smith BJ, Kastner DL (2006) The B30.2 domain of pyrin, the familial Mediterranean fever protein, interacts directly with caspase-1 to modulate IL-1beta production. Proc Natl Acad Sci U S A 26:9982–9987
Chen G, Goeddel D (2002) TNF-R1 signaling: a beautiful pathway. Science 5573:1634–1635
Cuisset L, Drenth JP, Berthelot JM, Meyrier A, Vaudour G, Watts RA, Scott DG, Nicholls A, Pavek S, Vasseur C, Beckmann JS, Delpech M, Grateau G (1999) Genetic linkage of the Muckle-Wells syndrome to chromosome 1q44. Am J Hum Genet 4:1054–1059
D’Osualdo A, Ferlito F, Prigione I, Obici L, Meini A, Zulian F, Pontillo A, Corona F, Barcellona R, Di Duca M, Santamaria G, Traverso F, Picco P, Baldi M, Plebani A, Ravazzolo R, Ceccherini I, Martini A, Gattorno M (2006) Neutrophils from patients with TNFRSF1A mutations display resistance to tumor necrosis factor-induced apoptosis: pathogenetic and clinical implications. Arthritis Rheum 3:998–1008
Diaz A, Hu C, Kastner DL, Schaner P, Reginato AM, Richards N, Gumucio DL (2004) Lipopolysaccharide-induced expression of multiple alternatively spliced MEFV transcripts in human synovial fibroblasts: a prominent splice isoform lacks the C-terminal domain that is highly mutated in familial Mediterranean fever. Arthritis Rheum 11:3679–3689
Dierselhuis MP, Frenkel J, Wulffraat NM, Boelens JJ (2005) Anakinra for flares of pyogenic arthritis in PAPA syndrome. Rheumatology (Oxford) 3:406–408
Drenth JP, Haagsma CJ, van der Meer JW (1994) Hyperimmunoglobulinemia D and periodic fever syndrome. The clinical spectrum in a series of 50 patients. International Hyper-IgD Study Group. Medicine (Baltimore) 3:133–144
Drenth JP, Cuisset L, Grateau G, Vasseur C, van de Velde-Visser SD, de Jong JG, Beckmann JS, van der Meer JW, Delpech M (1999) Mutations in the gene encoding mevalonate kinase cause hyper-IgD and periodic fever syndrome. International Hyper-IgD Study Group. Nat Genet 2:178–181
Fairbrother W, Gordon N, Humke E, O’Rourke K, Starovasnik M, Yin J, Dixit V (2001) The PYRIN domain: a member of the death domain-fold superfamily. Protein Sci 9:1911–1918
Feldmann J, Prieur AM, Quartier P, Berquin P, Certain S, Cortis E, Teillac-Hamel D, Fischer A, de Saint Basile G (2002) Chronic infantile neurological cutaneous and articular syndrome is caused by mutations in CIAS1, a gene highly expressed in polymorphonuclear cells and chondrocytes. Am J Hum Genet 1:198–203
Fernandes-Alnemri T, Wu J, Yu J, Datta P, Miller B, Jankowski W, Rosenberg S, Zhang J, Alnemri E (2007) The pyroptosome: a supramolecular assembly of ASC dimers mediating inflammatory cell death via caspase-1 activation. Cell Death Differ 9:1590–1604
French FMF Consortium (1997) A candidate gene for familial Mediterranean fever. Nat Genet 1:25–31
Goldbach-Mansky R, Dailey NJ, Canna SW, Gelabert A, Jones J, Rubin BI, Kim HJ, Brewer C, Zalewski C, Wiggs E, Hill S, Turner ML, Karp BI, Aksentijevich I, Pucino F, Penzak SR, Haverkamp MH, Stein L, Adams BS, Moore TL, Fuhlbrigge RC, Shaham B, Jarvis JN, O’Neil K, Vehe RK, Beitz LO, Gardner G, Hannan WP, Warren RW, Horn W, Cole JL, Paul SM, Hawkins PN, Pham TH, Snyder C, Wesley RA, Hoffmann SC, Holland SM, Butman JA, Kastner DL (2006) Neonatal-onset multisystem inflammatory disease responsive to interleukin-1beta inhibition. N Engl J Med 6:581–592
Goldfinger S (1972) Colchicine for familial Mediterranean fever. N Engl J Med 25:1302
Hawkins P, Lachmann H, McDermott M (2003) Interleukin-1-receptor antagonist in the Muckle-Wells syndrome. N Engl J Med 25:2583–2584
Hentgen V, Despert V, Lepretre AC, Cuisset L, Chevrant-Breton J, Jego P, Chales G, Gall EL, Delpech M, Grateau G (2005) Intrafamilial variable phenotypic expression of a CIAS1 mutation: from Muckle-Wells to chronic infantile neurological cutaneous and articular syndrome. J Rheumatol 4:747–751
Hoffman HM, Wright FA, Broide DH, Wanderer AA, Kolodner RD (2000) Identification of a locus on chromosome 1q44 for familial cold urticaria. Am J Hum Genet 5:1693–1698
Hoffman HM, Mueller JL, Broide DH, Wanderer AA, Kolodner RD (2001) Mutation of a new gene encoding a putative pyrin-like protein causes familial cold autoinflammatory syndrome and Muckle-Wells syndrome. Nat Genet 3:301–305
Houten SM, Kuis W, Duran M, de Koning TJ, van Royen-Kerkhof A, Romeijn GJ, Frenkel J, Dorland L, de Barse MM, Huijbers WA, Rijkers GT, Waterham HR, Wanders RJ, Poll-The BT (1999) Mutations in MVK, encoding mevalonate kinase, cause hyperimmunoglobulinaemia D and periodic fever syndrome. Nat Genet 2:175–177
Houten SM, Frenkel J, Rijkers GT, Wanders RJ, Kuis W, Waterham HR (2002) Temperature dependence of mutant mevalonate kinase activity as a pathogenic factor in hyper-IgD and periodic fever syndrome. Hum Mol Genet 25:3115–3124
Houten SM, van Woerden CS, Wijburg FA, Wanders RJ, Waterham HR (2003) Carrier frequency of the V377I (1129G>A) MVK mutation, associated with Hyper-IgD and periodic fever syndrome, in the Netherlands. Eur J Hum Genet 2:196–200
Hull KM, Drewe E, Aksentijevich I, Singh HK, Wong K, McDermott EM, Dean J, Powell RJ, Kastner DL (2002) The TNF receptor-associated periodic syndrome (TRAPS): emerging concepts of an autoinflammatory disorder. Medicine (Baltimore) 5:349–368
Infevers (2008) http://fmf.igh.cnrs.fr/infevers/. Cited 18 January 2008
International FMF Consortium (1997) Ancient missense mutations in a new member of the RoRet gene family are likely to cause familial Mediterranean fever. Cell 4:797–807
Kanneganti T, Lamkanfi M, Kim Y, Chen G, Park J, Franchi L, Vandenabeele P, Núñez G (2007) Pannexin-1-mediated recognition of bacterial molecules activates the cryopyrin inflammasome independent of Toll-like receptor signaling. Immunity 4:433–443
Kanneganti TD, Ozoren N, Body-Malapel M, Amer A, Park JH, Franchi L, Whitfield J, Barchet W, Colonna M, Vandenabeele P, Bertin J, Coyle A, Grant EP, Akira S, Nunez G (2006) Bacterial RNA and small antiviral compounds activate caspase-1 through cryopyrin/Nalp3. Nature 7081:233–236
Koonin EV, Aravind L (2000) The NACHT family—a new group of predicted NTPases implicated in apoptosis and MHC transcription activation. Trends Biochem Sci 25:223–224
Kummer JA, Broekhuizen R, Everett H, Agostini L, Kuijk L, Martinon F, van Bruggen R, Tschopp J (2007) Inflammasome components NALP 1 and 3 show distinct but separate expression profiles in human tissues suggesting a site-specific role in the inflammatory response. J Histochem Cytochem 5:443–452
Li J, Nishizawa K, An W, Hussey RE, Lialios FE, Salgia R, Sunder-Plassmann R, Reinherz EL (1998) A cdc15-like adaptor protein (CD2BP1) interacts with the CD2 cytoplasmic domain and regulates CD2-triggered adhesion. EMBO J 24:7320–7336
Lindor N, Arsenault T, Solomon H, Seidman C, McEvoy M (1997) A new autosomal dominant disorder of pyogenic sterile arthritis, pyoderma gangrenosum, and acne: PAPA syndrome. Mayo Clin Proc 7:611–615
Lobito AA, Kimberley FC, Muppidi JR, Komarow H, Jackson AJ, Hull KM, Kastner DL, Screaton GR, Siegel RM (2006) Abnormal disulfide-linked oligomerization results in ER retention and altered signaling by TNFR1 mutants in TNFR1-associated periodic fever syndrome (TRAPS). Blood 4:1320–1327
Mandey SH, Kuijk LM, Frenkel J, Waterham HR (2006a) A role for geranylgeranylation in interleukin-1beta secretion. Arthritis Rheum 11:3690–3695
Mandey SH, Schneiders MS, Koster J, Waterham HR (2006b) Mutational spectrum and genotype-phenotype correlations in mevalonate kinase deficiency. Hum Mutat 8:796–802
Mansfield E, Chae JJ, Komarow HD, Brotz TM, Frucht DM, Aksentijevich I, Kastner DL (2001) The familial Mediterranean fever protein, pyrin, associates with microtubules and colocalizes with actin filaments. Blood 3:851–859
Mariathasan S, Weiss DS, Newton K, McBride J, O’Rourke K, Roose-Girma M, Lee WP, Weinrauch Y, Monack DM, Dixit VM (2006) Cryopyrin activates the inflammasome in response to toxins and ATP. Nature 7081:228–232
Martinon F, Petrilli V, Mayor A, Tardivel A, Tschopp J (2006) Gout-associated uric acid crystals activate the NALP3 inflammasome. Nature 7081:237–241
Matzner Y, Abedat S, Shapiro E, Eisenberg S, Bar-Gil-Shitrit A, Stepensky P, Calco S, Azar Y, Urieli-Shoval S (2000) Expression of the familial Mediterranean fever gene and activity of the C5a inhibitor in human primary fibroblast cultures. Blood 2:727–731
Mayor A, Martinon F, De Smedt T, Petrilli V, Tschopp J (2007) A crucial function of SGT1 and HSP90 in inflammasome activity links mammalian and plant innate immune responses. Nat Immunol 5:497–503
McDermott EM, Smillie DM, Powell RJ (1997) Clinical spectrum of familial Hibernian fever: a 14-year follow-up study of the index case and extended family. Mayo Clin Proc 9:806–817
McDermott MF, Ogunkolade BW, McDermott EM, Jones LC, Wan Y, Quane KA, McCarthy J, Phelan M, Molloy MG, Powell RJ, Amos CI, Hitman GA (1998) Linkage of familial Hibernian fever to chromosome 12p13. Am J Hum Genet 6:1446–1451
McDermott MF, Aksentijevich I, Galon J, McDermott EM, Ogunkolade BW, Centola M, Mansfield E, Gadina M, Karenko L, Pettersson T, McCarthy J, Frucht DM, Aringer M, Torosyan Y, Teppo AM, Wilson M, Karaarslan HM, Wan Y, Todd I, Wood G, Schlimgen R, Kumarajeewa TR, Cooper SM, Vella JP, Amos CI, Mulley J, Quane KA, Molloy MG, Ranki A, Powell RJ, Hitman GA, O’Shea JJ, Kastner DL (1999) Germline mutations in the extracellular domains of the 55 kDa TNF receptor, TNFR1, define a family of dominantly inherited autoinflammatory syndromes. Cell 1:133–144
Miceli-Richard C, Lesage S, Rybojad M, Prieur AM, Manouvrier-Hanu S, Hafner R, Chamaillard M, Zouali H, Thomas G, Hugot JP (2001) CARD15 mutations in Blau syndrome. Nat Genet 1:19–20
Mulley J, Saar K, Hewitt G, Ruschendorf F, Phillips H, Colley A, Sillence D, Reis A, Wilson M (1998) Gene localization for an autosomal dominant familial periodic fever to 12p13. Am J Hum Genet 4:884–889
Online Mendelian Inheritance in Man (2008) http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=OMIM. Cited 18 January 2008
Orange JS, Ramesh N, Remold-O’Donnell E, Sasahara Y, Koopman L, Byrne M, Bonilla FA, Rosen FS, Geha RS, Strominger JL (2002) Wiskott-Aldrich syndrome protein is required for NK cell cytotoxicity and colocalizes with actin to NK cell-activating immunologic synapses. Proc Natl Acad Sci U S A 17:11351–11356
Papin S, Cuenin S, Agostini L, Martinon F, Werner S, Grätter C, Grätter M, Tschopp J (2007) The SPRY domain of Pyrin, mutated in familial Mediterranean fever patients, interacts with inflammasome components and inhibits proIL-1beta processing. Cell Death Differ 14:1457–1466
Prieur AM (2001) A recently recognised chronic inflammatory disease of early onset characterised by the triad of rash, central nervous system involvement and arthropathy. Clin Exp Rheumatol 1:103–106
Rebelo S, Bainbridge S, Amel-Kashipaz M, Radford P, Powell R, Todd I, Tighe P (2006) Modeling of tumor necrosis factor receptor superfamily 1A mutants associated with tumor necrosis factor receptor-associated periodic syndrome indicates misfolding consistent with abnormal function. Arthritis Rheum 8:2674–2687
Richards N, Schaner P, Diaz A, Stuckey J, Shelden E, Wadhwa A, Gumucio DL (2001) Interaction between pyrin and the apoptotic speck protein (ASC) modulates ASC-induced apoptosis. J Biol Chem 42:39320–39329
Rosé CD, Wouters CH, Meiorin S, Doyle TM, Davey MP, Rosenbaum JT, Martin TM (2006) Pediatric granulomatous arthritis: an international registry. Arthritis Rheum 10:3337–3344
Samuels J, Aksentijevich I, Torosyan Y, Centola M, Deng Z, Sood R, Kastner DL (1998) Familial Mediterranean fever at the millennium. Clinical spectrum, ancient mutations, and a survey of 100 American referrals to the National Institutes of Health. Medicine (Baltimore) 4:268–297
Schaner P, Richards N, Wadhwa A, Aksentijevich I, Kastner D, Tucker P, Gumucio D (2001) Episodic evolution of pyrin in primates: human mutations recapitulate ancestral amino acid states. Nat Genet 3:318–321
Schneiders M, Houten S, Turkenburg M, Waterham H (2006) Manipulation of isoprenoid biosynthesis as a possible therapeutic option in mevalonate kinase deficiency. Arthritis Rheum 7:2306–2313
Seshadri S, Duncan MD, Hart JM, Gavrilin MA, Wewers MD (2007) Pyrin levels in human monocytes and monocyte-derived macrophages regulate IL-1beta processing and release. J Immunol 2:1274–1281
Shoham NG, Centola M, Mansfield E, Hull KM, Wood G, Wise CA, Kastner DL (2003) Pyrin binds the PSTPIP1/CD2BP1 protein, defining familial Mediterranean fever and PAPA syndrome as disorders in the same pathway. Proc Natl Acad Sci U S A 23:13501–13506
Simon A, Drewe E, van der Meer JW, Powell RJ, Kelley RI, Stalenhoef AF, Drenth JP (2004) Simvastatin treatment for inflammatory attacks of the hyperimmunoglobulinemia D and periodic fever syndrome. Clin Pharmacol Ther 5:476–483
Takada K, Aksentijevich I, Mahadevan V, Dean J, Kelley R, Kastner D (2003) Favorable preliminary experience with etanercept in two patients with the hyperimmunoglobulinemia D and periodic fever syndrome. Arthritis Rheum 9:2645–2651
Tchernitchko D, Chiminqgi M, Galacteros F, Prehu C, Segbena Y, Coulibaly H, Rebaya N, Loric S (2005) Unexpected high frequency of P46L TNFRSF1A allele in sub-Saharan West African populations. Eur J Hum Genet 4:513–515
Ting JP, Kastner DL, Hoffman HM (2006) CATERPILLERs, pyrin and hereditary immunological disorders. Nat Rev Immunol 3:183–195
Todd I, Radford PM, Daffa N, Bainbridge SE, Powell RJ, Tighe PJ (2007) Mutant tumor necrosis factor receptor associated with tumor necrosis factor receptor-associated periodic syndrome is altered antigenically and is retained within patients’ leukocytes. Arthritis Rheum 8:2765–2773
Tschopp J, Martinon F, Burns K (2003) NALPs: a novel protein family involved in inflammation. Nat Rev Mol Cell Biol 2:95–104
van der Meer J, Vossen J, Radl J, van Nieuwkoop J, Meyer C, Lobatto S, van Furth R (1984) Hyperimmunoglobulinaemia D and periodic fever: a new syndrome. Lancet 8386:1087–1090
Willingham S, Bergstralh D, O’Connor W, Morrison A, Taxman D, Duncan J, Barnoy S, Venkatesan M, Flavell R, Deshmukh M, Hoffman H, Ting J (2007) Microbial pathogen-induced necrotic cell death mediated by the inflammasome components CIAS1/cryopyrin/NLRP3 and ASC. Cell Host Microbe 3:147–159
Wise C, Bennett L, Pascual V, Gillum J, Bowcock A (2000) Localization of a gene for familial recurrent arthritis. Arthritis Rheum 9:2041–2045
Yap MW, Nisole S, Lynch C, Stoye JP (2004) Trim5alpha protein restricts both HIV-1 and murine leukemia virus. Proc Natl Acad Sci U S A 29:10786–10791
Yepiskoposyan L, Harutyunyan A (2007) Population genetics of familial Mediterranean fever: a review. Eur J Hum Genet 15:911–916
Yu J, Fernandes-Alnemri T, Datta P, Wu J, Juliana C, Solorzano L, McCormick M, Zhang Z, Alnemri E (2007) Pyrin activates the ASC pyroptosome in response to engagement by autoinflammatory PSTPIP1 mutants. Mol Cell 2:214–227
Yu JW, Wu J, Zhang Z, Datta P, Ibrahimi I, Taniguchi S, Sagara J, Fernandes-Alnemri T, Alnemri ES (2006) Cryopyrin and pyrin activate caspase-1, but not NF-kappa B, via ASC oligomerization. Cell Death Differ 2:236–249
Zemer D, Revach M, Pras M, Modan B, Schor S, Sohar E, Gafni J (1974) A controlled trial of colchicine in preventing attacks of familial Mediterranean fever. N Engl J Med 18:932–934
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Ryan, J.G., Kastner, D.L. (2008). Fevers, Genes, and Innate Immunity. In: Beutler, B. (eds) Immunology, Phenotype First: How Mutations Have Established New Principles and Pathways in Immunology. Current Topics in Microbiology and Immunology, vol 321. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-75203-5_8
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