Skip to main content
Hauptrubriken
CME Facharzt-Training Webinare Zeitschriften Bücher e.Medpedia Podcast
Service
Jobbörse Info & Hilfe
Fachgebiete
Anästhesiologie Allgemeinmedizin Arbeitsmedizin Augenheilkunde Chirurgie Dermatologie Gynäkologie und Geburtshilfe HNO Innere Medizin Kardiologie Neurologie Onkologie und Hämatologie Orthopädie und Unfallchirurgie Pädiatrie Pathologie Psychiatrie Radiologie Rechtsmedizin Urologie Zahnmedizin
Themen
Klimawandel und Gesundheit Neues aus dem Markt COVID-19 Praxis und Beruf Seltene Erkrankungen GOÄ & EBM Panorama
Sammlungen
Kasuistiken Algorithmen & Infografiken Blickdiagnosen Arthropedia FlapFinder (für Dermatochirurgen) Videos Kongressberichterstattung Medizin für Apothekerinnen und Apotheker Für Ärztinnen und Ärzte in Weiterbildung Für Medizinstudierende

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Konkret geht es um den Diabetes-Patienten mit kardiovaskulären Erkrankungen oder Risiken, die Herzinsuffizienz sowie die kardiovaskuläre Primär- und Sekundärprävention. Sind Sie hier schon auf dem neuesten Stand? Unsere Experten beleuchten, wo und warum das bisherige Procedere geändert werden soll und was in der Praxis sinnvoll ist. Holen Sie sich Ihr Update und 2 CME-Punkte beim MMW-Webinar am 24. April von 17.30 bis 19 Uhr
Erweiterte Suche
Anmelden
nach oben
Clinical Reviews in Allergy & Immunology
Erschienen in: Clinical Reviews in Allergy & Immunology 1-2/2007

01.10.2007

Pathophysiology of Cutaneous Lupus Erythematosus

verfasst von: Julie H. Lin, Jan P. Dutz, Richard D. Sontheimer, Victoria P. Werth

Erschienen in: Clinical Reviews in Allergy & Immunology | Ausgabe 1-2/2007

Einloggen, um Zugang zu erhalten

Abstract

Cutaneous lupus erythematosus (LE; syn LE-specific skin disease) is an autoimmune disease with well-defined skin manifestations often accentuated in a photodistribution and frequently associated with specific autoantibodies. These clinical observations have led to numerous laboratory studies related to the role of ultraviolet light, as well as studies of the cascade of immunologic events involved in the pathogenesis of cutaneous LE. We discuss the epidemiologic, clinical, and laboratory findings of cutaneous LE, including the classification of disease subsets. We review the evidence for abnormal photoreactivity in LE with an overview of the cellular, molecular, and genetic factors that may underlie this abnormality. As there is yet no convincing animal model of cutaneous LE, many studies remain descriptive in nature. To arrive at an understanding of the potential mechanisms underlying the development of cutaneous lupus, we discuss the role of ultraviolet light-mediated induction of apoptosis, antigen presentation, genetic factors, and mediators of inflammation. In addition, we consider the role and importance of humoral and cellular factors, synthesizing the current understanding of the pathophysiology of cutaneous lupus.
Literatur
1.
Tan EM, Cohen AS, Fries JF, Masi AT, McShane DJ, Rothfield NF, Schaller JG, Talal N, Winchester RJ (1982) The 1982 revised criteria for the classification of systemic lupus erythematosus. Arthritis Rheum 25:1271–1277PubMed
2.
Tebbe B, Orfanos CE (1997) Epidemiology and socioeconomic impact of skin disease in lupus erythematosus. Lupus 6:96–104PubMed
3.
Wallace DJ, Pistiner M, Nessim S, Metzger AL, Klinenberg JR (1992) Cutaneous lupus erythematosus without systemic lupus erythematosus: clinical and laboratory features. Semin Arthritis Rheum. 21:221–226PubMed
4.
Michet CJ Jr, McKenna CH, Elveback LR, Kaslow RA, Kurland LT (1985) Epidemiology of systemic lupus erythematosus and other connective tissue diseases in Rochester, Minnesota, 1950 through 1979. Mayo Clin Proc 60:105–113PubMed
5.
Lee C, Kim J (1997) Clinical features of subacute cutaneous lupus erythematosus among Korean patients with lupus erythematosus. Kor J Dermatol 35:82–87
6.
Sontheimer R (1989) Subacute cutaneous lupus erythematosus: a decade’s perspective. Med Clin North Am 73:1073–1090PubMed
7.
Werth VP (2005) Clinical manifestations of cutaneous lupus erythematosus. Autoimmun Rev 4:296–302PubMed
8.
Petri M (2005) Review of classification criteria for systemic lupus erythematosus. Rheum Dis Clin North Am 31:245–54, viPubMed
9.
Albrecht J, Berlin JA, Braverman IM, Callen JP, Connolly MK, Costner MI, Dutz J, Fivenson D, Franks AG, Jorizzo JL, Lee LA, McCauliffe DP, Sontheimer RD, Werth VP (2004) Dermatology position paper on the revision of the 1982 ACR criteria for systemic lupus erythematosus. Lupus 13:839–849PubMed
10.
Sontheimer RD, Thomas JR, Gilliam JN (1979) Subacute cutaneous lupus erythematosus: a cutaneous marker for a distinct lupus erythematosus subset. Arch Dermatol 115:1409–1415PubMed
11.
Sontheimer RD (2005) Subacute cutaneous lupus erythematosus: 25-year evolution of a prototypic subset (subphenotype) of lupus erythematosus defined by characteristic cutaneous, pathological, immunological, and genetic findings. Autoimmun Rev 4:253–263PubMed
12.
Petri M (1998) Dermatologic lupus: Hopkins lupus cohort. Semin Cutan Med Surg 17:219–227PubMed
13.
Sontheimer RD, Maddison PJ, Reichlin M, Jordon RE, Stastny P, Gilliam JN (1982) Serologic and HLA associations in subacute cutaneous lupus erythematosus, a clinical subset of lupus erythematosus. Ann Intern Med 97:664–671PubMed
14.
Pistiner M, Wallace DJ, Nessim S, Metzger AL, Klinenberg JR (1991) Lupus erythematosus in the 1980s: a survey of 570 patients. Semin Arthritis Rheum 21:55–64PubMed
15.
Wallace DJ, Lyon I (1999) Pierre Cazenave and the first detailed modern description of lupus erythematosus. Semin Arthritis Rheum 28:305–313PubMed
16.
Kesten BM, Slatkin M (1953) Diseases related to light sensitivity. AMA Arch Derm Syphilol 67:284–301PubMed
17.
Epstein JH, Tuffanelli D, Dubois EL (1965) Light sensitivity and lupus erythematosus. Arch Dermatol 91:483–485PubMed
18.
Baer RL, Harber LC (1965) Photobiology of lupus erythematosus. Arch Dermatol 92:124–128
19.
Cripps DJ, Rankin J (1973) Action spectra of lupus erythematosus and experimental immunofluorescence. Arch Dermatol 107:563–567PubMed
20.
Wolska H, Blaszczyk M, Jablonska S (1989) Phototests in patients with various forms of lupus erythematosus. Int J Dermatol 28:98–103PubMed
21.
Doria A, Biasinutto C, Ghirardello A, Sartori E, Rondinone R, Piccoli A, Veller FC, Gambari PF (1996) Photosensitivity in systemic lupus erythematosus: laboratory testing of ARA/ACR definition. Lupus 5:263–268PubMed
22.
Sanders CJ, van Weelden H, Kazzaz GA, Sigurdsson V, Toonstra J, Bruijnzeel-Koomen CA (2003) Photosensitivity in patients with lupus erythematosus: a clinical and photobiological study of 100 patients using a prolonged phototest protocol. Br J Dermatol 149:131–137PubMed
23.
Azizah MR, Azila MN, Zulkifli MN, Norita TY (1996) The prevalence of antinuclear, anti-dsDNA, anti-Sm and anti-RNP antibodies in a group of healthy blood donors. Asian Pac J Allergy Immunol 14:125–128PubMed
24.
Hanvivatvong O, Tirawatnapong S, Kaowopas Y, Jitapankul S (2003) Prevalence of autoantibodies in Thai elderly. J Med Assoc Thai 86(Suppl 2):S242–S249PubMed
25.
Vella FS, Orlando P, Attanasi F, Simone B, Mundo A, Lopalco P, Schiraldi O, Antonaci S (2001) Autoantibodies in chronic hepatitis C. Markers of autoimmunity or non-specific events? Recenti Prog Med 92:107–112PubMed
26.
Wasmuth HE, Stolte C, Geier A, Dietrich CG, Gartung C, Lorenzen J, Matern S, Lammert F (2004) The presence of non-organ-specific autoantibodies is associated with a negative response to combination therapy with interferon and ribavirin for chronic hepatitis C. BMC Infect Dis 4:4PubMed
27.
Atzeni F, Turiel M, Capsoni F, Doria A, Meroni P, Sarzi-Puttini P (2005) Autoimmunity and anti-TNF-alpha agents. Ann N Y Acad Sci 1051:559–569PubMed
28.
David-Bajar KM, Davis BM (1997) Pathology, immunopathology, and immunohistochemistry in cutaneous lupus erythematosus. Lupus 6:145–157PubMed
29.
Ueki H, Wolff HH, Braun-Falco O (1974) Cutaneous localization of human gamma-globulins in lupus erythematosus. An electron-microscopical study using the peroxidase-labeled antibody technique. Arch Dermatol Forsch 248:297–314PubMed
30.
Gilliam JN (1975) The significance of cutaneous immunoglobulin deposits in lupus erythematosus and NZB/NZW F1 hybrid mice. J Invest Dermatol 65:154–161PubMed
31.
Alahlafi AM, Wordsworth P, Wojnarowska F (2004) The lupus band: do the autoantibodies target collagen VII? Br J Dermatol 150:504–510PubMed
32.
Lee LA, Roberts CM, Frank MB, McCubbin VR, Reichlin M (1994) The autoantibody response to Ro/SSA in cutaneous lupus erythematosus. Arch Dermatol 130:1262–1268PubMed
33.
Pinkus H (1973), Lichenoid tissue reactions. A speculative review of the clinical spectrum of epidermal basal cell damage with special reference to erythema dyschromicum perstans. Arch Dermatol 107:840–846PubMed
34.
de Jong EM, van Erp PE, Ruiter DJ, van de Kerkhof PC (1991) Immunohistochemical detection of proliferation and differentiation in discoid lupus erythematosus. J Am Acad Dermatol 25:1032–1038PubMed
35.
Albrecht J, Taylor L, Berlin JA, Dulay S, Ang G, Fakharzadeh S, Kantor J, Kim E, Militello G, McGinnis K, Richardson S, Treat J, Vittorio C, Van Voorhees A, Werth VP (2005) The CLASI (cutaneous lupus erythematosus disease area and severity index): an outcome instrument for cutaneous lupus erythematosus. J Invest Dermatol 125:889–894PubMed
36.
Bonilla-Martinez Z, Albrecht J, Taylor L, Okawa J, Werth VP (2006) The CLASI (cutaneous le disease area and severity index): an outcome instrument for cutaneous lupus erythematosus. J Investig Dermatol 126:47–47
37.
Freeman RG, Knox JM, Owens DW (1969) Cutaneous lesions of lupus erythematosus induced by monochromatic light. Arch Dermatol 100:677–682PubMed
38.
Kochevar IE (1985) Action spectrum and mechanisms of UV radiation-induced injury in lupus erythematosus. J Invest Dermatol 85:140s–143sPubMed
39.
Dowdy MJ, Nigra TP, Barth WF (1989) Subacute cutaneous lupus erythematosus during PUVA therapy for psoriasis: case report and review of the literature. Arthritis Rheum 32:343–346PubMed
40.
Fruchter O, Edoute Y (2005) First presentation of systemic lupus erythematosus following ultraviolet radiation exposure in an artificial tanning device. Rheumatology (Oxford) 44:558–559
41.
Stern RS, Docken W (1986) An exacerbation of SLE after visiting a tanning salon. JAMA 255:3120
42.
Lehmann P, Holzle E, Kind P, Goerz G, Plewig G (1990) Experimental reproduction of skin lesions in lupus erythematosus by UVA and UVB radiation. J Am Acad Dermatol 22:181–187PubMed
43.
Kuhn A, Sonntag M, Richter-Hintz D, Oslislo C, Megahed M, Ruzicka T, Lehmann P (2001) Phototesting in lupus erythematosus: a 15-year experience. J Am Acad Dermatol 45:86–95PubMed
44.
Nived O, Johansen PB, Sturfelt G (1993) Standardized ultraviolet A exposure provokes skin reaction in systemic lupus erythematosus. Lupus 2:247–250PubMed
45.
Wysenbeek AJ, Block DA, Fries JF (1989) Prevalence and expression of photosensitivity in systemic lupus erythematosus. Ann Rheum Dis 48:461–463PubMed
46.
Walchner M, Messer G, Kind P (1997) Phototesting and photoprotection in LE. Lupus 6:167–174PubMed
47.
Krause I, Shraga I, Molad Y, Guedj D, Weinberger A (1997) Seasons of the year and activity of SLE and Behcet’s disease. Scand J Rheumatol 26:435–439PubMedCrossRef
48.
Leone J, Pennaforte JL, Delhinger V, Detour J, Lefondre K, Eschard JP, Etienne JC (1997) Influence of seasons on risk of flare-up of systemic lupus: retrospective study of 66 patients. Rev Med Interne 18:286–291PubMed
49.
Bengtsson AA, Rylander L, Hagmar L, Nived O, Sturfelt G (2002) Risk factors for developing systemic lupus erythematosus: a case-control study in southern Sweden. Rheumatology (Oxford) 41:563–571
50.
Zamansky GB, Chou IN (1990) Disruption of keratin intermediate filaments by ultraviolet radiation in cultured human keratinocytes. Photochem Photobiol 52:903–906PubMed
51.
LeFeber WP, Norris DA, Ryan SR, Huff JC, Lee LA, Kubo M, Boyce ST, Kotzin BL, Weston WL (1984) Ultraviolet light induces binding of antibodies to selected nuclear antigens on cultured human keratinocytes. J Clin Invest 74:1545–1551PubMed
52.
Golan TD, Elkon KB, Gharavi AE, Krueger JG (1992) Enhanced membrane binding of autoantibodies to cultured keratinocytes of systemic lupus erythematosus patients after ultraviolet B/ultraviolet A irradiation. J Clin Invest 90:1067–1076PubMed
53.
Casciola-Rosen LA, Anhalt G, Rosen A (1994) Autoantigens targeted in systemic lupus erythematosus are clustered in two populations of surface structures on apoptotic keratinocytes. J Exp Med 179:1317–1330PubMed
54.
Casciola-Rosen L, Rosen A (1997) Ultraviolet light-induced keratinocyte apoptosis: a potential mechanism for the induction of skin lesions and autoantibody production in LE. Lupus 6:175–180PubMed
55.
Tan EM (1994) Autoimmunity and apoptosis. J Exp Med 179:1083–1086PubMed
56.
Vaux DL (1993) Toward an understanding of the molecular mechanisms of physiological cell death. Proc Natl Acad Sci USA 90:786–789PubMed
57.
Savill J, Fadok V, Henson P, Haslett C (1993) Phagocyte recognition of cells undergoing apoptosis. Immunol Today 14:131–136PubMed
58.
Savill J (1998) Apoptosis. Phagocytic docking without shocking. Nature 392:442–443PubMed
59.
Weedon D, Strutton G (1981) Apoptosis as the mechanism of the involution of hair follicles in catagen transformation. Acta Derm Venereol 61:335–339PubMed
60.
Budtz PE, Spies I (1989) Epidermal tissue homeostasis: apoptosis and cell emigration as mechanisms of controlled cell deletion in the epidermis of the toad, Bufo bufo. Cell Tissue Res 256:475–486PubMed
61.
McCall CA, Cohen JJ (1991) Programmed cell death in terminally differentiating keratinocytes: role of endogenous endonuclease. J Invest Dermatol 97:111–114PubMed
62.
Seitz CS, Freiberg RA, Hinata K, Khavari PA (2000) NF-kappaB determines localization and features of cell death in epidermis. J Clin Invest 105:253–260PubMed
63.
Norris DA, Whang K, David-Bajar K, Bennion SD (1997) The influence of ultraviolet light on immunological cytotoxicity in the skin. Photochem Photobiol 65:636–646PubMed
64.
Daniels FJ (1961) Histochemical responses of human skin following ultraviolet radiation. 37:351–356
65.
Godar DE (1999) UVA1 radiation triggers two different final apoptotic pathways. J Invest Dermatol 112:3–12PubMed
66.
Aragane Y, Kulms D, Metze D, Wilkes G, Poppelmann B, Luger TA, Schwarz T (1998) Ultraviolet light induces apoptosis via direct activation of CD95 (Fas/APO-1) independently of its ligand CD95L. J Cell Biol 140:171–182PubMed
67.
Hill LL, Ouhtit A, Loughlin SM, Kripke ML, Ananthaswamy HN, Owen-Schaub LB (1999) Fas ligand: a sensor for DNA damage critical in skin cancer etiology. Science 285:898–900PubMed
68.
Qin JZ, Bacon P, Panella J, Sitailo LA, Denning MF, Nickoloff BJ (2004) Low-dose UV-radiation sensitizes keratinocytes to TRAIL-induced apoptosis. J Cell Physiol 200:155–166PubMed
69.
Schwarz A, Bhardwaj R, Aragane Y, Mahnke K, Riemann H, Metze D, Luger TA, Schwarz T (1995) Ultraviolet-B-induced apoptosis of keratinocytes: evidence for partial involvement of tumor necrosis factor-alpha in the formation of sunburn cells. J Invest Dermatol 104:922–927PubMed
70.
Zhuang L, Wang B, Shinder GA, Shivji GM, Mak TW, Sauder DN (1999) TNF receptor p55 plays a pivotal role in murine keratinocyte apoptosis induced by ultraviolet B irradiation. J Immunol 162:1440–1447PubMed
71.
Kulms D, Poppelmann B, Yarosh D, Luger TA, Krutmann J, Schwarz T (1999) Nuclear and cell membrane effects contribute independently to the induction of apoptosis in human cells exposed to UVB radiation. Proc Natl Acad Sci U S A 96:7974–7979PubMed
72.
Alnemri ES, Livingston DJ, Nicholson DW, Salvesen G, Thornberry NA, Wong WW, Yuan J (1996) Human ICE/CED-3 protease nomenclature. Cell 87:171PubMed
73.
Takahashi H, Kinouchi M, Iizuka H (1997) Interleukin-1beta-converting enzyme and CPP32 are involved in ultraviolet B-induced apoptosis of SV40-transformed human keratinocytes. Biochem Biophys Res Commun 236:194–198PubMed
74.
Kuhn A, Herrmann M, Kleber S, Beckmann-Welle M, Fehsel K, Martin-Villalba A, Lehmann P, Ruzicka T, Krammer PH, Kolb-Bachofen V (2006) Accumulation of apoptotic cells in the epidermis of patients with cutaneous lupus erythematosus after ultraviolet irradiation. Arthritis Rheum 54:939–950PubMed
75.
Chung JH, Kwon OS, Eun HC, Youn JI, Song YW, Kim JG, Cho KH (1998) Apoptosis in the pathogenesis of cutaneous lupus erythematosus. Am J Dermatopathol 20:233–241PubMed
76.
Pablos JL, Santiago B, Galindo M, Carreira PE, Ballestin C, Gomez-Reino JJ (1999) Keratinocyte apoptosis and p53 expression in cutaneous lupus and dermatomyositis. J Pathol 188:63–68PubMed
77.
Smith ML, Fornace AJ Jr (1997) p53-mediated protective responses to UV irradiation. Proc Natl Acad Sci U S A 94:12255–12257PubMed
78.
Brysk MM, Selvanayagam P, Arany I, Brysk H, Tyring SK, Rajaraman S (1995) Induction of apoptotic nuclei by interferon-gamma and by predesquamin in cultured keratinocytes. J Interferon Cytokine Res 15:1029–1035PubMed
79.
Tron VA, Trotter MJ, Tang L, Krajewska M, Reed JC, Ho VC, Li G (1998) p53-regulated apoptosis is differentiation dependent in ultraviolet B-irradiated mouse keratinocytes. Am J Pathol 153:579–585PubMed
80.
Henkart PA (1994) Lymphocyte-mediated cytotoxicity: two pathways and multiple effector molecules. Immunity 1:343–346PubMed
81.
Wright SC, Kumar P, Tam AW, Shen N, Varma M, Larrick JW (1992) Apoptosis and DNA fragmentation precede TNF-induced cytolysis in U937 cells. J Cell Biochem 48:344–355PubMed
82.
Lowin B, Hahne M, Mattmann C, Tschopp J (1994) Cytolytic T-cell cytotoxicity is mediated through perforin and Fas lytic pathways. Nature 370:650–652PubMed
83.
Nakajima M, Nakajima A, Kayagaki N, Honda M, Yagita H, Okumura K (1997) Expression of Fas ligand and its receptor in cutaneous lupus: implication in tissue injury. Clin Immunol Immunopathol 83:223–229PubMed
84.
Casciola-Rosen LA, Anhalt GJ, Rosen A (1995) DNA-dependent protein kinase is one of a subset of autoantigens specifically cleaved early during apoptosis. J Exp Med 182:1625–1634PubMed
85.
Utz PJ, Hottelet M, Schur PH, Anderson P (1997) Proteins phosphorylated during stress-induced apoptosis are common targets for autoantibody production in patients with systemic lupus erythematosus. J Exp Med 185:843–854PubMed
86.
Utz PJ, Anderson P (1998) Posttranslational protein modifications, apoptosis, and the bypass of tolerance to autoantigens. Arthritis Rheum 41:1152–1160PubMed
87.
Greidinger EL, Casciola-Rosen L, Morris SM, Hoffman RW, Rosen A (2000) Autoantibody recognition of distinctly modified forms of the U1-70-kd antigen is associated with different clinical disease manifestations. Arthritis Rheum 43:881–888PubMed
88.
Casciola-Rosen L, Andrade F, Ulanet D, Wong WB, Rosen A (1999) Cleavage by granzyme B is strongly predictive of autoantigen status: implications for initiation of autoimmunity. J Exp Med 190:815–826PubMed
89.
Berthou C, Michel L, Soulie A, Jean-Louis F, Flageul B, Dubertret L, Sigaux F, Zhang Y, Sasportes M (1997) Acquisition of granzyme B and Fas ligand proteins by human keratinocytes contributes to epidermal cell defense. J Immunol 159:5293–5300PubMed
90.
Rosen A, Casciola-Rosen L (1999) Autoantigens as substrates for apoptotic proteases: implications for the pathogenesis of systemic autoimmune disease. Cell Death Differ 6:6–12PubMed
91.
Savill J, Fadok V, Henson P, Haslett C (1993) Phagocyte recognition of cells undergoing apoptosis. Immunol Today 14:131–136PubMed
92.
Roos A, Xu W, Castellano G, Nauta AJ, Garred P, Daha MR, van Kooten C (2004) Mini-review: a pivotal role for innate immunity in the clearance of apoptotic cells. Eur J Immunol 34:921–929PubMed
93.
Korb LC, Ahearn JM (1997) C1q binds directly and specifically to surface blebs of apoptotic human keratinocytes: complement deficiency and systemic lupus erythematosus revisited. J Immunol 158:4525–4528PubMed
94.
Eggleton P, Ward FJ, Johnson S, Khamashta MA, Hughes GR, Hajela VA, Michalak M, Corbett EF, Staines NA, Reid KB (2000) Fine specificity of autoantibodies to calreticulin: epitope mapping and characterization. Clin Exp Immunol 120:384–391PubMed
95.
Nepomuceno RR, Henschen-Edman AH, Burgess WH, Tenner AJ (1997) cDNA cloning and primary structure analysis of C1qR(P), the human C1q/MBL/SPA receptor that mediates enhanced phagocytosis in vitro. Immunity 6:119–129PubMed
96.
Bowness P, Davies KA, Norsworthy PJ, Athanassiou P, Taylor-Wiedeman J, Borysiewicz LK, Meyer PA, Walport MJ (1994) Hereditary C1q deficiency and systemic lupus erythematosus. QJM 87:455–464PubMed
97.
Botto M, Dell’Agnola C, Bygrave AE, Thompson EM, Cook HT, Petry F, Loos M, Pandolfi PP, Walport MJ (1998) Homozygous C1q deficiency causes glomerulonephritis associated with multiple apoptotic bodies. Nat Genet 19:56–59PubMed
98.
Pickering MC, Fischer S, Lewis MR, Walport MJ, Botto M, Cook HT (2001) Ultraviolet-radiation-induced keratinocyte apoptosis in C1q-deficient mice. J Invest Dermatol 117:52–58PubMed
99.
Herrmann M, Voll RE, Zoller OM, Hagenhofer M, Ponner BB, Kalden JR (1998) Impaired phagocytosis of apoptotic cell material by monocyte-derived macrophages from patients with systemic lupus erythematosus. Arthritis Rheum 41:1241–1250PubMed
100.
Baumann I, Kolowos W, Voll RE, Manger B, Gaipl U, Neuhuber WL, Kirchner T, Kalden JR, Herrmann M (2002) Impaired uptake of apoptotic cells into tingible body macrophages in germinal centers of patients with systemic lupus erythematosus. Arthritis Rheum 46:191–201PubMed
101.
Okamoto H, Mizuno K, Itoh T, Tanaka K, Horio T (1999) Evaluation of apoptotic cells induced by ultraviolet light B radiation in epidermal sheets stained by the TUNEL technique. J Invest Dermatol 113:802–807PubMed
102.
Woodcock A, Magnus IA (1976) The sunburn cell in mouse skin: preliminary quantitative studies on its production. Br J Dermatol 95:459–468PubMed
103.
Fadok VA, Bratton DL, Konowal A, Freed PW, Westcott JY, Henson PM (1998) Macrophages that have ingested apoptotic cells in vitro inhibit proinflammatory cytokine production through autocrine/paracrine mechanisms involving TGF-beta, PGE2, and PAF. J Clin Invest 101:890–898PubMed
104.
Nauta AJ, Castellano G, Xu W, Woltman AM, Borrias MC, Daha MR, van Kooten C, Roos A (2004) Opsonization with C1q and mannose-binding lectin targets apoptotic cells to dendritic cells. J Immunol 173:3044–3050PubMed
105.
Albert ML, Sauter B, Bhardwaj N (1998) Dendritic cells acquire antigen from apoptotic cells and induce class I-restricted CTLs. Nature 392:86–89PubMed
106.
Rovere P, Vallinoto C, Bondanza A, Crosti MC, Rescigno M, Ricciardi-Castagnoli P, Rugarli C, Manfredi AA (1998) Bystander apoptosis triggers dendritic cell maturation and antigen-presenting function. J Immunol 161:4467–4471PubMed
107.
Caricchio R, McPhie L, Cohen PL (2003) Ultraviolet B radiation-induced cell death: critical role of ultraviolet dose in inflammation and lupus autoantigen redistribution. J Immunol 171:5778–5786PubMed
108.
Scaffidi P, Misteli T, Bianchi ME (2002) Release of chromatin protein HMGB1 by necrotic cells triggers inflammation. Nature 418:191–195PubMed
109.
Shi Y, Evans JE, Rock KL (2003) Molecular identification of a danger signal that alerts the immune system to dying cells. Nature 425:516–521PubMed
110.
Bell DA, Maddison PJ (1980) Serologic subsets in systemic lupus erythematosus: an examination of autoantibodies in relationship to clinical features of disease and HLA antigens. Arthritis Rheum 23:1268–1273PubMed
111.
Scofield RH, Harley JB (1994) Association of anti-Ro/SS-A autoantibodies with glutamine in position 34 of DQA1 and leucine in position 26 of DQB1. Arthritis Rheum 37:961–962PubMed
112.
McCauliffe DP, Faircloth E, Wang L, Hashimoto T, Hoshino Y, Nishikawa T (1996) Similar Ro/SS-A autoantibody epitope and titer responses in annular erythema of Sjogren’s syndrome and subacute cutaneous lupus erythematosus. Arch Dermatol 132:528–531PubMed
113.
Miyagawa S, Shinohara K, Fujita T, Kidoguchi K, Fukumoto T, Hashimoto K, Yoshioka A, Shirai T (1997) Neonatal lupus erythematosus: analysis of HLA class II alleles in mothers and siblings from seven Japanese families. J Am Acad Dermatol 36:186–190PubMed
114.
Rischmueller M, Lester S, Chen Z, Champion G, Van Den BR, Beer R, Coates T, McCluskey J, Gordon T (1998) HLA class II phenotype controls diversification of the autoantibody response in primary Sjogren’s syndrome (pSS). Clin Exp Immunol 111:365–371PubMed
115.
Namekawa T, Kuroda K, Kato T, Yamamoto K, Murata H, Sakamaki T, Nishioka K, Iwamoto I, Saitoh Y, Sumida T (1995) Identification of Ro(SSA) 52 kDa reactive T cells in labial salivary glands from patients with Sjogren’s syndrome. J Rheumatol 22:2092–2099PubMed
116.
Reynolds P, Gordon TP, Purcell AW, Jackson DC, McCluskey J (1996) Hierarchical self-tolerance to T cell determinants within the ubiquitous nuclear self-antigen La (SS-B) permits induction of systemic autoimmunity in normal mice. J Exp Med 184:1857–1870PubMed
117.
Deshmukh US, Lewis JE, Gaskin F, Kannapell CC, Waters ST, Lou YH, Tung KS, Fu SM (1999) Immune responses to Ro60 and its peptides in mice. I. The nature of the immunogen and endogenous autoantigen determine the specificities of the induced autoantibodies. J Exp Med 189:531–540PubMed
118.
Sullivan KE, Wooten C, Schmeckpeper BJ, Goldman D, Petri MA (1997) A promoter polymorphism of tumor necrosis factor alpha associated with systemic lupus erythematosus in African-Americans. Arthritis Rheum 40:2207–2211PubMed
119.
Rood MJ, van Krugten MV, Zanelli E, van der Linden MW, Keijsers V, Schreuder GM, Verduyn W, Westendorp RG, de Vries RR, Breedveld FC, Verweij CL, Huizinga TW (2000) TNF-308A and HLA-DR3 alleles contribute independently to susceptibility to systemic lupus erythematosus. Arthritis Rheum 43:129–134PubMed
120.
Bennion SD, Middleton MH, David-Bajar KM, Brice S, Norris DA (1995) In three types of interface dermatitis, different patterns of expression of intercellular adhesion molecule-1 (ICAM-1) indicate different triggers of disease. J Invest Dermatol 105:71S–79SPubMed
121.
Middleton MH, Norris DA (1995) Cytokine-induced ICAM-1 expression in human keratinocytes is highly variable in keratinocyte strains from different donors. J Invest Dermatol 104:489–496PubMed
122.
Werth VP, Zhang W, Dortzbach K, Sullivan K (2000) Association of a promoter polymorphism of tumor necrosis factor-alpha with subacute cutaneous lupus erythematosus and distinct photoregulation of transcription. J Invest Dermatol 115:726–730PubMed
123.
Millard TP, Kondeatis E, Cox A, Wilson AG, Grabczynska SA, Carey BS, Lewis CM, Khamashta MA, Duff GW, Hughes GR, Hawk JL, Vaughan RW, McGregor JM (2001) A candidate gene analysis of three related photosensitivity disorders: cutaneous lupus erythematosus, polymorphic light eruption and actinic prurigo. Br J Dermatol 145:229–236PubMed
124.
Clancy RM, Backer CB, Yin X, Chang MW, Cohen SR, Lee LA, Buyon JP (2004) Genetic association of cutaneous neonatal lupus with HLA class II and tumor necrosis factor alpha: implications for pathogenesis. Arthritis Rheum 50:2598–2603PubMed
125.
Hoekzema R, Hannema AJ, Swaak TJ, Paardekooper J, Hack CE (1985) Low molecular weight C1q in systemic lupus erythematosus. J Immunol 135:265–271PubMed
126.
Steinsson K, McLean RH, Merrow M, Rothfield NF, Weinstein A (1983) Selective complete Clq deficiency associated with systemic lupus erythematosus. J Rheumatol 10:590–594PubMed
127.
Hannema AJ, Kluin-Nelemans JC, Hack CE, Eerenberg-Belmer AJ, Mallee C, van Helden HP (1984) SLE like syndrome and functional deficiency of C1q in members of a large family. Clin Exp Immunol 55:106–114PubMed
128.
Rynes RI (1982) Inherited complement deficiency states and SLE. Clin Rheum Dis 8:29–47PubMed
129.
Sontheimer RD, Racila E, Racila DM (2005) C1q: its functions within the innate and adaptive immune responses and its role in lupus autoimmunity. J Invest Dermatol 125:14–23PubMed
130.
Racila DM, Sontheimer CJ, Sheffield A, Wisnieski JJ, Racila E, Sontheimer RD (2003) Homozygous single nucleotide polymorphism of the complement C1QA gene is associated with decreased levels of C1q in patients with subacute cutaneous lupus erythematosus. Lupus 12:124–132PubMed
131.
Miwa T, Maldonado MA, Zhou L, Sun X, Luo HY, Cai D, Werth VP, Madaio MP, Eisenberg RA, Song WC (2002) Deletion of decay-accelerating factor (CD55) exacerbates autoimmune disease development in MRL/lpr mice. Am J Pathol 161:1077–1086PubMed
132.
Gilchrest BA, Soter NA, Stoff JS, Mihm MC Jr (1981) The human sunburn reaction: histologic and biochemical studies. J Am Acad Dermatol 5:411–422PubMed
133.
Hruza LL, Pentland AP (1993) Mechanisms of UV-induced inflammation. J Invest Dermatol 100:35S–41SPubMed
134.
Bennion SD, Norris DA (1997) Ultraviolet light modulation of autoantigens, epidermal cytokines and adhesion molecules as contributing factors of the pathogenesis of cutaneous LE. Lupus 6:181–192PubMed
135.
Kupper TS, Chua AO, Flood P, McGuire J, Gubler U (1987) Interleukin 1 gene expression in cultured human keratinocytes is augmented by ultraviolet irradiation. J Clin Invest 80:430–436PubMed
136.
Granstein RD, Sauder DN (1987) Whole-body exposure to ultraviolet radiation results in increased serum interleukin-1 activity in humans. Lymphokine Res 6:187–193PubMed
137.
Kock A, Schwarz T, Kirnbauer R, Urbanski A, Perry P, Ansel JC, Luger TA (1990) Human keratinocytes are a source for tumor necrosis factor alpha: evidence for synthesis and release upon stimulation with endotoxin or ultraviolet light. J Exp Med 172:1609–1614PubMed
138.
Skiba B, Neill B, Piva TJ (2005) Gene expression profiles of TNF-alpha, TACE, furin, IL-1beta and matrilysin in UVA- and UVB-irradiated HaCat cells. Photodermatol Photoimmunol Photomed 21:173–182PubMed
139.
de Vos S, Brach M, Budnik A, Grewe M, Herrmann F, Krutmann J (1994) Post-transcriptional regulation of interleukin-6 gene expression in human keratinocytes by ultraviolet B radiation. J Invest Dermatol 103:92–96PubMed
140.
Ansel J, Perry P, Brown J, Damm D, Phan T, Hart C, Luger T, Hefeneider S (1990) Cytokine modulation of keratinocyte cytokines. J Invest Dermatol 94:101S–107SPubMed
141.
Kupper TS (1989) Mechanisms of cutaneous inflammation. Interactions between epidermal cytokines, adhesion molecules, and leukocytes. Arch Dermatol 125:1406–1412PubMed
142.
Luger TA, Schwarz T (1990) Evidence for an epidermal cytokine network. J Invest Dermatol 95:100S–104SPubMed
143.
Schroder JM (1995) Cytokine networks in the skin. J Invest Dermatol 105:20S–24SPubMed
144.
Wang B, Fujisawa H, Zhuang L, Kondo S, Shivji GM, Kim CS, Mak TW, Sauder DN (1997) Depressed Langerhans cell migration and reduced contact hypersensitivity response in mice lacking TNF receptor p75. J Immunol 159:6148–6155PubMed
145.
Banchereau J, Steinman RM (1998) Dendritic cells and the control of immunity. Nature 392:245–252PubMed
146.
Wenzel J, Worenkamper E, Freutel S, Henze S, Haller O, Bieber T, Tuting T (2005) Enhanced type I interferon signalling promotes Th1-biased inflammation in cutaneous lupus erythematosus. J Pathol 205:435–442PubMed
147.
Meller S, Winterberg F, Gilliet M, Muller A, Lauceviciute I, Rieker J, Neumann NJ, Kubitza R, Gombert M, Bunemann E, Wiesner U, Franken-Kunkel P, Kanzler H., Dieu-Nosjean MC, Amara A, Ruzicka T, Lehmann P, Zlotnik A, Homey B (2005) Ultraviolet radiation-induced injury, chemokines, and leukocyte recruitment: an amplification cycle triggering cutaneous lupus erythematosus. Arthritis Rheum 52:1504–1516PubMed
148.
Grether-Beck S, Olaizola-Horn S, Schmitt H, Grewe M, Jahnke A, Johnson JP, Briviba K, Sies H, Krutmann J (1996) Activation of transcription factor AP-2 mediates UVA radiation- and singlet oxygen-induced expression of the human intercellular adhesion molecule 1 gene. Proc Natl Acad Sci USA 93:14586–14591PubMed
149.
Morita A, Grewe M, Grether-Beck S, Olaizola-Horn S, Krutmann J (1997) Induction of proinflammatory cytokines in human epidermoid carcinoma cells by in vitro ultraviolet A1 irradiation. Photochem Photobiol 65:630–635PubMed
150.
Morita A, Werfel T, Stege H, Ahrens C, Karmann K, Grewe M, Grether-Beck S, Ruzicka T, Kapp A, Klotz LO, Sies H, Krutmann J (1997), Evidence that singlet oxygen-induced human T helper cell apoptosis is the basic mechanism of ultraviolet—a radiation phototherapy. J Exp Med 186:1763–1768PubMed
151.
Heckmann M, Pirthauer M, Plewig G (1997) Adhesion of leukocytes to dermal endothelial cells is induced after single-dose, but reduced after repeated doses of UVA. J Invest Dermatol 109:710–715PubMed
152.
Ullrich SE (1996) Does exposure to UV radiation induce a shift to a Th-2-like immune reaction? Photochem Photobiol 64:254–258PubMed
153.
Abbas AK, Murphy KM, Sher A (1996) Functional diversity of helper T lymphocytes. Nature 383:787–793PubMed
154.
Belmont HM, Buyon J, Giorno R, Abramson S (1994) Up-regulation of endothelial cell adhesion molecules characterizes disease activity in systemic lupus erythematosus. The Shwartzman phenomenon revisited. Arthritis Rheum 37:376–383PubMed
155.
McGrath H Jr, Bak E, Michalski JP (1987) Ultraviolet-A light prolongs survival and improves immune function in (New Zealand black × New Zealand white)F1 hybrid mice. Arthritis Rheum 30:557–561PubMed
156.
McGrath H, Martinez-Osuna P, Lee FA (1996) Ultraviolet-A1 (340–400 nm) irradiation therapy in systemic lupus erythematosus. Lupus 5:269–274PubMed
157.
Polderman MC, le Cessie S, Huizinga TW, Pavel S (2004) Efficacy of UVA-1 cold light as an adjuvant therapy for systemic lupus erythematosus. Rheumatology (Oxford) 43:1402–1404
158.
Szegedi A, Simics E, Aleksza M, Horkay I, Gaal K, Sipka S, Hunyadi J, Kiss E (2005) Ultraviolet-A1 phototherapy modulates Th1/Th2 and Tc1/Tc2 balance in patients with systemic lupus erythematosus. Rheumatology (Oxford) 44:925–931
159.
Sanders CJ, Lam HY, Bruijnzeel-Koomen CA, Sigurdsson V, van Weelden H (2006) UV hardening therapy: a novel intervention in patients with photosensitive cutaneous lupus erythematosus. J Am Acad Dermatol 54:479–486PubMed
160.
Weston WL, Harmon C, Peebles C, Manchester D, Franco HL, Huff JC, Norris DA (1982) A serological marker for neonatal lupus erythematosus. Br J Dermatol 107:377–382PubMed
161.
Xue D, Shi H, Smith JD, Chen X, Noe DA, Cedervall T, Yang DD, Eynon E, Brash DE, Kashgarian M, Flavell RA, Wolin SL (2003) A lupus-like syndrome develops in mice lacking the Ro 60-kDa protein, a major lupus autoantigen. Proc Natl Acad Sci U S A 100:7503–7508PubMed
162.
Clark G, Reichlin M, Tomasi TB Jr (1969) Characterization of a soluble cytoplasmic antigen reactive with sera from patients with systemic lupus erythmatosus. J Immunol 102:117–122PubMed
163.
Boulanger C, Chabot B, Menard HA, Boire G (1995) Autoantibodies in human anti-Ro sera specifically recognize deproteinized hY5 Ro RNA. Clin Exp Immunol 99:29–36PubMedCrossRef
164.
Alspaugh MA, Tan EM (1975) Antibodies to cellular antigens in Sjogren’s syndrome. J Clin Invest 55:1067–1073PubMed
165.
Sontheimer RD, Lieu TS, McCauliffe DP (1991) Molecular characterization of the Ro/SS-A autoimmune response. Semin Dermatol 10:199–205PubMed
166.
Farris AD, Puvion-Dutilleul F, Puvion E, Harley JB, Lee LA (1997) The ultrastructural localization of 60-kDa Ro protein and human cytoplasmic RNAs: association with novel electron-dense bodies. Proc Natl Acad Sci U S A 94:3040–3045PubMed
167.
O’Brien CA, Wolin SL (1994) A possible role for the 60-kD Ro autoantigen in a discard pathway for defective 5S rRNA precursors. Genes Dev 8:2891–2903PubMed
168.
Ben Chetrit E, Chan EK, Sullivan KF, Tan EM (1988) A 52-kD protein is a novel component of the SS-A/Ro antigenic particle. J Exp Med 167:1560–1571PubMed
169.
Gerl V, Hostmann B, Johnen C, Waka A, Gerl M, Schumann F, Klein R, Radbruch A, Hiepe F (2005) The intracellular 52-kd Ro/SSA autoantigen in keratinocytes is up-regulated by tumor necrosis factor alpha via tumor necrosis factor receptor I. Arthritis Rheum 52:531–538PubMed
170.
DiDonato F, Chan E, Askenase A (1999) Interaction between 52kD SSA/Ro and deubiquinating enzyme UNP; a clue to function (abstract). Arthritis Rheum 42:S109
171.
Slobbe RL, Pluk W, Van Venrooij WJ, Pruijn GJ (1992) Ro ribonucleoprotein assembly in vitro. Identification of RNA-protein and protein–protein interactions. J Mol Biol 227:361–366PubMed
172.
Scofield RH, Kurien BT, Zhang F, Mehta P, Kaufman K, Gross T, Bachmann M, Gordon T, Harley JB (1999) Protein–protein interaction of the Ro-ribonucleoprotein particle using multiple antigenic peptides. Mol Immunol 36:1093–1106PubMed
173.
Cheng ST, Nguyen TQ, Yang YS, Capra JD, Sontheimer RD (1996) Calreticulin binds hYRNA and the 52-kDa polypeptide component of the Ro/SS-A ribonucleoprotein autoantigen. J Immunol 156:4484–4491PubMed
174.
Eggleton P, Reid KB, Kishore U, Sontheimer RD (1997) Clinical relevance of calreticulin in systemic lupus erythematosus. Lupus 6:564–571PubMed
175.
Eggleton P, Llewellyn DH (1999) Pathophysiological roles of calreticulin in autoimmune disease. Scand J Immunol 49:466–473PubMed
176.
Nair S, Wearsch PA, Mitchell DA, Wassenberg JJ, Gilboa E, Nicchitta CV (1999) Calreticulin displays in vivo peptide-binding activity and can elicit CTL responses against bound peptides. J Immunol 162:6426–6432PubMed
177.
Gottlieb E, Steitz JA (1989) Function of the mammalian La protein: evidence for its action in transcription termination by RNA polymerase III. EMBO J 8:851–861PubMed
178.
Holcik M, Korneluk RG (2000) Functional characterization of the X-linked inhibitor of apoptosis (XIAP) internal ribosome entry site element: role of La autoantigen in XIAP translation. Mol Cell Biol 20:4648–4657PubMed
179.
Hendrick JP, Wolin SL, Rinke J, Lerner MR, Steitz JA (1981) Ro small cytoplasmic ribonucleoproteins are a subclass of La ribonucleoproteins: further characterization of the Ro and La small ribonucleoproteins from uninfected mammalian cells. Mol Cell Biol 1:1138–1149PubMed
180.
Nguyen TO, Capra JD, Sontheimer RD (1996) Calreticulin is transcriptionally upregulated by heat shock, calcium and heavy metals. Mol Immunol 33:379–386PubMed
181.
Kinoshita G, Purcell AW, Keech CL, Farris AD, McCluskey J, Gordon TP (1999) Molecular chaperones are targets of autoimmunity in Ro(SS-A) immune mice. Clin Exp Immunol 115:268–274PubMed
182.
Furukawa F, Ikai K, Matsuyoshi N, Shimizu K, Imamura S (1993) Relationship between heat shock protein induction and the binding of antibodies to the extractable nuclear antigens on cultured human keratinocytes. J Invest Dermatol 101:191–195PubMed
183.
Igarashi T, Itoh Y, Fukunaga Y, Yamamoto M (1995) Stress-induced cell surface expression and antigenic alteration of the Ro/SSA autoantigen. Autoimmunity 22:33–42PubMed
184.
Ellis J (1996) Stress proteins as molecular chaperones. Nature 328:378–379
185.
Srivastava PK, Menoret A, Basu S, Binder RJ, McQuade KL (1998) Heat shock proteins come of age: primitive functions acquire new roles in an adaptive world. Immunity 8:657–665PubMed
186.
Birk OS, Gur SL, Elias D, Margalit R, Mor F, Carmi P, Bockova J, Altmann DM, Cohen IR (1999) The 60-kDa heat shock protein modulates allograft rejection. Proc Natl Acad Sci U S A 96:5159–5163PubMed
187.
Ghoreishi M, Katayama I, Yokozeki H, Nishioka K (1993) Analysis of 70 KD heat shock protein (HSP70) expression in the lesional skin of lupus erythematosus (LE) and LE related diseases. J Dermatol 20:400–405PubMed
188.
Mamula MJ (1998) Epitope spreading: the role of self peptides and autoantigen processing by B lymphocytes. Immunol Rev 164:231–239PubMed
189.
McCluskey J, Farris AD, Keech CL, Purcell AW, Rischmueller M, Kinoshita G, Reynolds P, Gordon TP (1998) Determinant spreading: lessons from animal models and human disease. Immunol Rev 164:209–229PubMed
190.
Kinoshita G, Keech CL, Sontheimer RD, Purcell A, McCluskey J, Gordon TP (1998) Spreading of the immune response from 52 kDaRo and 60 kDaRo to calreticulin in experimental autoimmunity. Lupus 7:7–11PubMed
191.
Lieu TS, Sontheimer RD (1997) A subpopulation of WIL-2 cell calreticulin molecules is associated with RO/SS-A ribonucleoprotein particles. Lupus 6:40–47PubMedCrossRef
192.
Scofield RH, Racila DM, Gordon TP, Kurien BT, Sontheimer RD (2000) Anti-calreticulin segregates anti-Ro sera in systemic lupus erythematosus: anti-calreticulin is present in sera with anti-Ro alone but not in anti-Ro sera with anti-La or anti-ribonucleoprotein. J Rheumatol 27:128–134PubMed
193.
Lee LA, Gaither KK, Coulter SN, Norris DA, Harley JB (1989) Pattern of cutaneous immunoglobulin G deposition in subacute cutaneous lupus erythematosus is reproduced by infusing purified anti-Ro (SSA) autoantibodies into human skin-grafted mice. J Clin Invest 83:1556–1562PubMedCrossRef
194.
Furukawa F, Kashihara-Sawami M, Lyons MB, Norris DA (1990) Binding of antibodies to the extractable nuclear antigens SS-A/Ro and SS-B/La is induced on the surface of human keratinocytes by ultraviolet light (UVL): implications for the pathogenesis of photosensitive cutaneous lupus. J Invest Dermatol 94:77–85PubMed
195.
Furukawa F, Lyons MB, Lee LA, Coulter SN, Norris DA (1988) Estradiol enhances binding to cultured human keratinocytes of antibodies specific for SS-A/Ro and SS-B/La. Another possible mechanism for estradiol influence of lupus erythematosus. J Immunol 141:1480–1488PubMed
196.
Rosen A, Casciola-Rosen L, Ahearn J (1995) Novel packages of viral and self-antigens are generated during apoptosis. J Exp Med 181:1557–1561PubMed
197.
Frisoni L, McPhie L, Colonna L, Sriram U, Monestier M, Gallucci S, Caricchio R (2005) Nuclear autoantigen translocation and autoantibody opsonization lead to increased dendritic cell phagocytosis and presentation of nuclear antigens: a novel pathogenic pathway for autoimmunity? J Immunol 175:2692–2701PubMed
198.
Bennion SD, Ferris C, Lieu TS, Reimer CB, Lee LA (1990) IgG subclasses in the serum and skin in subacute cutaneous lupus erythematosus and neonatal lupus erythematosus. J Invest Dermatol 95:643–646PubMed
199.
Biesecker G, Lavin L, Ziskind M, Koffler D (1982) Cutaneous localization of the membrane attack complex in discoid and systemic lupus erythematosus. N Engl J Med 306:264–270PubMedCrossRef
200.
Helm KF, Peters MS (1993) Deposition of membrane attack complex in cutaneous lesions of lupus erythematosus. J Am Acad Dermatol 28:687–691PubMed
201.
Magro CM, Crowson AN, Harrist TJ (1996) The use of antibody to C5b-9 in the subclassification of lupus erythematosus. Br J Dermatol 134:855–862PubMed
202.
Furukawa F, Kanauchi H, Imamura S (1994) Susceptibility to UVB light in cultured keratinocytes of cutaneous lupus erythematosus. Dermatology 189(Suppl 1):18–23PubMed
203.
Furukawa F, Itoh T, Wakita H, Yagi H, Tokura Y, Norris DA, Takigawa M (1999) Keratinocytes from patients with lupus erythematosus show enhanced cytotoxicity to ultraviolet radiation and to antibody-mediated cytotoxicity. Clin Exp Immunol 118:164–170PubMed
204.
Niimi Y, Ioannides D, Buyon J, Bystryn JC (1995) Heterogeneity in the expression of Ro and La antigens in human skin. Arthritis Rheum 38:1271–1276PubMed
205.
Ioannides D, Golden BD, Buyon JP, Bystryn JC (2000) Expression of SS-A/Ro and SS-B/La antigens in skin biopsy specimens of patients with photosensitive forms of lupus erythematosus. Arch Dermatol 136:340–346PubMed
206.
Burlingame RW, Rubin RL, Balderas RS, Theofilopoulos AN (1993) Genesis and evolution of antichromatin autoantibodies in murine lupus implicates T-dependent immunization with self antigen. J Clin Invest 91:1687–1696PubMed
207.
Furukawa F (1997) Animal models of cutaneous lupus erythematosus and lupus erythematosus photosensitivity. Lupus 6:193–202PubMed
208.
Kinoshita K, Tesch G, Schwarting A, Maron R, Sharpe AH, Kelley VR (2000) Costimulation by B7-1 and B7-2 is required for autoimmune disease in MRL-Faslpr mice. J Immunol 164:6046–6056PubMed
209.
Mehling A, Loser K, Varga G, Metze D, Luger TA, Schwarz T, Grabbe S, Beissert S (2001) Overexpression of CD40 ligand in murine epidermis results in chronic skin inflammation and systemic autoimmunity. J Exp Med 194:615–628PubMed
210.
Hooks JJ, Moutsopoulos HM, Geis SA, Stahl NI, Decker JL, Notkins AL (1979) Immune interferon in the circulation of patients with autoimmune disease. N Engl J Med 301:5–8PubMedCrossRef
211.
Ytterberg SR, Schnitzer TJ (1982) Serum interferon levels in patients with systemic lupus erythematosus. Arthritis Rheum 25:401–406PubMed
212.
Friedman RM, Preble O, Black R, Harrell S (1982) Interferon production in patients with systemic lupus erythematosus. Arthritis Rheum 25:802–803PubMed
213.
Preble OT, Black RJ, Friedman RM, Klippel JH, Vilcek J (1982) Systemic lupus erythematosus: presence in human serum of an unusual acid-labile leukocyte interferon. Science 216:429–431PubMed
214.
Kim T, Kanayama Y, Negoro N, Okamura M, Takeda T, Inoue T (1987) Serum levels of interferons in patients with systemic lupus erythematosus. Clin Exp Immunol 70:562–569PubMed
215.
von Wussow P, Jakschies D, Hartung K, Deicher H (1988) Presence of interferon and anti-interferon in patients with systemic lupus erythematosus. Rheumatol Int 8:225–230
216.
Savarese E, Chae OW, Trowitzsch S, Weber G, Kastner B, Akira S, Wagner H, Schmid RM, Bauer S, Krug A (2006) U1 small nuclear ribonucleoprotein immune complexes induce type I interferon in plasmacytoid dendritic cells through TLR7. Blood 107:3229–3234PubMed
217.
Barrat FJ, Meeker T, Gregorio J, Chan JH, Uematsu S, Akira S, Chang B, Duramad O, Coffman RL (2005) Nucleic acids of mammalian origin can act as endogenous ligands for Toll-like receptors and may promote systemic lupus erythematosus. J Exp Med 202:1131–1139PubMed
218.
Kind P, Lehmann P, Plewig G (1993) Phototesting in lupus erythematosus. J Invest Dermatol 100:53S–57SPubMed
219.
Sontheimer R, Bergstresser PR (1982) Epidermal Langerhans cell involvement in cutaneous lupus erythematosus. J Invest Dermatol 79:237–243PubMed
220.
Andrews BS, Schenk A, Barr R, Friou G, Mirick G, Ross P (1986) Immunopathology of cutaneous human lupus erythematosus defined by murine monoclonal antibodies. J Am Acad Dermatol 15:474–481PubMedCrossRef
221.
Shiohara T, Moriya N, Tanaka Y, Arai Y, Hayakawa J, Chiba M, Nagashima M (1988) Immunopathologic study of lichenoid skin diseases: correlation between HLA-DR-positive keratinocytes or Langerhans cells and epidermotropic T cells. J Am Acad Dermatol 18:67–74PubMed
222.
Volc-Platzer B, Anegg B, Milota S, Pickl W, Fischer G (1993) Accumulation of gamma delta T cells in chronic cutaneous lupus erythematosus. J Invest Dermatol 100:84S–91SPubMed
223.
Fivenson DP, Rheins LA, Nordlund JJ, Pomaranski M, Douglass MC, Krull EA (1991) Thy-1 and T-cell receptor antigen expression in mycosis fungoides and benign inflammatory dermatoses. J Natl Cancer Inst 83:1088–1092PubMed
224.
Robak E, Niewiadomska H, Robak T, Bartkowiak J, Blonski JZ, Wozniacka A, Pomorski L, Sysa-Jedrezejowska A (2001) Lymphocyctes Tgammadelta in clinically normal skin and peripheral blood of patients with systemic lupus erythematosus and their correlation with disease activity. Mediators Inflamm 10:179–189PubMed
225.
Rifkin IR, Leadbetter EA, Busconi L, Viglianti G, Marshak-Rothstein A (2005) Toll-like receptors, endogenous ligands, and systemic autoimmune disease. Immunol Rev 204:27–42PubMed
226.
Vollmer J, Tluk S, Schmitz C, Hamm S, Jurk M, Forsbach A, Akira S, Kelly KM, Reeves WH, Bauer S, Krieg AM (2005) Immune stimulation mediated by autoantigen binding sites within small nuclear RNAs involves Toll-like receptors 7 and 8. J Exp Med 202:1575–1585PubMed
227.
Cruz PD Jr, Leverkus M, Dougherty I, Gleason MJ, Eller M, Yaar M, Gilchrest, BA (2000) Thymidine dinucleotides inhibit contact hypersensitivity and activate the gene for tumor necrosis factor alpha1. J Invest Dermatol 114:253–258PubMed
228.
Yu P, Wellmann U, Kunder S, Quintanilla-Martinez L, Jennen L, Dear N, Amann K, Bauer S, Winkler TH, Wagner H (2006) Toll-like receptor 9-independent aggravation of glomerulonephritis in a novel model of SLE. Int Immunol 18:1211–1219PubMed
229.
Wu X, Peng SL (2006) Toll-like receptor 9 signaling protects against murine lupus. Arthritis Rheum 54:336–342PubMed
230.
Kelly KM, Zhuang H, Nacionales DC, Scumpia PO, Lyons R, Akaogi J, Lee P, Williams B, Yamamoto M, Akira S, Satoh M, Reeves WH (2006) “Endogenous adjuvant” activity of the RNA components of lupus autoantigens Sm/RNP and Ro 60. Arthritis Rheum 54:1557–1567PubMed
231.
Norris DA (1993) Pathomechanisms of photosensitive lupus erythematosus. J Invest Dermatol 100:58S–68SPubMed
232.
Lee LA, Farris AD (1999) Photosensitivity diseases: cutaneous lupus erythematosus. J Investig Dermatol Symp Proc 4:73–78PubMed
233.
Orteu CH, Sontheimer RD, Dutz JP (2001) The pathophysiology of photosensitivity in lupus erythematosus. Photodermatol Photoimmunol Photomed 17:95–113PubMed
234.
Werth VP, Dutz JP, Sontheimer RD (1997) Pathogenetic mechanisms and treatment of cutaneous lupus erythematosus. Curr Opin Rheumatol 9:400–409PubMed
235.
Sontheimer RD (1996) Photoimmunology of lupus erythematosus and dermatomyositis: a speculative review. Photochem Photobiol 63:583–594PubMed
236.
Werth VP, Bashir M, Zhang W (2004) Photosensitivity in rheumatic diseases. J Investig Dermatol Symp Proc 9:57–63PubMed
237.
Sontheimer RD (1997) The lexicon of cutaneous lupus erythematosus—a review and personal perspective on the nomenclature and classification of the cutaneous manifestations of lupus erythematosus. Lupus 6:84–95PubMed
Metadaten
Titel
Pathophysiology of Cutaneous Lupus Erythematosus
verfasst von
Julie H. Lin
Jan P. Dutz
Richard D. Sontheimer
Victoria P. Werth
Publikationsdatum
01.10.2007
Verlag
Humana Press Inc
Erschienen in
Clinical Reviews in Allergy & Immunology / Ausgabe 1-2/2007
Print ISSN: 1080-0549
Elektronische ISSN: 1559-0267
DOI
https://doi.org/10.1007/s12016-007-0031-x

Weitere Artikel der Ausgabe 1-2/2007

Clinical Reviews in Allergy & Immunology 1-2/2007 Zur Ausgabe

OriginalPaper

Dendritic Cells and Contact Dermatitis

OriginalPaper

Mast Cells and Immunological Skin Diseases

OriginalPaper

Cutaneous Perspectives on Adaptive Immunity

OriginalPaper

Target Cells in Graft-Versus-Host Disease: Implications for Cancer Therapy

OriginalPaper

Autoimmunity to Type VII Collagen: Epidermolysis Bullosa Acquisita

OriginalPaper

Current Aspects of Innate and Adaptive Immunity in Atopic Dermatitis

Neu im Fachgebiet HNO

16.04.2024 | HNO-Chirurgie | Nachrichten

HNO-Op. auch mit über 90?

16.04.2024 | Tonsillektomie | Nachrichten

Intrakapsuläre Tonsillektomie gewinnt an Boden

15.04.2024 | Hörsturz | Nachrichten

Bilateraler Hörsturz hat eine schlechte Prognose

13.04.2024 | Klinik aktuell | Kongressbericht | Nachrichten

„Nur wer sich gut aufgehoben fühlt, kann auch für Patientensicherheit sorgen“
weitere anzeigen

Update HNO

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert – ganz bequem per eMail.

Newsletter bestellen