Top

Graefe's Archive for Clinical and Experimental Ophthalmology

Published in:

01-04-2010 | Inflammatory Disorders

Anti-retinal autoantibodies in experimental ocular and systemic toxoplasmosis

Authors: Justus G. Garweg, Yvonne de Kozak, Brigitte Goldenberg, Matthias Boehnke

Published in: Graefe's Archive for Clinical and Experimental Ophthalmology | Issue 4/2010

Abstract

Background

Patients with ocular toxoplasmosis (OT) develop autoreactivity to several retinal antigens, including retinal S-antigen. By establishing an experimental rabbit model of systemic and of primary and secondary ocular toxoplasmosis, we wished to investigate the onset and development of humoral response to retinal S-antigen.

Methods

Of twelve infection-naïve rabbits, six were left untreated, and the other six were infected subcutaneously with 5,000 tachyzoites of the highly virulent, non-cyst-forming BK-strain of Toxoplasma gondii. Three months later, the left eye of each animal was infected transvitreally with 5,000 tachyzoites of the same strain. The right eye of each rabbit served as an uninfected control. Blood and aqueous humor were collected prior to infection, and up to 90 days thereafter. Using the ELISA technique, all samples were analyzed in parallel for total IgG, and antibodies against toxoplasmic, bovine retinal S-antigen and peptide 35 from human S-antigen.

Results

In infection-naïve rabbits Toxoplasma-specific antibodies were detected 10 to15 days after systemic and ocular infection. Serum antibodies against retinal S-antigen and peptide 35 were not detected in response to systemic Toxoplasma infection. After ocular challenge, aqueous-humour levels of antibodies against retinal S-antigen and peptide 35 in the infected eye began to rise 10 to 15 days later in infection-naïve, but not in infection-immunized animals. During the early post-infection period, the concentrations of anti-retinal antibodies in the infected eye correlated with the severity of inflammatory tissue destruction, but returned to baseline later even though the inflammatory response persisted. In the uninfected partner eye, concentrations of anti-retinal and toxoplasmic antibodies did not correlate with each other.

Conclusion

Our data afford no evidence of similarities between toxoplasmic and retinal antigens, nor of infection-induced humoral autoimmunity. They indicate rather that retinal autoantigens are liberated in the context of inflammatory tissue destruction due to ocular toxoplasmosis.

Nussenblatt RB, Gery I, Ballintine EJ, Wacker WB (1980) Cellular immune responsiveness of uveitis patients to retinal S-antigen. Am J Ophthalmol 89:173–179PubMed

Wyler DJ, Blackman HJ, Lunde MN (1980) Cellular hypersensitivity to toxoplasmal and retinal antigens in patients with toxoplasmal retinochoroiditis. Am J Trop Med Hyg 29:1181–1186PubMed

Gregerson DS, Abrahams IW, Thirkill CE (1981) Serum antibody levels of uveitis patients to bovine retinal antigens. Invest Ophthalmol Vis Sci 21:669–680PubMed

Abrahams IW, Gregerson DS (1982) Longitudinal study of serum antibody responses to retinal antigens in acute ocular toxoplasmosis. Am J Ophthalmol 93:224–231PubMed

Abrahams IW, Gregerson DS (1983) Longitudinal study of serum antibody responses to bovine retinal S-antigen in endogenous granulomatous uveitis. Br J Ophthalmol 67:681–684CrossRefPubMed

Kijlstra A, Hoekzema R, vd Lelij A, Doekes G, Rothova A (1990) Humoral and cellular immune reactions against retinal antigens in clinical disease. Curr Eye Res 9(Suppl):85–89CrossRefPubMed

Whittle RM, Wallace GR, Whiston RA, Dumonde DC, Stanford MR (1998) Human antiretinal antibodies in toxoplasma retinochoroiditis. Br J Ophthalmol 82:1017–1021CrossRefPubMed

Holliman RE, Stevens PJ, Duffy KT, Johnson JD (1991) Serological investigation of ocular toxoplasmosis. Br J Ophthalmol 75:353–355CrossRefPubMed

Rahi AH, Addison DJ (1983) Autoimmunity and the outer retina. Trans Ophthalmol Soc UK 103:428–437PubMed

10.

La Hey E, Broersma L, van der Gaag R, Baarsma GS, Rothova A, Kijlstra A (1993) Does autoimmunity to S-antigen play a role in Fuchs’ heterochromic cyclitis? Br J Ophthalmol 77:436–439CrossRefPubMed

11.

Dumonde DC, Kasp-Grochowska E, Banga JP, Sanders MD, Graham E, Stanford MA, Faure JP, De Kozak Y, Van Tuyen V (1985) Autoimmune mechanisms in inflammatory eye disease. Trans Ophthalmol Soc UK 104:232–238PubMed

12.

Garweg JG, Ventura AC, Halberstadt M, Silveira C, Muccioli C, Belfort RJ, Jacquier P (2005) Specific antibody levels in the aqueous humor and serum of two distinct populations of patients with ocular toxoplasmosis. Int J Med Microbiol 295:287–295CrossRefPubMed

13.

Glasner PD, Silveira C, Kruszon-Moran D, Martins MC, Burnier Júnior M, Silveira S, Camargo ME, Nussenblatt RB, Kaslow RA, Belfort Júnior R (1992) An unusually high prevalence of ocular toxoplasmosis in southern Brazil. Am J Ophthalmol 114:136–144PubMed

14.

Radon K, Dressel H, Windstetter D, Reichert J, Schmid M, Nowak D (2003) Toxoplasma gondii infection, atopy and autoimmune disease. Eur J Med Res 8:147–153PubMed

15.

de Amorim Garcia CA, Oréfice F, de Oliveira Lyra C, Gomes AB, França M, de Amorim Garcia Filho CA (2004) Socioeconomic conditions as determining factors in the prevalence of systemic and ocular toxoplasmosis in Northeastern Brazil. Ophthalmic Epidemiol 11:301–317CrossRefPubMed

16.

Portela RW, Bethony J, Costa MI, Gazzinelli A, Vitor RW, Hermeto FM, Correa-Oliveira R, Gazzinelli RT (2004) A multihousehold study reveals a positive correlation between age, severity of ocular toxoplasmosis, and levels of glycoinositolphospholipid-specific immunoglobulin A. J Infect Dis 190:175–183CrossRefPubMed

17.

Deckert-Schluter M (1998) Rudolf-Virchow Prize 1998. Award lecture. Toxoplasmosis: a model infection for studying systemic and intracerebral immune reactions. Verh Dtsch Ges Pathol 82:9–22PubMed

18.

Yamamoto JH, Vallochi AL, Silveira C, Filho JK, Nussenblatt RB, Cunha-Neto E, Gazzinelli RT, Belfort R Jr, Rizzo LV (2000) Discrimination between patients with acquired toxoplasmosis and congenital toxoplasmosis on the basis of the immune response to parasite antigens. J Infect Dis 181:2018–2022CrossRefPubMed

19.

Vallochi AL, Nakamura MV, Schlesinger D, Martins MC, Silveira C, Belfort R Jr, Rizzo LV (2002) Ocular toxoplasmosis: more than just what meets the eye. Scand J Immunol 55:324–328CrossRefPubMed

20.

Vallochi AL, da Silva Rios L, Nakamura MV, Silveira C, Muccioli C, Martins MC, Belfort R Jr, Rizzo LV (2005) The involvement of autoimmunity against retinal antigens in determining disease severity in toxoplasmosis. J Autoimmun 24:25–32CrossRefPubMed

21.

Dutton GN (1986) The causes of tissue damage in toxoplasmic retinochoroiditis. Trans Ophthalmol Soc UK 105:404–412PubMed

22.

O’Connor GR (1983) Factors related to the initiation and recurrence of uveitis. XL Edward Jackson memorial lecture. Am J Ophthalmol 96:577–599PubMed

23.

Fischer HG, Bonifas U, Reichmann G (2000) Phenotype and functions of brain dendritic cells emerging during chronic infection of mice with Toxoplasma gondii. J Immunol 164:4826–4834PubMed

24.

Fischer HG, Reichmann G (2001) Brain dendritic cells and macrophages/microglia in central nervous system inflammation. J Immunol 166:2717–2726PubMed

25.

Wickham S, Carr DJ (2004) Molecular mimicry versus bystander activation: herpetic stromal keratitis. Autoimmunity 37:393–397CrossRefPubMed

26.

Benoist C, Mathis D (2001) Autoimmunity provoked by infection: how good is the case for T cell epitope mimicry? Nat Immunol 2:797–801CrossRefPubMed

27.

Deshpande SP, Lee S, Zheng M, Song B, Knipe D, Kapp JA, Rouse BT (2001) Herpes simplex virus-induced keratitis: evaluation of the role of molecular mimicry in lesion pathogenesis. J Virol 75:3077–3088CrossRefPubMed

28.

Forrester JV, Stott DI, Hercus KM (1989) Naturally occurring antibodies to bovine and human retinal S antigen: a comparison between uveitis patients and healthy volunteers. Br J Ophthalmol 73:155–159CrossRefPubMed

29.

Kasp E, Whiston R, Dumonde D, Graham E, Stanford M, Sanders M (1992) Antibody affinity to retinal S-antigen in patients with retinal vasculitis. Am J Ophthalmol 113:697–701PubMed

30.

Garweg JG, Kuenzli H, Boehnke M (1998) Experimental ocular toxoplasmosis in naive and primed rabbits. Ophthalmologica 212:136–141CrossRefPubMed

31.

Doekes G, Luyendijk L, Gerritsen MJ, Kijlstra A (1992) Anti-retinal S-antigen antibodies in human sera: a comparison of reactivity in ELISA with human or bovine S-antigen. Int Ophthalmol 16:147–152CrossRefPubMed

32.

Stiemer RH, Gausepohl H, Mirshahi M, de Kozak Y, Kraft M, Faure JP, Frank RW (1992) Immunological characterization of an immunomodulatory epitope in S-antigen/arrestin with a sequence motif common to tumor necrosis factor alpha. Immunol Lett 32:233–240CrossRefPubMed

33.

de Kozak Y, Stiemer RH, Mirshahi M, Frank RW, de Smet M, Faure JP (1992) Humoral immune response against the S-antigen/TNF alpha common epitope in rat EAU suppressed by the monoclonal antibody S2D2. Curr Eye Res 11(Suppl):119–127CrossRefPubMed

34.

Garweg JG, Boehnke M (2006) The antibody response in experimental ocular toxoplasmosis. Graefes Arch Clin Exp Ophthalmol 244:1668–1679CrossRefPubMed

35.

de Smet MD, Bitar G, Mainigi S, Nussenblatt RB (2001) Human S-antigen determinant recognition in uveitis. Invest Ophthalmol Vis Sci 42(13):3233–3238PubMed

36.

Lee WR, Hay J, Hutchison WM, Dutton GN, Siim JC (1982) A murine model of congenital toxoplasmic retinochoroiditis. Acta Ophthalmol (Copenh) 61:818–830CrossRef

37.

Hay J, Lee WR, Dutton GN, Hutchison WM, Siim JC (1984) Congenital toxoplasmic retinochoroiditis in a mouse model. Ann Trop Med Parasitol 78:109–116PubMed

38.

Vallochi AL, Nakamura MV, Schlesinger D, Martins MC, Silveira C, Belfort R Jr, Rizzo LV (2002) Ocular toxoplasmosis: more than just what meets the eye. Scand J Immunol 55:324–328CrossRefPubMed

39.

Nussenblatt RB, Mittal KK, Fuhrman S, Sharma SD, Palestine AG (1989) Lymphocyte proliferative responses of patients with ocular toxoplasmosis to parasite and retinal antigens. Am J Ophthalmol 107:632–641PubMed

40.

Muino JC, Juarez CP, Luna JD, Castro CC, Wolff EG, Ferrero M, Romero-Piffiguer MD (1999) The importance of specific IgG and IgE autoantibodies to retinal S antigen, total serum IgE, and sCD23 levels in autoimmune and infectious uveitis. J Clin Immunol 19:215–222CrossRefPubMed

41.

de Smet MD, Chan CC (2001) Regulation of ocular inflammation—what experimental and human studies have taught us. Prog Retin Eye Res 20:761–797CrossRefPubMed

42.

Deeg CA, Kaspers B, Gerhards H, Thurau SR, Wollanke B, Wildner G (2001) Immune responses to retinal autoantigens and peptides in equine recurrent uveitis. Invest Ophthalmol Vis Sci 42:393–398PubMed

43.

Zipplies JK, Hauck SM, Schöffmann S, Amann B, van der Meijden CH, Stangassinger M, Ueffing M, Deeg C (2009) Kininogen is decreased in peripheral blood stream but increased in target tissue of autoimmune uveitis. Invest Ophthalmol Vis Sci Aug 20. [Epub ahead of print]

44.

Falcone M, Bloom BR (1997) A T helper cell 2 (Th2) immune response against non-self antigens modifies the cytokine profile of autoimmune T cells and protects against experimental allergic encephalomyelitis. J Exp Med 185:901–907CrossRefPubMed

45.

Gregerson DS (2002) Peripheral expression of ocular antigens in regulation and therapy of ocular autoimmunity. Int Rev Immunol 21:101–121CrossRefPubMed

46.

Graham AL (2002) When T-helper cells don’t help: immunopathology during concomitant infection. Q Rev Biol 77:409–434CrossRefPubMed

47.

Garweg JG, Candolfi E (2009) Immunopathology in ocular toxoplasmosis: facts and clues. Mem Inst Oswaldo Cruz 104:211–220CrossRefPubMed

48.

Radon K, Dressel H, Windstetter D, Reichert J, Schmid M, Nowak D (2003) Toxoplasma gondii infection, atopy and autoimmune disease. Eur J Med Res 8:147–153PubMed

49.

Burns RM, Rheins MS, Suie T (1967) Anti-DNA in the sera of patients with uveitis. Arch Ophthalmol 77:777–779PubMed

50.

O’Connor GR (1970) The influence of hypersensitivity on the pathogenesis of ocular toxoplasmosis. Trans Am Ophthalmol Soc 68:501–547

51.

Liotet S, Bloch-Michel E, Petithory JC, Batellier L, Chaumeil C (1992) Biological modifications of the vitreous in intraocular parasitosis: preliminary study. Int Ophthalmol 16:75–80CrossRefPubMed

52.

Hoekzema R, Hwan SB, Rothova A, van Haren MA, Donoso LA, Kijlstra A (1990) Serum antibody response to human and bovine IRBP in uveitis. Curr Eye Res 9:1177–1183CrossRefPubMed

Title: Anti-retinal autoantibodies in experimental ocular and systemic toxoplasmosis
Authors: Justus G. Garweg
Yvonne de Kozak
Brigitte Goldenberg
Matthias Boehnke
Publication date: 01-04-2010
Publisher: Springer-Verlag
Published in: Graefe's Archive for Clinical and Experimental Ophthalmology / Issue 4/2010
Print ISSN: 0721-832X
Electronic ISSN: 1435-702X
DOI: https://doi.org/10.1007/s00417-009-1242-z

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Anti-retinal autoantibodies in experimental ocular and systemic toxoplasmosis

Abstract

Background

Methods

Results

Conclusion

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Background

Methods

Results

Conclusion

Please log in to get access to this content

Other articles of this Issue 4/2010

Improved retinal function after trabeculectomy in glaucoma patients

The correlation between the regulation of recombinant human IGF-2 on eye growth and form-deprivation in guinea pig

Chirag P. Shah, Gregory L. Fenton, Heather N. Shelsta (Eds): Wills Eye Review of Ophthalmology

The relationship between visual function, duration and main causes of vision loss and falls in older people with low vision

Cost-effectiveness of ranibizumab compared with pegaptanib in neovascular age-related macular degeneration

Comparison between two surgical techniques for lower eyelid rejuvenation: safety analysis and outcomes