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Amornsiripanitch S, Barnes LM, Nordlund JJ et al (1988) Immune studies in the depigmenting C57BL/Ler-vit/vit mice. An apparent isolated loss of contact hypersensitivity. J Immnol 140:3438–3445
Austin LM, Boissy RE (1995) Mammalian tyrosinase-related protein-1 is recognized by autoantibodies from vit-iliginous Smyth chickens. An avian model for human vitiligo. Am J Pathol 146:1529–1541
Berkelhammer J, Ensign BM, Hook RR et al (1982) Growth and spontaneous regression of swine melanoma: relationship of in vitro leukocyte reactivity. JNCI 68:461–468
Boissy RE, Lamoreux ML (1988) Animal models of an acquired pigmentary disorder-vitiligo. Prog Clin Biol Res 256:207–218
Boissy RE, Manga P (2004) On the etiology of contact/ occupational vitiligo. Pigment Cell Res 17:208–214
Boissy RE, Smyth JR Jr, Fite KV (1983) Progressive cyto-logic changes during the development of delayed feather amelanosis and associated choroidal defects in the DAM chicken line. Am J Pathol 111:197–212
Boissy RE, Lamont SJ, Smyth JR Jr (1984) Persistence of abnormal melanocytes in immunosuppressed chickens of the autoimmune “DAM” line. Cell Tissue Res 235:663–668
Boissy RE, Moellmann G, Smyth JR Jr (1985) Melanogenesis and autophagocytosis of melanin within feather melanocytes of delayed amelanotic (DAM) chickens. Pigment Cell 1:731–739
Boissy RE, Moellmann G, Trainer AT et al (1986) Delayed-amelanotic (DAM or Smyth) chicken: melanocyte dysfunction in vivo and in vitro. J Invest Dermatol 86:149–156
Boissy RE, Moellmann GE, Lerner AB (1987) Morphology of melanocytes in hair bulbs and eyes of vitiligo mice. Am J Path 127:380–388
Boissy RE, Liu YY, Medrano EE et al (1991) Structural aberration of the rough endoplasmic reticulum and mel-anosome compartmentalization in long-term cultures of melanocytes from vitiligo patients. J Invest Dermatol 97:395–404
Bowers RR, Gatlin JE (1985) A simple method for the establishment of tissue culture melanocytes from regenerating fowl feathers. In Vitro Cell Dev Biol 21:39–44
Bowers RR, Harmon J, Prescott S et al (1992) Fowl model for vitiligo: genetic regulation on the fate of the melano-cytes. Pigment Cell Res Suppl 2:242–248
Bowers RR, Lujan J, Biboso A et al (1994) Premature avian melanocyte death due to low antioxidant levels of protection: fowl model for vitiligo. Pigment Cell Res 7:409–418
Bowers RR, Nguyen B, Buckner S et al (1999) Role of anti-oxidants in the survival of normal and vitiliginous avian melanocytes. Cell Mol Biol 45:1065–1074
Boyle ML III, Pardue SL, Smyth JR Jr (1987) Effects of corticosterone on the incidence of amelanosis in Smyth delayed amelanotic line chickens. Poult Sci 66:363–367
Burns RP, Tidwell M (1986) Experimental ocular malignant melanoma in Sinclair swine. Curr Eye Res 5:257–262
Calnek BW, Witter RL (1991) Marek's disease. In: Calnek BW, Barnes HJ, Beard CW, Reid WM, Yoder HW Jr (eds) Diseases of poultry. Iowa State University Press, Ames, Iowa
Cerundolo R, De Caprariis D, Esposito L et al (1993) Vitiligo in two water buffaloes: histological, histochemical, and ultrastructural investigations. Pigment Cell Res 6:23–28
Cui J, Chen D, Misfeldt ML et al (1995) Antimelanoma antibodies in swine with spontaneously regressing melanoma. Pigment Cell Res 8:60–63
Denman CJ, McCracken J, Hariharan V et al (2008) HSP70i accelerates depigmentation in a mouse model of autoimmune vitiligo. J Invest Dermatol 128:2041–2048
Erf GF (2008) Autoimmune diseases of poultry. In: Davison F, Kaspers B, Schat K (eds) Avian immunology. Elsevier, London
Erf GF, Smyth JR Jr (1996) Alterations in blood leukocyte populations in Smyth line chickens with autoimmune viti-ligo. Poult Sci 75:351–356
Erf GF, Trejo-Skalli AV, Smyth JR Jr (1995) T cells in regenerating feathers of Smyth line chickens with vitiligo. Clin Immunol Immunopathol 76:120–126
Erf GF, Bersi TK, Wang X et al (2001) Herpesvirus connection in the expression of autoimmune vitiligo in Smyth line chickens. Pigment Cell Res 14:40–46
Erf GF, Johnson JC, Parcells MS et al (2001) A role of turkey herpesvirus in autoimmune Smyth line vitiligo. In: Shat KA (ed) Current progress on avian immunology research. American Association of Avian Pathologists, PA, pp 226–231
Erf GF, Lockhart BR, Griesse RL et al (2003) Circulating melanocyte-specific autoantibodies and feather-infiltrating lymphocytes in young Smyth line chickens prior to visible onset of vitiligo. Pigment Cell Res 16:420–421
Erf GF, Wang X, Bersi TK et al (2003) A role of interferon gamma in autoimmune vitiligo of Smyth line chickens. In: Workshop on Molecular Pathogenesis of Marek's Disease and Avian Immunology, Limassol, Cyprus (published on CD, 5pp)
Erf GF, Wijesekera HD, Lockhart BR et al (2005) Antioxidant capacity and oxidative stress in the local environment of feather-melanocytes in vitiliginous Smyth line chickens. Pigment Cell Res 18:69
Erf GF, Plumlee BL, Bateman KD et al (2007) Examination of early events in the development of autoimmune vitiligo in the Smyth line chicken model. Pigment Cell Res 20:329
Erf GF, Trovillion CT, Plumlee BL et al (2009) Smyth line chicken model for autoimmune vitiligo: opportunity to examine events leading to the expression of vitiligo in susceptible individuals. Pigment Cell and Melanoma Res 21:265
Fite KV, Pardue S, Bengston L et al (1986) Effects of cyclosporine in spontaneous, posterior uveitis. Curr Eye Res 5:787–796
Gebhart W, Niebauer G (1977) Connections between pigment loss and melanogenesis in gray horses of the Lipizzaner breed. Yale J Biol Med 50:45
Greene JF Jr, Morgan CD, Rao A et al (1997) Regression by differentiation in the Sinclair swine model of cutaneous melanoma. Melanoma Res 7(6):47–477
Holland MS, Mackenzie CD, Bull RW et al (1998) Latent turkey herpesvirus infection in lymphoid, nervous, and feather tissues of chickens. Avian Dis 42:292–299
Hook RR Jr, Aultman MD, Adelstein EH et al (1979) Influence of selective breeding on the incidence of melanoma in Sinclair miniature swine. Int J Cancer 24:668–672
Hook RR Jr, Berkelhammer J, Oxenhandler RW (1982) Melanoma: Sinclair swine melanoma. Am J Pathol 108:130–133
Hurwitz AA, Ji Q (2004) Autoimmune pigmentation following sensitization with melanoma antigens. Methods Mol Med 102:421–427
International Chicken Polymorphism Map Consortium (2004) A genetic variation map for chicken with 2.8 million single-nucleotide polymorphisms. Nature 432:717–722
Krishnamoorthy G, Holz A, Wekerle H (2007) Experimental models of spontaneous autoimmune disease in the central nervous system. J Mol Med 85:1161–1173
Kroll TM, Bommiasamy H, Boissy RE et al (2005) 4-Tertiary butyl phenol exposure sensitizes human melanocytes to dendritic cell-mediated killing, relevance to vitiligo. J Invest Dermatol 124:798–806
Lamont SJ, Smyth JR Jr (1981) Effect of bursectomy on development of a spontaneous postnatal amelanosis. Clin Immunol Immunopathol 21:407–411
Lamoreux ML, Boissy RE, Womack JE et al (1992) The vit gene maps to the mi (microphthalmia) locus of the laboratory mouse. J Hered 83:435–439
Lane C, Leitch J, Tan X et al (2004) Vaccination-induced autoimmune vitiligo is a consequence of secondary trauma to the skin. Cancer Res 64:1509–1514
Lengagne R, Le Gal F-A, Garcette M et al (2004) Spontaneous vitiligo in an animal model for human melanoma: role of tumor-specific CD8+ T cells. Cancer Res 64:1496–1501
Le Poole IC, Luiten RM (2008) Autoimmune etiology of generalized vitiligo. In: Nickoloff BJ, Nestle FO (eds) Current directions in autoimmunity: dermatologic immunity, vol 10. Karger, Basel, pp 227–243
Le Poole IC, Das PK, van den Wijngaard RMJGJ et al (1993) Review of the etiopathomechanism of vitiligo: a convergence theory. Exp Dermatol 2:145–153
Le Poole IC, Boissy RE, Sarangarajan R et al (2000) PIG3V, an immortalized human vitiligo melanocyte cell line, expresses dilated endoplasmic reticulum. In Vitro Cell Dev Biol Anim 36:309–319
Lerner AB, Shiohara T, Boissy RE et al (1986) A possible mouse model for vitiligo. J Invest Dermatol 87:299–304
Locke MM, Penedo MCT, Bricker SJ et al (2002) Linkage of the grey coat colour locus to microsatellites on horse chromosome 25. Anim Genet 33:329–337
Medrano EE, Nordlund JJ (1990) Successful culture of adult human melanocytes obtained from normal and vitiligo donors. J Invest Dermatol 95:441–445
Millikan LE, Hook RR, Manning PJ (1973) Immunobiology of melanoma. Gross and ultrastructural studies in a new melanoma model: the Sinclair swine. Yale J Biol Med 46:631–645
Misfeldt ML, Grimm DR (1994) Sinclair miniature swine: an animal model of human melanoma. Vet Immunol Immunopathol 43:167–175
Nagai H, Hara I, Horikawa T et al (2000) Elimination of CD4+ T cell enhances anti-tumor effect of locally secreted interleukin-12 on B16 mouse melanoma and induces vitiligo-like coat color alteration. J Invest Dermatol 115:1059–1064
Namazi MR (2007) Neurogenic dysregulation, oxidative stress, autoimmunity, and melanocytorrhagy in vitiligo: can they be interconnected? Pigment Cell Res 20:360–363
National Institutes of Health Autoimmune Diseases Coordinating Committee (2005) Autoimmune diseases research plan. In: Progress in autoimmune disease. Research NIH, Bethesda, MD
Naughton GK, Mahaffey M, Bystryn J-C (1986) Antibodies to surface antigens of pigmented cells in animals with viti-ligo. Proc Soc Exp Biol Med 181:423–426
Nordlund JJ, Lerner AB (1977) On the causes of melanomas. Am J Pathol 89:443–448
Nordlund JJ, Lerner AB (1982) Vitiligo-it is important. Arch Dermatol 118:5–8
Overwijk WW, Lee DS, Irvine KR et al (1999) Vaccination with a recombinant vaccinia virus encoding “self” antigen induces autoimmune vitiligo and tumor destruction in mice: requirement for CD4(+) T lymphocytes. Proc Natl Acad Sci U S A 96:2982–2987
Pardue SL, Fite KV, Bengston L et al (1987) Enhanced integ-umental and ocular amelanosis following termination of cyclosporine administration. J Invest Dermatol 88:758–761
Pathak S, Multani AS, McConkey DL et al (2000) Spontaneous regression of cutaneous melanoma in Sinclair swine is associated with defective telomerase activity and extensive telomere erosion. Int J Oncol 17:1219–1224
Pawelek J, Korner A, Bergstorm A (1980) New regulation of melanin biosynthesis and autodestruction of melanoma cells. Nature 286:617–619
Pielberg G, Mikko S, Sanberg K et al (2005) Comparative linkage mapping of the Grey coat color gene in horses. Anim Genet 36:390–395
Plumlee BL, Wang X, Erf GF (2006) Interferon-gamma expression in feathers from vitiliginous Smyth line chickens. J Immunol 176:S283
Puri N, Phil M, Mojandar M et al (1987) In vitro growth characteristics of melanocytes obtained from adult normal and vitiligo subjects. J Invest Dermatol 88:434–438
Rezaei N, Gavalas NG, Weetman AP et al (2007) Autoimmunity as an aetiological factor in vitiligo J Eur Acad Dermatol Venereol 21:865–876
Richerson JT, Burns RP, Misfeldt ML (1989) Association of uveal melanocyte destruction in melanoma-bearing swine with large granular lymphocyte cells. Invest Ophthalmol Vis Sci 30:2455–2460
Rodriguez M, Garcia-Barona V, Pena L et al (1997) Grey horse melanotoic condition: a pigmentary disorder. J Equine Vet Sci 17:677–681
Schallreuter KU, Wood JM, Berger J (1991) Low catalase levels in the epidermis of patients with vitiligo. J Invest Dermatol 97:1081–1085
Searle EA, Austin LM, Boissy YL et al (1993). Smyth chicken melanocyte autoantibodies: cross-species recognition, in vivo binding, and plasma membrane reactivity of the antiserum. Pigment Cell Res 6:145–157
Seltenhammer MH, Simhofer H, Scherzer S et al (2003) Equine melanoma in a population of 296 grey Lipizzaner horses. Equine Vet J 35:153–157
Shresta S, Smyth JR Jr, Erf GF (1997) Profiles of pulp infil-trating lymphocytes at various times throughout feather regeneration in Smyth line chickens with vitiligo. Autoimmunity 25:193–201
Smyth JR Jr (1989) The Smyth chicken: a model for autoimmune amelanosis. Poult Biol 2:1–19
Smyth JR Jr, McNeil M (1999) Alopecia areata and universalis in the Smyth chicken model for spontaneous autoimmune vitiligo. J Invest Dermatol Symp Proc 4:211–215
Smyth JR Jr, Boissy RE, Fite KV (1981) The DAM chicken: a model for spontaneous postnatal cutaneous and ocular amelanosis. J Hered 72:150–156
Spritz RA (2007) The genetics of generalized vitiligo and associated autoimmune diseases. Pigment Cell Res 20:271–278
Sreekumar GP, Erf GF, Smyth JR Jr (1996) 5-Azacytidine treatment induces autoimmune vitiligo in the parental control strains of the Smyth line chicken model for autoimmune vitiligo. Clin Immun Immunopathol 81:136–144
Sreekumar GP, Smyth JR Jr, Ponce de Leon FA (2001) Molecular characterization of the Smyth chicken sublines and their parental controls by RFLP and DNA fingerprint analysis. Poult Sci 80:1–5
Swinburne JE, Hopkins A, Binns MM (2002) Assignment of the horse grey coat colour gene to ECA25 using whole genome scanning. Anim Genet 33:338–342
Tripathi RK, Flanders DJ, Young TL et al (1999) Microphthalmia-associated transcription factor (MITF) locus lacks linkage to human vitiligo or osteoperosis: an evaluation. Pigment Cell Res 12:187–192
Wang X, Erf GF (2004) Apoptosis in feathers of Smyth line chickens with autoimmune vitiligo. J Autoimmun 22:21–30
Wang X, Erf GF (2003) Melanocyte-specific cell mediated immune response in vitiliginous Smyth line chickens. J Autoimmun 21:149–160
Wick G, Andersson L, Hala K et al (2006) Avian models with spontaneous autoimmune diseases. Adv Immunol 92:71–117
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Erf, G.F. (2010). Animal Models. In: Picardo, M., Taïeb, A. (eds) Vitiligo. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-69361-1_25
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