UNLABELLED: PURPOSE. The occurrence of eye diseases of autoimmune nature, as well as experimental models of these diseases, has been attributed to the sequestration of ocular antigens from the immune system, that prevents the development of tolerance against these antigens. Here, we tested this assertion by examining whether transcripts of certain ocular antigens are constitutively expressed in the thymus, the site of central tolerance induction. METHOD: RNA was isolated from the eyes and thymi of two mouse strains and analyzed for the expression of genes encoding four retinal and three lens proteins by reverse transcribed-polymerase chain reaction. Southern blot and DNA sequence analyses. RESULTS: We detected gene transcripts of S-Antigen (S-Ag), interphotoreceptor retinoid-binding protein, opsin, recoverin, lens major intrinsic protein (MIP), alphaA-, alphaA(-ins)- and gamma-crystallins in the thymi of BALB/c and FVB/N mouse strains. DNA sequence analysis of the thymic MIP and S-Ag transcripts confirmed their identity to the lens and retinal proteins, respectively. CONCLUSIONS: Our results reveal that transcripts of several ocular-specific proteins are expressed in the thymus and suggest that the commonly held view that ocular-specific antigens are sequestered from the immune system should be modified.
UNLABELLED: PURPOSE. The occurrence of eye diseases of autoimmune nature, as well as experimental models of these diseases, has been attributed to the sequestration of ocular antigens from the immune system, that prevents the development of tolerance against these antigens. Here, we tested this assertion by examining whether transcripts of certain ocular antigens are constitutively expressed in the thymus, the site of central tolerance induction. METHOD: RNA was isolated from the eyes and thymi of two mouse strains and analyzed for the expression of genes encoding four retinal and three lens proteins by reverse transcribed-polymerase chain reaction. Southern blot and DNA sequence analyses. RESULTS: We detected gene transcripts of S-Antigen (S-Ag), interphotoreceptor retinoid-binding protein, opsin, recoverin, lens major intrinsic protein (MIP), alphaA-, alphaA(-ins)- and gamma-crystallins in the thymi of BALB/c and FVB/N mouse strains. DNA sequence analysis of the thymic MIP and S-Ag transcripts confirmed their identity to the lens and retinal proteins, respectively. CONCLUSIONS: Our results reveal that transcripts of several ocular-specific proteins are expressed in the thymus and suggest that the commonly held view that ocular-specific antigens are sequestered from the immune system should be modified.
Authors: M P Gelderman; P Charukamnoetkanok; J P Brady; L Hung; J S Zigler; E F Wawrousek; B P Vistica; E Fortin; C-C Chan; I Gery Journal: Clin Exp Immunol Date: 2003-08 Impact factor: 4.330
Authors: Jason DeVoss; Yafei Hou; Kellsey Johannes; Wen Lu; Gregory I Liou; John Rinn; Howard Chang; Rachel R Caspi; Rachel Caspi; Lawrence Fong; Mark S Anderson Journal: J Exp Med Date: 2006-11-20 Impact factor: 14.307
Authors: Steven K Lundy; Enayat Nikoopour; Athanasios J Karoukis; Ray Ohara; Mohammad I Othman; Rebecca Tagett; K Thiran Jayasundera; John R Heckenlively Journal: Front Med (Lausanne) Date: 2018-09-13