Identification of a uveitopathogenic and lymphocyte proliferation site in bovine S-antigen

S-antigen is a well-characterized retinal protein that is highly pathogenic for the induction of experimental autoimmune uveitis (EAU), a severe inflammatory disease of the eye and the pineal gland. EAU was observed following the immunization of Lewis rats with various doses (50 to 200 micrograms) of a small synthetic peptide, peptide N (22 amino acids in length), which corresponds to amino acid positions 281 to 302 in bovine S-antigen. Peptide N consistently induced an EAU that was identical to the disease caused by native S-antigen. Clinically, the disease that developed in the eye was characterized by iris and pericorneal hyperemia, followed by inflammatory exudates in the anterior chamber and vitreous. Histopathologically, a severe inflammatory response was observed that resulted in the complete destruction of the photoreceptor cell layer of the retina. In addition, animals with ocular inflammatory disease had an associated pinealitis characterized by a lymphocytic infiltration of the pineal gland. Furthermore, draining lymph node cells of rats immunized with peptide N showed strong in vitro proliferative responses toward peptide N as measured by [3H]thymidine uptake. Our results indicate that several synthetic peptides, which correspond to the amino acid sequence of bovine S-antigen, are capable of inducing an EAU and, as such, suggest that multiple uveitopathogenic sites may be present in the molecule.     

S-antigen-specific rat T cell lines recognize peptide fragments of S-antigen and mediate experimental autoimmune uveoretinitis and pinealitis

Two S-antigen-specific rat T cell lines expressing the T helper cell surface phenotype (W 3/25+, OX 8-) have been isolated from the spleen and lymph node cells of retinal S-antigen-immunized Lewis rats, one of which displayed neither clinical nor histopathologic signs of experimental autoimmune uveoretinitis. The other rat had recovered from severe experimental autoimmune uveoretinitis for 2 mo before isolation of the cell line. Both lines are specific for S-antigen presented by histocompatible antigen-presenting cells, and also respond in vitro to several of the peptides produced by cyanogen bromide cleavage of bovine retinal S-antigen. The lesions induced by the i.v. transfer of from 1 to 10 X 10(6) viable line cells involve the retina and pineal gland, as is found when Lewis rats are immunized with immunopathogenic doses of S-antigen. Histologic examination of the eyes and pineal glands revealed pathologic lesions typical of experimental autoimmune uveoretinitis, and consisted of marked infiltration of the retina and surrounding tissues and the pineal gland by lymphocytes and inflammatory cells. T cells capable of mediating autoimmune disease are clearly present and readily isolated from both asymptomatic and convalescent animals. No significant differences in specificity for the cyanogen bromide peptides of S-antigen or cell surface phenotype were found in the T cell lines isolated from these two rats, nor was any difference found in the specificity or titer of serum antibodies taken from the original rats for the cyanogen bromide peptides of S-antigen.     

Molecular mimicry between uveitopathogenic site of retinal S-antigen and Escherichia coli protein: induction of experimental autoimmune uveitis and lymphocyte cross-reaction

Experimental autoimmune uveitis (EAU) is caused by the immunization of microgram amounts of a soluble retinal protein, known as S-antigen, in susceptible animal strains including primates. The disease serves as an animal model of ocular inflammation. We induced EAU and pinealitis in Lewis rats with small synthetic peptides, corresponding to the amino acid sequence in Escherichia coli protein, which contains six consecutive amino acids identical to a uveitopathogenic site in human S-antigen (peptide M). EAU and pinealitis induced in rats by synthetic peptide derived from E. coli was indistinguishable from those induced by native S-antigen or other uveitopathogenic synthetic peptides corresponding to the amino acid sequence of S-antigen. Furthermore, lymph node cells from animals immunized with either peptide M or peptide derived from E. coli protein showed significant proliferation in the presence of either peptide when tested in vitro for lymphocyte mitogenesis using [3H]thymidine. Thus, molecular mimicry, a process by which an immune response directed against a nonself protein cross-reacts with a normal host protein, may play a role in autoimmunity.     

Identification of T-cell epitopes in nonstructural proteins of foot-and-mouth disease virus

Porcine T-cell recognition of foot-and-mouth disease virus (FMDV) nonstructural proteins (NSP) was tested using in vitro lymphoproliferative responses. Lymphocytes were obtained from outbred pigs experimentally infected with FMDV. Of the different NSP, polypeptides 3A, 3B, and 3C gave the highest stimulations in the in vitro assays. The use of overlapping synthetic peptides allowed the identification of amino acid regions within these proteins that were efficiently recognized by the lymphocytes. The sequences of some of these antigenic peptides were highly conserved among different FMDV serotypes. They elicited major histocompatibility complex-restricted responses with lymphocytes from pigs infected with either a type C virus or reinfected with a heterologous FMDV. A tandem peptide containing the T-cell peptide 3A[21-35] and the B-cell antigenic site VP1[137-156] also efficiently stimulated lymphocytes from infected animals in vitro. Furthermore, this tandem peptide elicited significant levels of serotype-specific antiviral activity, a result consistent with the induction of anti-FMDV antibodies. Thus, inclusion in the peptide formulation of a T-cell epitope derived from the NSP 3A possessing the capacity to induce T helper activity can allow cooperative induction of anti-FMDV antibodies by B cells.     

Identification of T cell recognition sites in S-antigen: dissociation of proliferative and pathogenic sites

Experimental autoimmune uveoretinitis (EAU) is a predominantly CD4+ T cell-mediated autoimmune inflammatory disease of the retina and uveal tract of the eye and the pineal gland. S-antigen, a protein found in retinal photoreceptor cells and pinealocytes, is a potent agent for the induction of EAU in susceptible species and strains. In order to identify the T cell recognition sites of S-antigen responsible for its uveitogenicity and proliferative responses, cyanogen bromide (CB) fragments as well as synthetic peptides were used to test the proliferative responses of two uveitogenic T cell lines, R9 and R17, prepared against native bovine and human S-antigen, respectively. Two nonoverlapping synthetic peptides which are known to actively induce EAU, amino acid residues 286-297 and 303-314 of the bovine sequence, were unable to induce proliferative responses in either S-antigen-specific T cell line. However, both of these sites were adjacent to synthetic peptides, residues 273-292 and 317-328, respectively, which were unable to actively induce EAU, but elicited strong proliferative responses from T cell lines raised to bovine and human S-antigen. Repeated in vitro selection of the R9 T cell line with a synthetic peptide containing one of these proliferative sites, residues 317-328, gave rise to a transiently uveitogenic T cell line. Several species-specific T cell epitopes were identified, but none of these were found to be involved in a uveitogenic response. Our results indicate that spatially separated and distinct T cell epitopes are present in S-antigen which are responsible for the active induction of EAU, lymphocyte proliferation, and the ability to adoptively transfer EAU.     

Structural studies with the uveopathogenic peptide M derived from retinal S-antigen

The 18-residue fragment of bovine S-antigen, corresponding to amino acid positions 303-320, is highly immunogenic and is known to induce experimental autoimmune uveitis. The solution conformation of this immunogenic peptide, known as peptide M, was studied by Fourier-transform infrared spectroscopy and by circular dichroism. In the pH range between approximately 4 and 9.5, peptide M has a strong tendency to form macromolecular assemblies in which it adopts an intermolecular beta-sheet structure. The intermolecular beta-sheets are stabilized by ionic interactions ("salt bridges") between the carboxylate groups and basic residues of the neighboring peptide molecules. These interactions can be disrupted by neutralization of either acidic (pH range below 4) or basic residues (pH range above 9.5) or by elevated hydrostatic pressure. The secondary structure of the peptide under conditions favoring the monomeric state appears to be a mixture of unordered structure and beta-sheets. The present data are consistent with a recently proposed model [Sette, A., Buns, S., Colon, S., Smith, J. A., Miles, C., & Grey, H. M. (1987) Nature 328, 395-399], which assumes that certain immunogenic peptides adopt an extended beta-type conformation in which they are "sandwiched" between the major histocompatibility complex and the T-cell receptor.     

Sequence analysis of bovine retinal S-antigen. Relationships with alpha-transducin and G-proteins

S-Antigen is a major soluble protein of the retina and pineal. It is capable of inducing experimental autoimmune uveitis (EAU) in laboratory animals and also seems to play an important role in the visual cycle. The results of partial cDNA sequence analysis reveal interesting homologies with alpha-transducin, a GTP-binding protein of retina and other purine nucleotide-binding proteins. In particular S-antigen shows over 50% identity to the proposed pertussis toxin ADP-ribosylation site of alpha-transducin. It also contains the Gly-X-X-X-X-Gly-Lys pattern common to phosphoryl binding sites. A possible relationship between S-antigen and purine nucleotide-binding proteins is discussed. There is also evidence for a repetitious beta-structure in the C-terminal half of S-antigen, with a monoclonal antibody epitope in a helical region at the C-terminus.     

The sequence of human retinal S-antigen reveals similarities with alpha-transducin

The complete amino acid sequence of human retinal S-antigen (48 kDa protein), a retinal protein involved in the visual process has been determined by cDNA sequencing. The largest cDNA was 1590 base pairs (bp) and it contained an entire coding sequence. The similarity of nucleotide sequence between the human and bovine is approximately 80%. The predicted amino acid sequence indicates that human S-antigen has 405 residues and its molecular mass is 45050 Da. The amino acid sequence homology between human and bovine is 81%. There is no overall sequence similarity between S-antigen and other proteins listed in the National Biomedical Research Foundation (NBRF) protein data base. However, local regions of sequence homology with alpha-transducin (T alpha) are apparent including the putative rhodopsin binding and phosphoryl binding sites. In addition, human S-antigen has sequences identical to bovine uveitopathogenic sites, indicating that some types of human uveitis may in part be related to the animal model of experimental autoimmune uveitis (EAU).     

Successful immunotherapy with matrix metalloproteinase-derived peptides in adjuvant arthritis depends on the timing of peptide administration

We have recently found that matrix metalloproteinases (MMPs) are targets for T-cell and B-cell reactivity in experimental arthritis. In the present article, we investigate whether modulation of MMP-specific T-cell responses could influence the course of adjuvant arthritis (AA). Lewis rats were treated nasally with MMP peptides prior to or after AA induction. Administration of the MMP-10 or the MMP-16 peptide prior to AA induction reduced the arthritic symptoms. In contrast, administration of the MMP-10 peptide after AA induction aggravated the arthritic symptoms. The present study shows the possible usefulness of MMP peptides for immunotherapy. However, a clear understanding of proper timing of peptide administration is crucial for the development of such therapies.     

Antigen-directed retention of an autoimmune T-cell line

We have used the T-cell-mediated, organ-specific autoimmune disease model of experimental autoimmune uveoretinitis (EAU) in the Lewis rat to study antigen-directed retention of autoimmune T helper cells in the target organ. We have compared the migration into the eye of two T-helper-cell lines: ThS, specific for retinal S antigen (S-Ag), that is uveitogenic to normal syngenic recipients, and ThP, specific to purified protein derivative of tuberculin (PPD), that is non-uveitogenic. The retention of adoptively transferred 51Cr-labeled ThS and ThP was studied up to the stage of disease induction in unprimed animals, during the acute stage of EAU induced by active immunization with S-Ag, and during the acute stage of a uveitis induced by a nonocular antigen (bovine serum albumin, BSA). Low numbers of cells from the two lymphocyte lines were detected in the eyes of unprimed animals, with no obvious increase of ThS over ThP, despite induction of EAU in the recipient animals by the injected ThS cells. In S-Ag-induced EAU many more ThS accumulated in the eye than ThP. In BSA uveitis both T-cell lines accumulated in the eye to the same extent, but more than in control noninflamed eyes. These results demonstrate the presence of increased antigen-specific retention of circulating autoimmune T helper lymphocytes during the acute stage of an ocular antigen-specific, but not ocular antigen nonspecific, inflammation. Since detectable accumulation of ThS cells in the eye was not a prerequisite for the induction of EAU, this phenomenon appears to be the result, rather than the cause, of the autoimmune process.     

Recognition of self-peptide-MHC complexes by autoimmune T-cell receptors

T cell receptors (TCR) recognize antigenic peptides displayed by MHC molecules. Whereas T-cell recognition of foreign peptides is essential for immune defense against microbial pathogens, recognition of self-peptides can cause autoimmune disease. Structural studies of anti-foreign TCR showed remarkable similarities in the topology of TCR binding to peptide-MHC, which maximize interactions with the ligand. However, recent structures involving autoimmune and tumor-specific TCR have revealed that they engage self-peptide-MHC with different topologies, which are suboptimal for TCR binding. These differences might reflect the distinct selection pressures exerted on anti-microbial versus autoreactive T cells. The structures also provide new insights into TCR cross-reactivity, which can contribute to autoimmunity by increasing the likelihood of self-peptide-MHC recognition.     

Sequence homology between yeast histone H3 and uveitopathogenic site of S-antigen: lymphocyte cross-reaction and adoptive transfer of the disease

Experimental autoimmune uveitis (EAU) serves as an animal model of ocular inflammation. The disease is caused by the immunization of microgram amounts of a soluble retinal protein, designated S-antigen, in susceptible animal strains, including primates. We induced EAU and experimental autoimmune pinealitis (EAP) in Lewis rats with a small synthetic peptide corresponding to amino acid positions 106-121 in yeast histone H3. This peptide contains five consecutive amino acids identical to a uveitopathogenic site (peptide M) in human S-antigen. Lymph node or mononuclear cells from different species of animals immunized either with histone H3 or with peptide M showed significant cross-reaction as measured by in vitro lymphocyte mitogenesis assay using [3H]thymidine. Also, we adoptively transferred the EAU and EAP in naive rats by immune lymph node cells. These findings support the fact that selected bacterial, viral, or fungal proteins with amino acid sequence homologies to normal retinal proteins are uveitopathogenic and, as such, provide a basis for autoimmune inflammatory diseases.     

Structural analysis of mouse S-antigen

Mouse S-antigen clones were isolated from a mouse retinal cDNA library using a bovine S-antigen cDNA probe. The largest clone (MSC-242) comprised 1532 bp and contained the entire coding sequence. The nucleotide sequence homology between the mouse and bovine coding regions was 84%, while non-coding regions appeared to be more divergent. The deduced amino acid sequence indicated that the mouse S-antigen had 403 residues and its molecular ratio was 44,930. An overall amino acid sequence similarity of 84% was observed between the mouse and bovine proteins. This degree of similarity dropped to 60% and 47% at the N and the C termini, respectively. The local homology with alpha-transducin observed in the bovine proteins, including the putative phosphoryl and rhodopsin binding sites, was conserved in the mouse as well. There was no overall sequence similarity with other proteins listed in the National Biomedical Research Foundation (NBRF) protein sequence database. Among the uveitopathogenic sites for experimental autoimmune uveitis (EAU), peptides N and M were identical to their bovine counterparts. Peptides 3 and K, however, were more divergent. The short repeats within these peptides were conserved.     

Expression of heterologous peptides at two permissive sites of the MalE protein: antigenicity and immunogenicity of foreign B-cell and T-cell epitopes.

We previously determined a number of 'permissive' sites in the periplasmic maltose-binding protein (MalE) from Escherichia coli. These sites accept the insertion of heterologous peptides without major deleterious consequences for the activities, structure and cellular location of the protein. This study explores the versatility of two such permissive sites for the synthesis of foreign peptides, and examines the antigenicity and the immunogenicity of the inserts. One site is located after amino acid 133 (aa133) of MalE, and the other after aa303. Both sites tolerate inserts of up to at least 70 aa and accept sequences of different natures. Hydrophobic aa sequences are accepted, although strongly hydrophobic sequences, such as the Sendai virus F protein membrane anchor, affected export. We compared the antigenic and the immunogenic properties of peptides derived from the coat proteins of HBV and poliovirus which contain well defined B-cell epitopes. Specific monoclonal antibodies show that the antigenic properties of the inserted B-cell epitopes were different at the two sites. Despite these differences, the inserted peptides elicited strong and comparable antibody responses in mice against the corresponding synthetic peptides. In this case, and with these criteria, the molecular context of the peptides did not affect the immunogenicity of B-cell epitopes. We show for the first time that when a foreign peptide carrying a T-cell epitope was inserted in MalE, the hybrid proteins can elicit a T-cell response against the foreign peptide both in vivo and in vitro. Furthermore, the MalE hybrid was as efficient as free peptide in stimulating T-cell hybridomas in vitro. The MalE vectors provide a powerful genetic system to study how the position and the conformation of a peptide within a protein affect the B-cell and T-cell responses.     

Interspecies major histocompatibility complex-restricted Th cell epitope on foot-and-mouth disease virus capsid protein VP4

T-cell epitopes within viral polypeptide VP4 of the capsid protein of foot-and-mouth disease virus were analyzed using 15-mer peptides and peripheral blood mononuclear cells (PBMC) from vaccinated outbred pigs. An immunodominant region between VP4 residues 16 and 35 was identified, with peptide residues 20 to 34 (VP4-0) and 21 to 35 (VP4-5) particularly immunostimulatory for PBMC from all of the vaccinated pigs. CD25 upregulation on peptide-stimulated CD4(+) CD8(+) cells-dominated by Th memory cells in the pig-and inhibition using anti-major histocompatibility complex class II monoclonal antibodies indicated recognition by Th lymphocytes. VP4-0 immunogenicity was retained in a tandem peptide with the VP1 residue 137 to 156 sequential B-cell epitope. This B-cell site also retained immunogenicity, but evidence is presented that specific antibody induction in vitro required both this and the T-cell site. Heterotypic recognition of the residue 20 to 35 region was also noted. Consequently, the VP4 residue 20 to 35 region is a promiscuous, immunodominant and heterotypic T-cell antigenic site for pigs that is capable of providing help for a B-cell epitope when in tandem, thus extending the possible immunogenic repertoire of peptide vaccines.     

Acquired and congenital ocular toxoplasmosis experimentally induced in Calomys callosus (Rodentia, Cricetidae)

An experimental model for acquired and congenital ocular toxoplasmosis as well as a model to induce experimental autoimmune uveitis (EAU) was investigated in Calomys callosus. Toxoplasma gondii, ME-49 strain, was used to infect males and pregnant- and not pregnant-females while S-antigen, a major glycoprotein of the retinal photoreceptor cell, was used to induce EAU. The ocular lesions elicited by T. gondii were characterized by the presence of cysts, free tachyzoites and inflammatory cells in the retina or related tissues. In the congenital form, 40% of the fetus presented ocular lesions, i.e., presence of cysts in the retina, vitreous, and extra-retinal tissues. In the acquired form, 75% of the females and 50% of the males presented unilateral ocular cysts both at 21 and 47 days post-infection. It was also demonstrated that S-antigen was not uveitogenic in the C. callosus model. No lesion was observed in the animals exclusively immunized with this retinal component, even when jacalin was used as additional adjuvant for polyclonal response to the retinal antigen. It can be concluded that C. callosus may constitute in a promising model for study both acquired and congenital ocular toxoplasmosis, particularly when it is important to make sure that a non autoimmune process is involved in the genesis of the ocular infection.     

T- and B-cell nonresponsiveness to self-alphaB-crystallin in SJL mice prevents the induction of experimental allergic encephalomyelitis

The myelin-associated stress protein alphaB-crystallin triggers strong proliferative responses and IFN-gamma production by human T cells and it is considered a candidate autoantigen in multiple sclerosis. In this study we examined the capacity of alphaB-crystallin or peptides derived thereof to induce experimental autoimmune encephalomyelitis (EAE) in SJL mice. Despite extensive efforts to induce EAE using active immunization with whole alphaB-crystallin, using adoptive transfer of lymphocytes or using peptide immunizations, no clinical or histological signs of EAE could be induced. SJL mice were unable to mount proliferative T-cell responses in vitro or delayed-type hypersensitivity responses in vivo to self-alphaB-crystallin. Also, immunization with self-alphaB-crystallin did not lead to any antibody response in SJL mice while bovine alphaB-crystallin triggered clear antibody responses within 1 week. Immunizations with alphaB-crystallin-derived peptides led to the activation of IL-4-producing Th2 cells and only a few IFN-gamma-producing Th1 cells. Peptide-specific T cells showed no cross-reactivity against whole alphaB-crystallin. The inability of SJL mice to mount proinflammatory T-cell responses against self-alphaB-crystallin readily explains the lack of EAE induction by immunization with whole protein or peptides derived from it. T- and B-cell nonresponsiveness is associated with constitutive expression of full-length alphaB-crystallin in both primary and secondary lymphoid organs in SJL mice, which is seen in other mammals as well, but not in humans.     

Inhibition of experimental autoimmune uveitis by retinal photoreceptor antigens coupled to spleen cells.

Experimental autoimmune uveitis (EAU) and experimental autoimmune pinealitis (EAP) are CD4+ T cell-mediated inflammatory diseases of the uveal tract and retina of the eye and of the pineal gland. EAU and EAP can be induced by several retinal autoantigens including S-antigen (S-Ag) and interphotoreceptor retinoid binding protein (IRBP). In this study we investigated the effect of intravenous administration of S-Ag and IRBP coupled to syngeneic spleen cells on the development of EAU and EAP. Injection of S-Ag or IRBP coupled to spleen cells 5 days prior to immunization with native S-Ag or IRBP, respectively, was effective in preventing the induction of EAU and EAP in LEW rats. Conversely, LEW rats receiving S-Ag-coupled spleen cells and challenged with IRBP or LEW rats receiving IRBP-coupled spleen cells and challenged with S-Ag developed a severe EAU within 10 days to 2 weeks following immunization, as did all control animals receiving sham-coupled spleen cells and challenged with the two retinal antigens. The results show that the administration of retinal autoantigens coupled to spleen cells effectively protects against the development of EAU when animals are subsequently challenged with the tolerizing antigen but not when challenged with another unrelated pathogenic retinal autoantigen.     

Rapid affinity purification of retinal arrestin (48 kDa protein) via its light-dependent binding to phosphorylated rhodopsin

Arrestin (also named '48 kDa protein' or 'S-antigen') is a soluble protein involved in controlling light-dependent cGMP phosphodiesterase activity in retinal rods, and is also known for its ability to induce autoimmune uveitis of the eye. We report a rapid and simple purification method based on the property of arrestin to bind specifically and reversibly to illuminated and phosphorylated rhodopsin [(1984) FEBS Lett. 176, 473-478]. This method does not require column chromatography and yields about 2-4 mg purified arrestin from 15 bovine retinas. Pure arrestin can be resolved by isoelectric focusing into at least 10 distinct bands, all of which stain with a monoclonal antibody specific for S-antigen.     

Shaping T Cell – B Cell Collaboration in the Response to Human Immunodeficiency Virus Type 1 Envelope Glycoprotein gp120 by Peptide Priming

Prime-boost vaccination regimes have shown promise for obtaining protective immunity to HIV. Poorly understood mechanisms of cellular immunity could be responsible for improved humoral responses. Although CD4+ T-cell help promotes B-cell development, the relationship of CD4+ T-cell specificity to antibody specificity has not been systematically investigated. Here, protein and peptide-specific immune responses to HIV-1 gp120 were characterized in groups of ten mucosally immunized BALB/c mice. Protein and peptide reactivity of serum antibody was tested for correlation with cytokine secretion by splenocytes restimulated with individual gp120 peptides. Antibody titer for gp120 correlated poorly with the peptide-stimulated T-cell response. In contrast, titers for conformational epitopes, measured as crossreactivity or CD4-blocking, correlated with average interleukin-2 and interleukin-5 production in response to gp120 peptides. Antibodies specific for conformational epitopes and individual gp120 peptides typically correlated with T-cell responses to several peptides. In order to modify the specificity of immune responses, animals were primed with a gp120 peptide prior to immunization with protein. Priming induced distinct peptide-specific correlations of antibodies and T-cells. The majority of correlated antibodies were specific for the primed peptides or other peptides nearby in the gp120 sequence. These studies suggest that the dominant B-cell subsets recruit the dominant T-cell subsets and that T-B collaborations can be shaped by epitope-specific priming.