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.     

Identification of a potent new pathogenic site in human retinal S-antigen which induces experimental autoimmune uveoretinitis in LEW rats

Experimental autoimmune uveoretinitis (EAU) is a T cell-mediated autoimmune disease of the eye which can be induced in LEW rats by immunization with either human or bovine S-antigen (S-Ag). In previous reports, two nonimmunodominant pathogenic sites were found using synthetic peptides corresponding to conserved sequences at amino acid residues 303-314 and 286-297 of the bovine sequence. In this report, a 20-residue synthetic peptide encompassing amino acids 343-362 located near the C-terminus was found to be highly immunopathogenic in LEW rats. The onset of EAU was observed at as early as 8 days when high doses of a peptide-encompassing residues 343-362 were used. EAU was elicited with as little as 0.5 microgram of peptide per animal. Smaller peptides from this region were also tested for uveitogenicity, further refining the site to 13 amino acids. Uveitogenic T cell lines were made to this site in two ways; first, by the in vitro selection of a bulk T cell line raised to human S-Ag with peptide 343-362. Second, by the in vitro selection of a peptide-specific line from an animal immunized with peptide 352-364, which corresponds to the minimal uveitogenic site. Both of these lines adoptively transferred EAU to LEW rats, further establishing the pathogenicity of this site. A proliferative site distinct from, but overlapping, the uveitogenic site was also found. The potent uveitopathogenicity of peptides from this region indicates that it is a major pathogenic site responsible for EAU induced in LEW rats by immunization with human S-Ag.     

Characterization of a new, potent, immunopathogenic epitope in S-antigen that elicits T cells expressing V beta 8 and V alpha 2-like genes.

Experimental autoimmune uveoretinitis (EAU) is a predominantly T cell-mediated autoimmune disease induced in susceptible animals by active immunization with human or bovine retinal S-Ag or by passive transfer of activated S-Ag or peptide-specific CD4+ T cells. During the course of studies aimed at the identification of T cell and B cell recognition sites in bovine and human S-Ag, a new potent uveitogenic region, located near the carboxy terminus of the molecule, was identified and characterized. Analysis of several synthetic peptides from this region showed that a 14 amino acid residue peptide, BSAg339-352, was highly uveitogenic when injected with adjuvants into Lewis rats. A uveitogenic T cell line, R737, was raised by in vitro selection of lymphocytes from animals immunized with peptide BSAg333-352. Northern blot analysis of mRNA from the R737 T cell line was positive for the rat homologs of murine V beta 8 and V alpha 2 T cell receptor gene probes. Whereas peptide BSAg339-352 defined the pathogenic site, nonpathogenic, proliferative sites were found in close physical association. This region is immediately adjacent to previously characterized pathogenic and proliferative sites contained in residues BSAg352-364. These results, as well as our previous observations, show S-Ag to be a complex molecule with several highly conserved amino acid sequences that can elicit pathogenic T cells with restricted T cell receptor V gene usage capable of active and passive elicitation of experimental autoimmune uveoretinitis.     

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.     

Intraocular trafficking of lymphocytes in locally induced experimental autoimmune uveoretinitis (EAU)

Experimental autoimmune uveoretinitis (EAU) was induced in naive Lewis rats by intravitreal adoptive transfer of 10(6) long-term S-antigen (S-Ag)-specific syngeneic T-lymphocyte lines of helper/inducer phenotype (ThS). These cells were stimulated with the T-cell mitogen concanavalin A (Con A) in culture for 48 hr and subsequently labeled with tritiated thymidine. Lymph node cells (LNC) cultured in parallel were used as controls. Histopathology and light microscopic autoradiography of the ocular tissue was performed at several time points to analyze the cell migration in relation to the development of EAU. The disappearance of both types of lymphocytes from the vitreous was similar and large numbers of host leukocytes were attracted into the vitreous. However, significantly more S-Ag-specific cells penetrated the retina and induced EAU (P less than 0.008). These results suggest that the development of EAU by intravitreal injection of S-Ag-specific T lymphocytes occurs by the migration of antigen-specific cells into the retina and recognition of the specific antigen, with subsequent release of soluble mediators that interact with the host effector cells, ultimately leading to specific photoreceptor damage.     

Autoaggressive T lymphocyte lines recognizing the encephalitogenic region of myelin basic protein: in vitro selection from unprimed rat T lymphocyte populations

Autoimmune T lymphocyte lines have been established from unprimed normal rat lymph node cell populations. In a first, negative-selection round, spontaneously proliferating (SMLR) T cells were eliminated by a pulse of BUdR followed by short wave light irradiation. In a second, positive-selection round, the SMLR-depleted populations were confronted with MBP presented by syngeneic spleen adherent cells. Reactive T cells were propagated until stable, permanent T lines were established. All lines were exclusively specific for the selecting antigen, MBP, and were restricted in recognition by determinants of the own MHC. All lines expressed the differentiation marker W3/25, but not OX8. Line vLe, which was derived from Lewis (LEW) rat lymphocytes, and which recognized the encephalitogenic sequence 48-88 of MBP, was extremely efficient in mediating EAE to normal untreated LEW rats. Doses of 1 X 10(6) and greater transferred lethal EAE, whereas transient although definite disease was caused by a minimum of 1 X 10(4) cells. Rats recovering from disease were resistant against subsequent active induction of EAE. In contrast, BN rat-derived line vBN was completely incapable of transferring EAE to syngeneic rats. This lack of encephalitogenicity was a property of the T line, because vLe cells transferred severe EAE to (LEW X BN)F1 hybrid rats, whereas none of hybrid rats injected with vBN cells showed any sign of disease. The data provide strong evidence in favor of the presence of potentially autoaggressive T clones in the normal immune system, and they might suggest that the actual proportion of these clones within the natural T cell repertoire is genetically determined.     

A myelin basic protein-specific T lymphocyte line that mediates experimental autoimmune encephalomyelitis

A T lymphocyte line, BP-1, expressing the T helper phenotype was selected from Lewis rats immunized with guinea pig myelin basic protein (GP-BP) in complete Freund's adjuvant (CFA). The BP-1 line responded specifically to GP-BP but not to PPD after the first round of selection, and responded to rat but not human or bovine BP. When injected i.p. into histocompatible Lewis or F1 (Lewis X P2) recipients, the BP-1 line induced both clinical signs of experimental autoimmune encephalomyelitis (EAE) and delayed type hypersensitivity (DTH) reactions in ears challenged intradermally with GP-BP but not PPD. The severity of clinical signs and the degree of ear swelling were dependent on the dose of BP-1 cells injected. Both activities were detectable with as few as 0.1 X 10(6) BP-1 line cells and required prior activation of the line cells with GP-BP presented by accessory cells. Lewis rats that had recovered from EAE induced by injection of GP-BP in CFA were more susceptible than naive rats to BP-1 line-mediated disease, requiring as few as 0.03 X 10(6) line cells. Clinical EAE and DTH could be serially transferred into F1 (Lewis X P2) recipients with BP-1 cells and back to nonirradiated Lewis parents with activated splenocytes, suggesting that BP-1 cells persist in recipient rats. These results demonstrate the potent biologic activities of an autoreactive BP-specific T lymphocyte line. This line possesses properties similar to BP lines described previously as well as to culture-conditioned splenic T effector cells; thus, the data presented here bridge the gap between these two approaches for studying T effector lymphocyte functions.     

Abrogation of anti-retinal autoimmunity in IL-10 transgenic mice due to reduced T cell priming and inhibition of disease effector mechanisms

Experimental autoimmune uveitis (EAU) induced by immunization of animals with retinal Ags is a model for human uveitis. The immunosuppressive cytokine IL-10 regulates EAU susceptibility and may be a factor in genetic resistance to EAU. To further elucidate the regulatory role of endogenous IL-10 in the mouse model of EAU, we examined transgenic (Tg) mice expressing IL-10 either in activated T cells (inducible) or in macrophages (constitutive). These IL-10-Tg mice and non-Tg wild-type controls were immunized with a uveitogenic regimen of the retinal Ag interphotoreceptor retinoid-binding protein. Constitutive expression of IL-10 in macrophages abrogated disease and reduced Ag-specific immunological responses. These mice had detectable levels of IL-10 in sera and in ocular extracts. In contrast, expression of IL-10 in activated T cells only partially protected from EAU and marginally reduced Ag-specific responses. All IL-10-Tg lines showed suppression of Ag-specific effector cytokines. APC from Tg mice constitutively expressing IL-10 in macrophages exhibited decreased ability to prime naive T cells, however, Ag presentation to already primed T cells was not compromised. Importantly, IL-10-Tg mice that received interphotoreceptor retinoid-binding protein-specific uveitogenic T cells from wild-type donors were protected from EAU. We suggest that constitutively produced endogenous IL-10 ameliorates the development of EAU by suppressing de novo priming of Ag-specific T cells and inhibiting the recruitment and/or function of inflammatory leukocytes, rather than by inhibiting local Ag presentation within the eye.     

Novel IL27p28/IL12p40 Cytokine Suppressed Experimental Autoimmune Uveitis by Inhibiting Autoreactive Th1/Th17 Cells and Promoting Expansion of Regulatory T Cells

IL-12 family cytokines are important in host immunity. Whereas some members (IL-12, IL-23) play crucial roles in pathogenesis of organ-specific autoimmune diseases by inducing the differentiation of Th1 and Th17 lymphocytes, others (IL-27 and IL-35) suppress inflammatory responses and limit tissue injury induced by these T cell subsets. In this study, we have genetically engineered a novel IL27p28/IL12p40 heterodimeric cytokine (p28/p40) that antagonizes signaling downstream of the gp130 receptor. We investigated whether p28/p40 can be used to ameliorate uveitis, a CNS inflammatory disease. Experimental autoimmune uveitis (EAU) is the mouse model of human uveitis and is mediated by Th1 and Th17 cells. We show here that p28/p40 suppressed EAU by inhibiting the differentiation and inflammatory responses of Th1 and Th17 cells while promoting expansion of IL-10⁺- and Foxp3⁺-expressing regulatory T cells. Lymph node cells from mice treated with p28/p40 blocked adoptive transfer of EAU to naïve syngeneic mice by immunopathogenic T cells and suppressive effects of p28/p40 derived in part from antagonizing STAT1 and STAT3 pathways induced by IL-27 and IL-6. Interestingly, IL27p28 also suppressed EAU, but to a lesser extent than p28/p40. The inhibition of uveitogenic lymphocyte proliferation and suppression of EAU by p28/p40 and IL27p28 establish efficacy of single chain and heterodimeric IL-12 family cytokines in treatment of a CNS autoimmune disease. Creation of the biologically active p28/p40 heterodimeric cytokine represents an important proof-of-concept experiment, suggesting that cytokines comprising unique IL-12 α- and β-subunit pairing may exist in nature and may constitute a new class of therapeutic cytokines.     

Systemic expression of rat soluble retinal antigen induces resistance to experimental autoimmune uveoretinitis.

To assess the role of sequestration in the maintenance of the immune privilege of the retina, retrovirally mediated gene transfer was used to express a defined, specific retinal autoantigen, rat soluble retinal Ag (S-Ag), in a systemic, nonsequestered manner. In this study we report the stable, long term transduction of rat retinal S-Ag into PBMC. Tolerance to S-Ag was assayed by challenging the S-Ag chimeric animals with S-Ag peptides in CFA and monitoring the time course and severity of experimental autoimmune uveoretinitis (EAU). The resulting data showed a correlation between the incidence of S-Ag chimerism and the loss of susceptibility to EAU. The development of resistance to EAU induction supports the hypothesis that Ag sequestration contributes to retinal immune privilege.     

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.     

Rat T-cell lines specific to a nonimmunodominant determinant of a retinal protein (IRBP) produce uveoretinitis and pinealitis

Rat lymphocyte lines were established, with specificity toward two synthetic peptides derived from the interphotoreceptor retinoid-binding protein (IRBP), which specifically localizes in the retina and pineal gland. One of the peptides, R4, is immunopathogenic, producing experimental autoimmune uveoretinitis (EAU) and pinealitis (EAP) in immunized rats, while the other peptide, R3, exhibits no detectable immunopathogenicity in rats. The cell lines carry surface markers specific for the helper/inducer subset of T-lymphocytes. When tested by the proliferation assay, the line cells demonstrated major histocompatibility-restricted vigorous responses against the immunizing (homologous) peptide, but failed to recognize the intact IRBP molecule. This finding is in line with other data indicating that peptides R3 and R4 are nonimmunodominant determinants of IRBP for the Lewis rat. Yet, the cell lines specific for R4 were highly immunopathogenic, producing EAU and EAP in naive rats at numbers as low as 0.25 x 10(6), with histopathological changes similar to those induced by active immunization with this peptide. The immunological capacity of the cell lines was further demonstrated by the finding that spleen cells from recipient rats of these lines responded well against the homologous peptides. The uniqueness of this system, in which lymphocytes specific toward a nondominant determinant are immunopathogenic, is underscored and the possible mechanisms of disease induction are discussed.     

Chimeric retroviral helper virus and picornavirus IRES sequence to eliminate DNA methylation for improved retroviral packaging cells

Most retroviral packaging cell lines were established by a helper virus plasmid cotransfected with a separate plasmid encoding a selection marker. Since this selection marker coexisted in trans with the helper virus sequence, helper virus gene expression could be inactivated by host DNA methylation despite selection for the cotransfected selection marker. We have reported that DNA methylation could occur in the long terminal repeat (LTR) region of helper virus in vector producer cells (VPC) in up to 2% of the population per day (W. B. Young, G. L. Lindberg, and C. J. Link, Jr., J. Virol. 74:3177-3187, 2000). To overcome host cell DNA methylation that suppresses viral gene expression, we constructed a chimeric retroviral helper virus, pAM3-IRES-Zeo, that contains Moloney murine leukemia virus as a helper virus and a picornavirus internal ribosome entry site (IRES) sequence followed by a Zeocin selection marker at the 3' end of the env sequence. This pAM3-IRES-Zeo permitted selection for intact and functional helper virus in transfected cells without subcloning. By selection with Zeocin, a mixed population of pAM3-IRES-Zeo-transfected NIH3T3 cells (AMIZ cells) was maintained with little or no DNA methylation of the helper virus 5' LTR. The high level of pAM3-IRES-Zeo gene expression resulted in no detectable vector superinfection and in high vector titers (2 x 10(6) to 1.5 x 10(7) CFU/ml) after introduction of a retroviral vector. When Zeocin selection was withdrawn from AMIZ cells, methylation of the 5' LTR increased from 17 to 36% of the population during 67 days of continuous culture and the cells became susceptible to superinfection. During this period, gene expression of pAM3-IRES-Zeo decreased and vector titer production was reduced to 2 x 10(4) CFU/ml. These data demonstrate an important role of DNA methylation in the genetic instability of VPC. The chimeric helper virus allows the establishment of a mixed population of packaging cells capable of high-level and sustained vector production without cloning procedures.     

Pertussis toxin inhibits induction of tissue-specific autoimmune disease by disrupting G protein-coupled signals.

Pertussis toxin (PTX) has been used for many years as an adjuvant that promotes development of tissue-specific experimental autoimmune diseases such as experimental autoimmune encephalomyelitis, experimental autoimmune uveitis (EAU), and others. Enhancement of vascular permeability and of Th1 responses have been implicated in this effect. Here we report a surprising observation that, in a primed system, PTX can completely block the development of EAU. Disease was induced in B10.RIII mice by adoptive transfer of uveitogenic T cells, or by immunization with a uveitogenic peptide. A single injection of PTX concurrently with infusion of the uveitogenic T cells, or two injections 7 and 10 days after active immunization, completely blocked development of EAU. EAU also was prevented by a 1-h incubation in vitro of the uveitogenic T cells with PTX before infusing them into recipients. Uveitogenic T cells treated with PTX in vitro and lymphoid cells from mice treated with PTX in vivo failed to migrate to chemokines in a standard chemotaxis assay. Neither the isolated B-oligomer subunit of PTX that lacks ADP ribosyltransferase activity nor the related cholera toxin that ADP-ribosylates G(s) (but not G(i)) proteins blocked EAU induction or migration to chemokines. We conclude that PTX present at the time of cell migration to the target organ prevents EAU, and propose that it does so at least in part by disrupting signaling through G(i) protein-coupled receptors. Thus, the net effect of PTX on autoimmune disease would represent an integration of enhancing and inhibitory effects.     

IL-22-induced regulatory CD11b+ APCs suppress experimental autoimmune uveitis

We have previously reported that IL-17(+) interphotoreceptor retinoid-binding protein (IRBP) 161-180-specific T cells have a strong pathogenic effect in experimental autoimmune uveitis (EAU) induced in B10RIII mice; however, this pathogenic activity is not solely attributable to the major cytokine, IL-17, produced by these cells. To determine whether other cytokines produced by Th17 cells show a stronger association with their pathogenic activity, we studied the role of IL-22 in EAU. IL-22 is one of the major cytokines produced by these cells. Our results showed that administration of small doses of IL-22 to EAU-susceptible mice significantly reduced the severity of EAU. In addition, mice treated with IL-22 generated decreased numbers of IFN-γ(+) and IL-17(+) uveitogenic T cells, but increased numbers of Foxp3(+) regulatory T cells. Mechanistic studies showed that the effect of the injected IL-22 was on CD11b(+) APCs, which expressed increased levels of IL-22R during induction of disease following immunization with uveitogenic Ag. In vitro IL-22 treatment of CD11b(+) APCs collected from Ag-primed mice resulted in increased expression of programmed death ligand-1 and the production of increased amounts of IL-10 and TGF-β. Moreover, IL-22-treated CD11b(+) APCs caused IRBP161-180-specific T cells to lose their uveitogenic activity and acquire immunosuppressive activity, which suppressed the induction of EAU by additional pathogenic IRBP161-180-specific effector T cells.     

Hydrodynamic vaccination with DNA encoding an immunologically privileged retinal antigen protects from autoimmunity through induction of regulatory T cells

The eye is an immunologically privileged organ whose Ags serve as targets for experimental autoimmune uveitis (EAU), a model for human uveitis. We used a hydrodynamic i.v. injection of naked DNA to express the uveitogenic retinal Ag interphotoreceptor retinoid-binding protein (IRBP) in the periphery, thus revoking its immune-privileged status. IRBP was expressed in the liver within hours of administration of as little as 10 microg of IRBP-DNA. Vaccinated mice were highly protected from EAU induced by immunization with IRBP for at least 10 wk after vaccination. Protection was partial in a reversal protocol. Mechanistic studies revealed specific hyporesponsiveness to IRBP without immune deviation, no evidence for apoptosis either by the Fas- or Bcl-2-regulated (mitochondrial) pathway and apparent lack of dependence on CD8(+) cells, IL-10, or TGF-beta. In contrast, depletion of CD25(+) cells after vaccination and before challenge markedly abrogated protection. IRBP-specific CD4(+)CD25(high) T cells could be cultured from vaccinated mice and transferred protection to unvaccinated, EAU-challenged recipients. In vitro characterization of these cells revealed that they are Ag specific, anergic, express FoxP3, CTLA-4, and glucocorticoid-induced TNFR, and suppress by contact. Thus, expression of IRBP in the periphery by DNA vaccination results in tolerance that acts at least in part through induction of IRBP-specific, FoxP3(+)CD4(+)CD25(+) regulatory T cells. DNA vaccination may offer a new approach to Ag-specific therapy of uveitis.     

A new model of autoimmune disease. Experimental autoimmune uveoretinitis induced in mice with two different retinal antigens

Experimental autoimmune uveoretinitis (EAU) is an organ-specific, T lymphocyte-mediated autoimmune disease, which serves as a model for several human ocular inflammations of an apparently autoimmune nature. EAU pathology in some rodents and in monkeys can readily be induced by immunization with several different retinal proteins; however, advancing research into the cellular mechanisms of this disease has raised the need for an EAU model in an immunologically and genetically well defined species. We report here the induction of EAU in the mouse, which has hitherto been considered a species refractory to EAU, with two retinal Ag, the retinal soluble Ag and the interphotoreceptor retinoid-binding protein. Although all the mouse strains tested exhibited lymphocyte responses and antibody titers to both retinal Ag, EAU was inducible in only some of the strains, and the uveitogenic responses to retinal soluble Ag and interphotoreceptor retinoid-binding protein appeared to be mutually exclusive. The EAU model in mice was found to differ in several respects from the EAU model in other rodent species. Induction of the disease was achieved with a relatively high dose of Ag and an intensified immunization protocol, and the onset of disease was later, the duration was longer, and the course was less acute. Anterior segment involvement was slight or nonexistent, and damage to the retina and uvea was of a focal rather than of a diffuse nature. Murine EAU appeared to approximate some types of human uveitis more closely than the EAU models described in other rodent species with respect to its pathologic manifestations as well as its more chronic course. The relatively longer duration of the active stage of disease in murine EAU should facilitate therapeutic intervention in established disease, which was not feasible in the more acute models of EAU. The extensive knowledge of the immunologic parameters of the mouse and the availability of genetically defined strains should be of great value in the study of cellular mechanisms and immunogenetics of ocular autoimmune disease.     

Autoimmune effector cells. IX. Inhibition of adoptive transfer of autoimmune encephalomyelitis with a monoclonal antibody specific for interleukin 2 receptors

This study was conducted to determine whether a monoclonal antibody (MAb) specific for rat interleukin 2 receptors (IL 2R) inhibits the activation of effector T cells that adoptively transfer experimental allergic encephalomyelitis (EAE). MAb OX 39 appears to be specific for IL 2R because it binds to concanavalin A-activated, but not resting, rat lymphocytes and inhibits mitogen- and IL 2-induced proliferation of rat spleen cells. Moreover, this MAb inhibits the in vitro activation of effector cells of EAE by myelin basic protein when added to immune donor spleen cell at the start of 72-hr culture or after 24 hr, but not when added after 48 hr of culture. Other studies employed MAb W3/25, which reacts with the rat helper T cell subset and appears to define the rat homolog of the human CD4 marker present on T4-positive cells. MAb W3/25 also blocks in vitro activation of EAE effector cells, and this blocking effect can be abrogated by adding rat T cell growth factor or partially purified IL 2 to the donor spleen cell cultures. T cell growth factor alone is incapable of activating EAE effector cells. These findings are discussed with respect to the role of lymphokines in the generation of autoreactive T cells.     

Liposome-Encapsulated Clodronate Retards the Development of Experimental Autoimmune Uveitis

Abstract

A study was undertaken to determine if the intravenous injection of liposome-encapsulated dichloromethylene diphosphonate (C1₂MDP; Clodronat), a treatment known to deplete monocytes, as well as liver and spleen macrophages, would reduce the number of macrophages in the retina of animals with experimental autoimmune uveitis (EAU) and decrease the severity of the disease. EAU was induced in Lewis rats by immunization with S-antigen (S-Ag). Monocytes and macrophages were depleted via an intravenous injection of Cl₂MDP encapsulated in liposomes. Control groups included rats that received no S-Ag (n= 18), S-Ag and no treatment (n=23), S-Ag and free drug (n = 20), or empty liposomes (n=14). Treated animals received injections of the Cl₂MDP-liposomes, free drug, or empty liposomes. Animals were sacrificed at 14, 21 and 28 days post-S-Ag administration. Intravenous, Cl₂MDP-liposomes produced a statistically significant reduction in the severity of the EAU when compared to controls at both days 14 and 21 following S-Ag injection. Immunohistochemical staining with the monoclonal antibody EDI demonstrated that the severity of the ocular inflammatory response correlated with the number of EDI-positive cells in the retina. Following the cessation of treatment, treated animals developed disease that was as severe at day 28 as that of untreated animals at day 21. These results confirm the importance of monocytes and macrophages in EAU by demonstrating the correlation between the presence of EDI-positive cells in the retina and the resultant damage to the retina. Although the dosing regimen employed here did not provide a cure, strategies designed to prevent the local recruitment and/or activation of mononuclear phagocytes may prove to be useful in the treatment of EAU.     

Gangliosides induce selective modulation of CD4 from helper T lymphocytes

The cluster designation (CD)4 molecule is one of several nonpolymorphic T lymphocyte surface proteins that have been implicated in T cell-target cell interactions, and is thought to play an important role in regulating T helper cell function. Previously, we found that gangliosides inhibited the function of rat T helper cell lines, and simultaneously inhibited the expression of the rat CD4 molecule identified by the W3/25 antibody. We have now evaluated the generality and mechanism(s) of ganglioside-induced modulation of CD4 expressed by mouse, rat, and human T helper lymphocytes. Ganglioside pretreatment induced rapid and selective disappearance of the CD4 molecule from T helper cells of all three species. The ganglioside effect was temperature- and dose-dependent, reversible within 24 hr of ganglioside removal, azide-insensitive, and was neutralized completely by 10% serum. CD4 modulation appeared to be a general property of gangliosides since the effect could be induced similarly by highly purified individual gangliosides with varying amounts of sialic acid, or by mixed gangliosides. The activity of gangliosides appeared to require both the lipid and sialated oligosaccharide moieties. Gangliosides did not inactivate antibody function, but prevented binding at the cell surface by 12 different monoclonal antibodies specific for a variety of different CD4 epitopes. Preclearance of CD4 by antibody-mediated capping reduced binding of 3H-GM1 to T helper cells. Labeled GM1 bound to several detergent-extracted and transblotted lymphocyte-associated proteins, but apparently did not bind directly to the CD4 molecule under these conditions. These results indicate that gangliosides induce a profound change in the molecular orientation of CD4 within the T helper cell membrane which renders epitopes on the CD4 molecule inaccessible to antibody. This ganglioside effect represents a novel pathway which may contribute to the understanding of the role of CD4 as a regulatory molecule and as a specific receptor for the acquired immune deficiency syndrome virus.