Characterization of Primate Antibody Responses to Administered Murine Monoclonal Immunoglobulin

Murine monoclonal antibodies (MAb) are currently being assessed for their utility as tools in cancer management. Anti-murine immunoglobulin responses have been observed in many patients receiving monoclonal antibody treatment. In this study, we evaluated the response of primates to the administration of a monoclonal antibody. MAb B6.2, an antibody generated against a human breast tumor metastasis, was used as a prototype MAb. Baboons were inoculated with MAb B6.2 whole IgG, Fab', or F(ab')2 fragments. Blood samples were drawn at periodic intervals post-inoculation and the sera collected. Anti-murine immunoglobulin responses were detected using a solid-phase radioimmunoassay. The specificity of the antibody response was analyzed to determine if the response was directed against the species of origin of the MAb (species specificity), against the class of the MAb (isotype specificity), or against the hypervariable region of the MAb (idiotype specificity). We found that primates develop a humoral immune response against all three forms of the monoclonal antibody [IgG, Fab', and F(ab')2]. Furthermore, this antibody response demonstrated a high degree of specificity for the antigen binding site suggesting an idiotypic specificity. Using a competitive radioimmunoassay, the antibody response was found to interfere with antigen binding of MAb B6.2. These studies suggest that monoclonal antibody treatment can generate an anti-idiotypic response which may alter the efficacy of this mode of treatment.

Serum IL-6 levels are associated with significant coronary stenosis in cardiovascularly asymptomatic inner-city black adults in the US

OBJECTIVES AND DESIGN

The objective of this study was to explore whether increased levels of inflammatory cytokines are associated with the risk of clinically silent coronary artery disease.

SUBJECTS

Three-hundred-fifty-six black adults aged 25-54 residing in inner city of Baltimore, Maryland, United States were included in this study.

METHODS

Sociodemographics were assessed as were lipid profiles, IL-6, tumor necrosis factor-alpha (TNF-alpha), soluble intercellular adhesion molecule-1 (sICAM-1), and high-sensitivity C-reactive protein (hs-CRP) levels. Computed tomography (CT) coronary angiography was performed.

RESULTS

Coronary calcification was identified in 22.5 % participants and 14 % had significant (>or=50 %) coronary stenosis. Multiple logistic regression analyses suggested that IL-6 levels were independently associated with the presence of coronary calcification and significant coronary stenosis, while TNF-alpha, sICAM-1 and hs-CRP levels were not.

CONCLUSIONS

This study underscores a critical role for IL-6 in atherosclerosis and suggests that IL-6 may be a marker for significant coronary stenosis in cardiovascularly asymptomatic individuals.

Interferon-beta and adhesion molecules (E-selectin and s-intracellular adhesion molecule-1) are detected in sera from patients with retinal vasculitis and are induced in retinal vascular endothelial cells by Toll-like receptor 3 signalling

Retinal vasculitis is a major component of ocular inflammation that plays a role in retinal tissue damage in patients with idiopathic uveitis and Behçet's disease. Here we show that type 1 interferons (IFN alpha/beta) were not detected in sera from normal individuals but were identified in up to 46% of the sera from retinal vasculitis patients. The predominant form of IFN observed was IFN-beta, which was detected in 39% of Behçet's disease patients and 47% of idiopathic uveitis patients. Seven patients whose sera contained IFN-beta were monitored prospectively. IFN-beta was shown to be present for 6-12 months in all seven of the sera samples tested. Furthermore, the adhesion molecule profile identified in this study was strikingly different when Behçet's and uveitis patient sera were compared to sera from normal controls. Sera from Behçet's disease patients contained significantly elevated levels of the soluble adhesion molecules, sE-selectin and s-intracellular adhesion molecule-1 (sICAM-1), whereas sera from patients with idiopathic uveitis contained significantly increased sE-selectin. In vitro studies evaluating the cell source of these cytokines revealed that polyriboinosinic polyribocytidylic acid (poly I:C) activated retinal vascular endothelial cells produce sE-selectin, sICAM-1 and IFN-beta. Production of these molecules was inhibited by pretreatment with anti-Toll-like receptor 3 (TLR-3) antibody. In conclusion, IFN-beta, sE-selectin and sICAM-1 are elevated in patients with retinal vasculitis and are induced in retinal vascular endothelial cells in vitro by activating the innate immune system through TLR-3. Further analysis of innate immune signalling may prove to be a novel target for future studies on pathogenic mechanisms and therapeutic approaches in retinal vasculitis.

Transforming growth factor-beta expression in human retinal pigment epithelial cells is enhanced by Toxoplasma gondii: a possible role in the immunopathogenesis of retinochoroiditis

Retinochoroiditis caused by Toxoplasma gondii infection results in inflammation and necrosis of the retina. We have used human retinal pigment epithelial cultures (HRPE) as an in vitro model to investigate the role of TGF-beta in T. gondii-induced retinochoroiditis. RT-PCR analyses showed enhanced steady state levels of TGF-beta1 and TGF-beta2 mRNA in T. gondii-infected HRPE. Uninfected HRPE secrete TGF-beta1 in a latent form while 10-30% of the secreted TGF-beta2 was in the active form. T. gondii infection induced a significant increase (P < 0.01) in total TGF-beta1 and TGF-beta2 secretion by HRPE. In addition, soluble extracts of T. gondii (ST) stimulated secretion of both TGF-beta1 and TGF-beta2 significantly (P < 0.01). Interestingly, T. gondii infection as well as ST of the parasites completely inhibited secretion of the active form of TGF-beta2. Studies evaluating the effect of TGF-beta on T. gondii replication in HRPE revealed that TGF-beta enhanced parasite replication. The interactions between host retinal cells and T. gondii may play an active role in the pathogenesis of retinochoroiditis.

Blood-retinal barrier breakdown in experimental coronavirus retinopathy: association with viral antigen, inflammation, and VEGF in sensitive and resistant strains

Intraocular coronavirus inoculation results in a biphasic retinal disease in susceptible mice (BALB/c) characterized by an acute inflammatory response, followed by retinal degeneration associated with autoimmune reactivity. Resistant mice (CD-1), when similarly inoculated, only develop the early phase of the disease. Blood-retinal barrier (BRB) breakdown occurs in the early phase in both strains, coincident with the onset of inflammation. As the inflammation subsides, the extent of retinal vascular leakage is decreased, indicating that BRB breakdown in experimental coronavirus retinopathy (ECOR) is primarily due to inflammation rather than to retinal cell destruction. Vascular endothelial growth factor (VEGF) is upregulated only in susceptible mice during the secondary (retinal degeneration) phase.

Cyclooxygenase-2 gene expression and regulation in human retinal pigment epithelial cells

PURPOSE

Cyclooxygenases (COX) orchestrate a variety of homeostatic processes and participate in various pathophysiological conditions. The retinal pigment epithelium (RPE) cell performs a variety of regulatory functions within the retina. The conditions under which COX-1 and COX-2 are expressed and upregulated in human RPE (HRPE) cells were determined.

METHODS

COX gene expression was examined using RT-PCR analysis of untreated HRPE cultures or cultures exposed to bacterial lipopolysaccharide or various cytokines. COX proteins were detected by immunohistochemistry and Western blot analysis. Prostaglandin (PG) production was analyzed by EIA.

RESULTS

Examination of untreated RPE cells revealed the presence of COX-2 mRNA and the absence of COX-1 mRNA. Moreover, cytokine stimulation more readily enhanced COX-2 gene expression than COX-1 gene expression. IL-1 beta, the most potent inducer of COX-2, also resulted in detection of COX-2 protein by immunocytochemical staining and Western blot analysis. There was a direct relationship between both the appearance and amount of COX-2 mRNA and protein synthesis and the degree of PG synthesis by RPE cells. Furthermore, COX inhibitors significantly decreased PG production. Pretreatment of RPE cells with a NF-kappa B inhibitor, PDTC, resulted in dose-dependent decrease in IL-1 beta-induced COX-2 gene expression and PG production.

CONCLUSIONS

COX-2 was the predominant isoform of cyclooxygenase in untreated HRPE cells. When HRPE cells were treated with proinflammatory cytokines, COX-2 gene expression and synthesis of PGs were enhanced. NF-kappa B mediated the induction of COX-2 gene expression in HRPE cells. These studies indicate that RPE cells may participate in normal and pathologic retinal conditions through the induction of COX-2.

Inhibition of human cytomegalovirus replication in a human retinal epithelial cell model by antisense oligonucleotides

PURPOSE

The antiviral activity of first and second generation antisense oligonucleotides on human cytomegalovirus (CMV) replication was evaluated in two cell systems, the traditional system on human fibroblasts and on human retinal pigment epithelial (HRPE) cell culture system.

METHODS

To evaluate CMV replication strategies within the retina, an HRPE cell system permissive to CMV replication was developed. In this study, the antiviral activity of the antisense oligonucleotides, ISIS 2922 (Vitraven) and ISIS 13312, was evaluated in the traditional fibroblast antiviral assay and in the HRPE cell system. Antiviral activity was measured by evaluating inhibition of virus induced cytopathic effect, virus plaque formation, and virus gene expression.

RESULTS

Both oligonucleotides produced concentration-dependent inhibition of CMV cytopathic effect and CMV plaque formation in both human RPE cells and a human fibroblast cell line, MRC-5. The oligonucleotide, ISIS 2922, demonstrated a mean 50% inhibitory concentration (IC(50)) of 0.04 and 0.24 microM in HRPE and MRC-5 cells, respectively. The second-generation oligonucleotide, ISIS 13312, yielded similar results with IC(50) levels of 0.05 and 0.3 microM in HRPE and MRC-5 cells, respectively. Similar findings were obtained with a CMV clinical isolate. In addition, initiation of effective oligonucleotide treatment could be introduced 6 days after CMV infection in HRPE cells, whereas, in the fibroblast cell line, oligonucleotide treatment was only effective up to 3 days after infection. Semiquantitative RT-PCR analysis demonstrated significant inhibition of CMV intermediate early and late mRNAs by both oligonucleotides.

CONCLUSIONS

These studies demonstrate that HRPE cells were significantly more sensitive than fibroblasts to the antiviral actions of ISIS 2922 and ISIS 13312. Moreover, the data indicate that the anti-CMV potency of the two oligonucleotides was similar. The enhanced potency of these oligonucleotides in HRPE cells may be associated with a delay in viral gene transcription and slow viral replication and spread in these cells.

The role of apoptosis within the retina of coronavirus-infected mice

PURPOSE

To evaluate the possible roles of apoptosis in the murine retinopathy induced by coronavirus.

METHODS

Mice were inoculated with virus intravitreally. Mouse eyes harvested at varying times after inoculation were evaluated for apoptotic and immunologic events by hematoxylin and eosin staining, immunohistochemical staining, in situ terminal deoxynucleotidyltransferase dUTP nick-end labeling (TUNEL) assay, and electron microscopy. Isolated retinas were analyzed for infectious virus and for expression of apoptosis-associated genes.

RESULTS

The number of apoptotic events was significantly elevated in infected eyes from BALB/c and CD-1 mouse strains, reaching a maximum at days 6 through 10, and returning to normal levels at day 20. The majority of apoptotic cells were observed in the outer nuclear layer of the infected retina. In contrast, few apoptotic cells were observed in normal or mock-injected mouse eyes. Apoptotic events within the retina were associated with the presence of viral antigen, infiltration of CD8(+) T cells, and clearance of infectious virus. Reverse transcription-polymerase chain reaction (RT-PCR) analysis identified the upregulation of Fas ligand (FasL) and granzyme B mRNAs within the infected retinas. The development of apoptosis, regulative gene expression, and viral clearance were similar in both retinal degeneration-susceptible (BALB/c) and -resistant (CD-1) mice.

CONCLUSIONS

Retinal apoptosis was associated with retinal inflammation, a decrease in infectious virus, and upregulation of genes associated with CTL killing. These studies indicate that retinal apoptosis may be one of the host mechanisms that contribute to limiting this retinal infection.

Toxoplasma gondii infection induces gene expression and secretion of interleukin 1 (IL-1), IL-6, granulocyte-macrophage colony-stimulating factor, and intercellular adhesion molecule 1 by human retinal pigment epithelial cells

We have used human retinal pigment epithelial (HRPE) cultures to investigate the primary cellular responses of retinal resident cells to intracellular Toxoplasma gondii replication. At 4 days postinoculation, when all of the cells were infected, the secretion of interleukin 1beta (IL-1beta), IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF), and intercellular adhesion molecule 1 (ICAM-1) was augmented by 23-, 10-, 8-, and 5-fold, respectively, over the control. Northern and reverse transcriptase PCR analyses showed significant upregulation of steady-state levels of mRNA for IL-1beta, IL-6, GM-CSF, and ICAM-1. The secretion of these molecules by HRPE cells may play a critical immunoregulatory role in the pathophysiological processes associated with T. gondii-induced retinochoroiditis.

Detection of cytomegalovirus proteins by flow cytometry in the blood of patients undergoing hematopoietic stem cell transplantation

Cytomegalovirus (CMV) infection and associated diseases continue to be a major complication encountered by patients undergoing high-dose chemoradiotherapy and hematopoietic stem cell transplantation (HSCT). A number of studies revealed that identification of CMV in the blood of HSCT patients was a predictor of future CMV disease. The purpose of this study was to determine if CMV proteins detected by flow cytometry could be a rapid and more quantitative way to monitor CMV infections and CMV antigenemia in HSCT patients. Preliminary studies showed that CMV immediate early (IE), early (E), and late (L) tegument proteins were specifically identified in CMV-infected cell lines and not in uninfected cells. We evaluated CMV antigen detection by flow cytometry in blood samples collected before and after transplantation in 56 serially collected blood samples from 17 HSCT patients and CMV protein expression was compared to CMV isolation. CMV IE and E proteins were not detected in any of the samples analyzed. However, CMV L protein detection by flow cytometry correlated with virus isolation in serially collected blood samples. Samples from 14 patients were evaluated by both techniques, at the same time intervals. There was a 100% correlation (8/8) between the lack of CMV antigen detection by flow cytometry and the failure to isolate infectious virus. Moreover, 5 of 6 patients who were positive for CMV L antigen by flow cytometry also were positive by virus isolation techniques. When flow cytometry and virus isolation did not detect CMV antigen on the same day, CMV positivity was first detected by flow cytometry. Then, 1-2 weeks later, positive virus isolation was documented. This study indicates that flow cytometric identification of CMV antigenemia correlates with isolation of CMV in HSCT patients and may be a predictive test for the rapid detection of CMV in the blood.

Mechanisms of interferon-induced inhibition of Toxoplasma gondii replication in human retinal pigment epithelial cells

Inflammation associated with retinochoroiditis is a major complication of ocular toxoplasmosis in infants and immunocompetent individuals. Moreover, Toxoplasma gondii-induced retinal disease causes serious complications in patients with AIDS and transplant patients. The retinal pigment epithelial (RPE) cell is an important regulatory cell within the retina and is one of the cells infected with T. gondii in in vivo. We have developed a human RPE (HRPE) cell in vitro model system to evaluate T. gondii replication and the regulation of this replication by cytokines. T. gondii replication was quantitated by counting the foci of infection (plaque formation) and the numbers of tachyzoites released into the supernatant fluids. Pretreatment of cultures with recombinant human tumor necrosis factor alpha, alpha interferon (IFN-alpha), IFN-beta, or IFN-gamma for 24 h prior to inoculation inhibited T. gondii replication in a dose-dependent manner. Of these cytokines, IFN-gamma was the most potent, and T. gondii replication was completely inhibited at a concentration of 100 U/ml. The anti-toxoplasmotic activity of IFN-gamma was significantly blocked by monoclonal antibody to IFN-gamma. Treatment of the cultures with IFN-gamma from day 1 or 2 postinoculation with T. gondii also offered protection against the parasite. The anti-toxoplasmotic activity of tumor necrosis factor alpha or IFN-alpha, -beta, or -gamma in these cultures was found to be independent of the nitric oxide (NO) pathway, since NO production was not found in HRPE cells treated with these cytokines. However, addition of tryptophan to IFN-gamma-treated cells significantly reversed the inhibitory effects of IFN-gamma, suggesting that IFN-gamma acts by depleting cellular tryptophan. This effect was further confirmed by reverse transcription-PCR and Northern (RNA) blot analysis, which indicated induction of indoleamine 2,3-dioxygenase (IDO), an enzyme that converts tryptophan to kynurenine. These results indicated that interferons inhibited T. gondii replication in HRPE by NO-independent but IDO-dependent mechanisms. This in vitro model of T. gondii replication in HRPE may be useful in evaluating the effects of cytokines and drugs on T. gondii replication within the retina.

Inflammatory cytokines induce intercellular adhesion molecule-1 (ICAM-1) mRNA synthesis and protein secretion by human retinal pigment epithelial cell cultures

Retinal inflammatory diseases in man are associated with an upregulation in the expression of intercellular adhesion molecule-1 (ICAM-1) in cells within the retina and with an increase in soluble ICAM-1 within the vitreous. These studies suggest that this protein may contribute to immunopathological processes within the eye. The effects of inflammatory mediators on the regulation of the expression and secretion of ICAM-1 by human retinal pigment epithelial cell cultures (HRPE) were investigated in order to identify the possible source of soluble ICAM-1 and the conditions which enhance its production. Immunofluorescence studies on TNF-alpha and/or IFN-gamma treated HRPE cells demonstrated cellular expression of ICAM-1 which was predominantly localized to intercellular junctions. Moreover, treatment of HRPE for 24 h with tumour necrosis factor alpha (TNF-alpha) (10 ng/ml), interferon gamma (IFN-gamma) (500 u/ml), interleukin 1 alpha (IL-1 alpha) (10 ng/ml) and IL-1 beta (10 ng/ml) results in the secretion of ICAM-1, ranging from 9 to 13 ng per 10(6) cells. IFN-gamma acts synergistically with (TNF-alpha) and IL-1 in the secretion of ICAM-1 by HRPE. Only 1.75 ng of soluble ICAM-1 was detected in untreated HRPE cells. In contrast, lipopolysaccharide (LPS), IL-6, IFN-alpha or TGF-beta did not exhibit any influence on ICAM-1 secretion by these cells. Northern blot analysis reveals an increased expression of ICAM-1 mRNA in HRPE stimulated with IFN-gamma, TNF-alpha or IL-1 for 24 h. In untreated cells, ICAM-1 mRNA is not detectable. There is a progressive increase in ICAM-1 mRNA levels in cytokine-treated HRPE, that reaches steady state by 12 h. Furthermore, a close correlation is noted between ICAM-1 mRNA levels and the secretion of ICAM-1 protein, suggesting regulation at the level of gene transcription. ICAM-1 secretion by RPE might actively participate in the immune reactions in the retina, by recruiting and activating lymphocytes, and contribute to the immunopathological processes in inflammatory diseases.

Chromium(VI) treatment of normal human lung cells results in guanine-specific DNA polymerase arrest, DNA-DNA cross-links and S-phase blockade of cell cycle

Previous studies have shown that in vitro treatment of a synthetic double-stranded DNA template with chromium(III), or chromium(VI) in the presence of ascorbate, resulted in guanine-specific DNA polymerase arrests that correlated strongly with DNA-DNA cross-linking. In vivo chromium(VI) undergoes a more complicated intracellular cascade of reductive metabolism than is achievable in an in vitro model. Moreover, in living cells, DNA is highly packaged in the form of chromatin which may alter the accessibility of DNA to chromium. A repetitive primer-extension assay was employed to determine whether chromium forms polymerase-arresting lesions in vivo. Normal human lung fibroblasts treated with chromium(VI) exhibited adduct levels of 0.13-0.92 mmol Cr/mol DNA-nucleotides in the total genome (0.26-1.84 Cr adducts/Kbp DNA) and DNA interstrand cross-links. Genomic DNA was isolated and alphoid sequences (1-5% of the genome) were used as a substrate for repetitive primer extension using Taq polymerase. The results showed a dose-dependent, guanine-specific, replication termination, even at low doses resulting in greater than 90% survival. The same treatment resulted in dose-dependent suppression of thymidine incorporation into DNA immediately after treatment. Thymidine incorporation increased during the first 6 h after the 2-h exposure, probably related to the repair of the single strand breaks, but then returned to high suppression levels at 24 h. The chromate treatments inhibited cell growth by specific blocking of the progression of cells through S-phase of the cell cycle. The results confirmed our studies in cell-free systems and taken together they strongly indicate that guanine-guanine DNA interstrand cross-links induced by chromate in living cells is the lesion responsible for blocking DNA replication processivity.

Cytomegalovirus replication in human retinal pigment epithelial cells. Altered expression of viral early proteins

PURPOSE

Cytomegalovirus (CMV) infections are frequent complications in patients who have undergone kidney and bone marrow transplant and in patients with acquired immune deficiency syndrome. The mechanism by which CMV is activated and replicated within the retina is unknown. The authors evaluated the ability of human CMV to initiate replication in human retinal pigment epithelial (RPE) cells and compared this system with CMV replication in human fibroblasts (HEL-299, MRC-5) and human amnion epithelial (WISH) cells.

METHODS

Human RPE cells were obtained from donor eyes and propagated in vitro. Cells were infected, and CMV replication was evaluated in three ways: the detection of viral antigen by immunofluorescent, flow cytometry, and Western blot assays; the detection of virus-induced cytopathic effect (cpe), and the detection of infectious virus.

RESULTS

No evidence of viral replication in the epithelial (WISH) cells was found. Although CMV does not usually replicate in vitro in epithelial cells, CMV replication was detected in RPE cells. There are a number of distinct differences in CMV replication in RPE cells compared to replication in human fibroblasts. Virus-induced cpe and the production of infectious virus by RPE cells were delayed when compared to virus infection in either HEL or MRC 5 cells. At a multiplicity of infection of 0.1 and 1, cpe and infectious virus yield reached maximum levels at days 4 to 5 in fibroblasts and at days 19 to 46 in RPE cells, respectively. Nevertheless, infectious virus produced by RPE cells (10(6.5) TCID50/0.1 ml) significantly surpassed levels produced by HEL cells (10(5.5)TCID50/0.1 ml). The permissive infection in RPE cells consisted of a prolonged period (5 to 6 days) of virus production in the absence of cytopathology. Virus protein expression evaluated by indirect immunofluorescence assays, Western blot analysis, and flow cytometry revealed a delay in viral protein expression in RPE cells compared to viral protein expression in fibroblasts. The pattern of viral protein evaluated by flow cytometry was noticeably different in the two cell types. At the middle phase of CMV replication in RPE cells, a low percentage of cells express immediate early (IE) protein at a time when a high percentage of the cells express early (E) proteins. This IE-1 protein is a stable protein found concurrently with E protein in fibroblasts. This difference in percentage of cells expressing specific CMV proteins is transient, that is, it does not remain apparent at 100% cpe.

CONCLUSIONS

Retinal pigment epithelial cells appear to demonstrate a distinct pattern of CMV infection. The low frequency of expression of IE viral protein in RPE cells, the subsequent slow replication of CMV, and the altered expression of IE viral proteins may be critical variables that impact on their relationship to viral persistence and activation within the retina. Alterations in the IE gene product may indicate the existence of positive or negative nuclear transcription factors within infected RPE cells.

Genetic predisposition to coronavirus-induced retinal disease

PURPOSE

Retinal inflammatory and degenerative processes in humans and animals frequently are associated with genetic factors. The murine coronavirus, mouse hepatitis virus (MHV), JHM strain, induces a biphasic retinal disease in adult BALB/c mice. The genetic constitution of the host and the virus serotype can be critical factors in determining the outcome of a virus infection. The purpose of this study was to evaluate the possible role of host genetics in murine coronavirus-induced retinal disease.

METHODS

JHM virus was inoculated by the intravitreal route into BALB/c, CD-1, and A/J mice. At varying times after inoculation, eye tissues were evaluated histologically. Antibody responses to the virus were evaluated by neutralization assays.

RESULTS

JHM virus induces a biphasic retinal disease in BALB/c mice. In the early phase, 1 to 7 days after inoculation, retinal vasculitis is observed. The second phase, characterized by retinal degeneration in the absence of inflammation, is seen by day 10 and progresses for several months. There is a similar biphasic disease process in JHM virus-infected A/J mice. However, retinal changes are less severe than those seen in BALB/c mice. Retinal tissue damage induced by JHM virus in CD-1 mice is different. Only the early phase of the disease, consisting of retinal vasculitis, was observed. These CD-1 mice do not develop the retinal degenerative disease. In fact, after day 10, the retina has a normal appearance. These differences in retinal tissue damage are seen over a wide range of infectivity of the virus inocula. Virus concentrations ranging from 10(1.4) to 10(4.4) TCID50/5 microliters were capable of inducing both inflammation and degeneration in BALB/c mice, whereas, the highest concentration of virus (10(4.4) TCID50/5 microliters) in CD-1 mice resulted in only the early inflammatory changes.

CONCLUSIONS

The authors show that the genetics of the host can profoundly affect the nature of retinal tissue damage. These studies substantiate the concept that a virus can indeed trigger retinal degenerative processes in genetically susceptible hosts.

Synergistic effects of gamma interferon on inflammatory mediators that induce interleukin-6 gene expression and secretion by human retinal pigment epithelial cells

The retinal pigment epithelial (RPE) cell is a potent regulatory cell within the retina. It helps to maintain normal retinal activity, and following gamma interferon (IFN-gamma) exposure, it may express major histocompatibility complex class II molecules and function as an antigen-presenting cell. Since interleukin-1 (IL-1) and IL-6 are potent cytokines observed in ocular inflammatory processes, we initiated studies to evaluate conditions which enable RPE cells to produce these cytokines. Cultures of human RPE cells from two eye donors were established and characterized, and enzyme immunoassays were employed to screen for IL-1 and IL-6 production. Treatment of RPE cells with lipopolysaccharide (LPS) or recombinant tumor necrosis factor alpha, IL-1, or IFN-gamma resulted in a significant level of secretion of IL-6. In contrast, treatment with recombinant epidermal growth factor, basic fibroblast growth factor, platelet-derived growth factor, or transforming growth factor alpha, or LPS can dramatically augment the secretion of IL-6 by RPE cells. Thus, these inflammatory mediators can act alone or synergistically with IFN-gamma to activate RPE cells and dramatically increase the expression and secretion of IL-6. In contrast, IL-1 was not detected following stimulation with any of the above-mentioned cytokines or LPS. Characterization of IL-6 protein production by RPE cells revealed that 98% of the protein is promptly secreted by the cell, its induction is dependent upon the time and concentration of the stimulant, and the continuous presence of the stimulant is required for IL-6 production. Moreover, Western blot (immunoblot) analysis of secreted proteins revealed that IL-6 was produced in multiple molecular forms.(ABSTRACT TRUNCATED AT 250 WORDS)

Retina and retinal pigment epithelial cell autoantibodies are produced during murine coronavirus retinopathy

The murine coronavirus, mouse hepatitis virus (MHV), JHM strain, induces a biphasic retinal disease in adult BALB/c mice. In the early phase of the disease, day 1 to 7, a retinal vasculitis is noted and is associated with the presence of virus particles. In the late phase of the disease, day 10 to 140, a retinal degeneration is observed and is associated with the absence of both virus particles and inflammatory cells. We show that the retinal degenerative process is also associated with the presence of antiretinal autoantibodies. In total, 22 of 23 sera collected from 10 to 70 days after JHM virus inoculation contained antiretinal autoantibodies. These autoantibodies are not found in sera from normal or mock-injected mice. Antibodies to retinal tissue were identified as two distinct patterns of immunoperoxidase staining on frozen sections of normal rat eyes, retinal autoantibodies and retinal pigment epithelium (RPE) autoantibodies. The antiretinal autoantibodies first appeared as IgM class antibodies that shifted to IgG class autoantibodies. The anti-RPE cell autoantibodies were predominantly of the IgG class. Sera that were positive for these autoantibodies did not stain with liver or kidney sections but 2 of 3 did react with rat brain sections. A second mouse strain, CD-1, was also evaluated because these animals respond to JHM virus inoculation by developing only the early phase of this disease, i.e. vasculitis. On day 10 postinoculation, the retina architecture has a normal appearance. In these mice, which are free of a retinal degeneration, antiretinal autoantibodies are not produced. However, just as is noted in the BALB/c mice, antivirus neutralizing antibodies are produced in the infected CD-1 mice. These findings suggest a role for autoimmunity in the pathogenesis of murine coronavirus induced retinal degeneration. This study establishes an animal model for the study of humoral autoimmune responses in human retinal degenerations.

Retina and retinal pigment epithelial cell autoantibodies are produced during murine coronavirus retinopathy

The murine coronavirus, mouse hepatitis virus (MHV), JHM strain, induces a biphasic retinal disease in adult BALB/c mice. In the early phase of the disease, day 1 to 7, a retinal vasculitis is noted and is associated with the presence of virus particles. In the late phase of the disease, day 10 to 140, a retinal degeneration is observed and is associated with the absence of both virus particles and inflammatory cells. We show that the retinal degenerative process is also associated with the presence of antiretinal autoantibodies. In total, 22 of 23 sera collected from 10 to 70 days after JHM virus inoculation contained antiretinal autoantibodies. These autoantibodies are not found in sera from normal or mock-injected mice. Antibodies to retinal tissue were identified as two distinct patterns of immunoperoxidase staining on frozen sections of normal rat eyes, retinal autoantibodies and retinal pigment epithelium (RPE) autoantibodies. The antiretinal autoantibodies first appeared as IgM class antibodies that shifted to IgG class autoantibodies. The anti-RPE cell autoantibodies were predominantly of the IgG class. Sera that were positive for these autoantibodies did not stain with liver or kidney sections but 2 of 3 did react with rat brain sections. A second mouse strain, CD-1, was also evaluated because these animals respond to JHM virus inoculation by developing only the early phase of this disease, i.e. vasculitis. On day 10 postinoculation, the retina architecture has a normal appearance. In these mice, which are free of a retinal degeneration, antiretinal autoantibodies are not produced. However, just as is noted in the BALB/c mice, antivirus neutralizing antibodies are produced in the infected CD-1 mice. These findings suggest a role for autoimmunity in the pathogenesis of murine coronavirus induced retinal degeneration. This study establishes an animal model for the study of humoral autoimmune responses in human retinal degenerations.

Novel adjuvant strategies for experimental malaria and AIDS vaccines

Adjuvant research has improved the ability of biotechnology to generate novel vaccines. Numerous strategies for enhancing the immunogenicity of synthetic peptides and proteins have been identified. This overview focuses on adjuvant development and vaccine delivery systems that provide new tools for amplifying the effectiveness of ongoing malaria and AIDS vaccine development programs. In addition, some of the complex challenges and issues that have become associated with the delivery of modern vaccines in man are outlined. As adjuvant research continues to open new opportunities in vaccine development, there is renewed expectation that further generations of safe and potent vaccines will be possible against a broad spectrum of infectious agents and cancer.

Modulation of major histocompatibility complex class 1 genes in human retinoblastoma cells by interferons

PURPOSE

To examine the mechanism(s) of interferon (IFN) induced expression of major histocompatibility complex (MHC) class 1 molecules on the human retinoblastoma cell line, Y-79.

METHODS

Y-79 cells were incubated in the presence of IFN-alpha, -beta, and -gamma. Y-79 cell expression of MHC class 1 molecules was measured by flow cytometric analysis. HLA-B7 and oncogene transcription were evaluated by Northern blot analysis and nuclear runoff transcription assays.

RESULTS

IFN-gamma increased MHC-class 1 antigen expression and induced a fivefold increase in its transcription rate. Posttranscriptionally, IFN-beta and -gamma increased steady state messenger RNA for the HLA-B7 gene. These effects were not associated with down regulation of N-myc oncogene nuclear transcription. Moreover, dexamethasone did not affect the IFN-gamma induced expression of MHC-class 1 molecules.

CONCLUSIONS

Both transcriptional and posttranscriptional mechanisms are implicated in the modulation of class 1 molecule expression by IFN. In addition, this modulation is not associated with down regulation of N-myc oncogene expression. Spontaneous or IFN-gamma induced MHC class 1 antigen expression in retinoblastoma Y-79 cells is resistant to glucocorticoid hormones.

Molecular cloning and expression of RPE65, a novel retinal pigment epithelium-specific microsomal protein that is post-transcriptionally regulated in vitro

Studies reported previously from this laboratory have shown that microsomal membranes of the vertebrate retinal pigment epithelium (RPE) contain an RPE-specific 65-kDa protein, RPE65, which bears the determinant recognized by the strictly tissue-specific monoclonal antibody RPE9, and which is developmentally regulated (Hamel, C. P., Tsilou, E., Harris, E., Pfeffer, B. A., Hooks, J. J., Detrick, B., and Redmond, T. M. (1993) J. Neurosci. Res. 34, 414-425). Microsequencing of 17 tryptic and chymotryptic peptides obtained from the in situ digestion of the RPE65 blotted on nitrocellulose yielded primary sequences that were used to generate oligonucleotide probes. An 84-nucleotide guessmer was used to isolate two clones from a bovine RPE lambda Zap II cDNA library. Rapid amplification of cDNA ends was used to complete the 5' and 3' ends, resulting in a 3,115-base pair composite cDNA. The open reading frame encodes a novel protein of 533 amino acid residues with a computed molecular weight of 60,940. This protein does not match any other sequence in the data bases. The 231 amino acids obtained from peptide sequencing match 43% of the amino acid sequence deduced from the cDNA. The protein has a calculated pI of 6.41 and is not predicted to have any transmembrane segments. The open reading frame expressed in Escherichia coli has an apparent molecular weight identical to that of the native protein and is recognized by the monoclonal antibody RPE9, further corroborating its validity. Northern blot analysis detected a major mRNA species of 3.15 kilobases for RPE65, as well as shorter species, only in RPE and not in other tissues (including other ocular tissues). Cultured RPE cells (7 weeks in primary culture) contained RPE65 mRNA in amounts equivalent to fresh RPE. Such cells, however, contained no immunodetectable RPE65. The possible structure of this RPE-specific protein and hypotheses for the absence of translation in vitro are discussed.

Ultrastructural localization of RPE-associated epitopes recognized by monoclonal antibodies in human RPE and their induction in human fibroblasts by vitreous

Electron microscopic immunocytochemistry was performed to localize the epitopes recognized by monoclonal antibodies RPE15 and RPE9, reported to specifically stain retinal pigment epithelial (RPE) cells by light microscopy, and to evaluate the usefulness of these antibodies for recognizing phenotypically altered, pathological RPE cells. The labeling patterns of the two antibodies were indistinguishable, and in human eyes positivity was limited to RPE cells. In in situ and vitreous-cultured human RPE cells the epitopes were localized to the surface and intracellular membranes and to the cytoplasm. In vitreous culture many RPE cells developed processes containing filaments which reacted with either antibody. Human retinal glial cells were negative. Some human fibroblasts in vitreous culture showed labeling of the same structures as RPE cells with either antibody, limiting the usefulness of these antibodies for distinguishing RPE cells from fibroblasts, which can assume similar morphologies when in contact with vitreous; however, they may be useful adjuncts to anti-cytokeratin antibodies for RPE cell identification in various pathological conditions.

A developmentally regulated microsomal protein specific for the pigment epithelium of the vertebrate retina

In the vertebrate retina, the retinal pigment epithelium (RPE) performs specific functions critical to the normal process of vision. Although some of these functions are well documented, molecular data are still scarce. Using the RPE-specific monoclonal antibody RPE9, raised against human RPE cells, we have identified a novel 65 kD protein, conserved in mammals, birds, and frogs. This RPE-specific protein was found to be nonglycosylated. It was most effectively solubilized in the presence of detergent suggesting that it is associated with the RPE cell membranes. Its partitioning in the detergent phase of Triton X-114 and its solubilization in 0.75 M and 1.0 M KCl suggest that it interacts with the membrane either through a polypeptide anchor or charged amino acids. Cell fractionation by differential solubilization and differential centrifugation demonstrated that the protein was preferentially associated with the microsomal membrane fraction, where it is the major protein. Developmental expression of this 65 kD protein was examined in neonatal rats. Morphologically well-differentiated RPE cells did not express the 65 kD protein at birth. However, expression was detectable at postnatal day 4, that is, one to two days before the photoreceptors develop their outer segments, suggesting that the expression of the 65 kD protein may be coordinated with other developmental events in the intact retina. This is further supported by the fact that RPE cells in confluent culture lose the expression of this protein within two weeks, while they maintain their characteristic epithelial morphology. Because of its specificity, its evolutionary conservation, and its timing of expression, it is possible that this protein may be involved in one of the key roles of RPE and as such is an important molecular marker for RPE differentiation.

Coronavirus (JHM) replication within the retina: analysis of cell tropism in mouse retinal cell cultures

The murine coronavirus, mouse hepatitis virus, JHM strain, induces a retinal degenerative disease in adult BALB/c mice. Coronavirus infections are highly species specific with virus exhibiting a strong tissue and cell specificity. In this report we evaluated the cellular basis of JHM virus retinal tropism. Retinal cultures and retinal pigment epithelial (RPE)-retinal mixed cell cultures were prepared from eyes obtained from Balb/c mice. The ability of JHM virus to infect and replicate in these retinal cultures was evaluated by light microscopy, immunofluorescent staining, electron microscopy, and virus isolation. Cytopathology was not observed and virus could not be detected in supernatant fluid in retinal cultures. However, low levels of infectious virus could be detected within the cells for the first 4 days. This observation suggested that cell-to-cell interactions may be critical since virus particles and virus antigens can be seen in vivo within the neural retina and the RPE. In contrast to the retinal cultures, retinal-RPE mixed cultures were supportive to JHM virus replication. Syncytial cytopathology was observed for the first 4 days and virus was isolated from supernatant fluids. By electron microscopy, virus was found intracellularly within vacuoles and extracellularly at the plasma membrane. After Day 4, a persistent virus infection was established in which cells produced virus for 5 weeks without cytopathic effects or cell death. Double-labeling immunofluorescent studies of retinal-RPE mixed cultures showed that the virus antigen was co-expressed with a Muller cell marker, glutamine synthetase. This cell is the most prominent glial element in the retina. These studies demonstrate that JHM virus is capable of establishing a persistent virus infection in mixed retinal (Muller)-RPE cell cultures. Moreover, these data suggest that cell-to-cell interactions influence the establishment of coronavirus infections in the retina.

Redistribution and reduction of interphotoreceptor retinoid-binding protein during ocular coronavirus infection

Inoculation of the neurotropic coronavirus mouse hepatitis virus strain JHM intravitreally or into the anterior chamber causes acute infection of the retinal pigment epithelium (RPE) and neural retina. Weeks later, many retinas have foci of moderate to severe atrophy. The effect of coronavirus infection (after intravitreal inoculation) was examined on interphotoreceptor retinoid-binding protein (IRBP), the glycolipoprotein in the interphotoreceptor matrix (IPM) thought to transport retinoids between the photoreceptors and the RPE. Changes in IRBP distribution accompanied virus-associated retinal pathology, including photoreceptor loss and RPE abnormalities. Immunohistochemistry on days 3 and 6 showed that IRBP had diffused into the neural retina away from the IPM. The IRBP became localized abnormally in the same areas as virus-induced lesions, shown by staining adjacent sections with a monoclonal antibody specific for the viral nucleocapsid protein. Moreover, the level of IRBP in isolated retinas, measured in an immunoslot-blot assay, decreased significantly by day 3 and remained low through day 23. This decrease was confirmed in eyecups isolated on day 6. It may be caused in part by loss of photoreceptors and diffusion of IRBP through the retina into the vitreous. These studies show that a virus may induce an acute, limited infection in the retina that can be cleared by the host. However, the infection initiated a series of events resulting in long-term reduction and redistribution of a critical photoreceptor protein.

Leukoregulin, a novel cytokine enhances the anti-herpesvirus actions of acyclovir

Leukoregulin is a naturally occurring immunologic cytokine which increases membrane permeability and drug uptake in tumor cells but not in normal cells. In this paper we show that leukoregulin also increases membrane permeability of Herpes simplex virus type 1 (HSV-1)-infected cells. More importantly, we demonstrate that leukoregulin significantly enhances the ability of acyclovir (acycloguanosine, ACV) to inhibit the cellular release of infectious HSV-1. The ability of 1-100 microM ACV to inhibit infectious HSV-1 production is increased up to 100-fold when HSV-1-infected human amnion (WISH) cells are treated with 5 units leukoregulin/ml and ACV 3 hr after virus infection. Under these conditions, leukoregulin alone is unable to inhibit HSV-1 infectivity. In addition, three unrelated cytokines, interleukin-1 alpha (IL-1), interferon (IFN)-alpha and IFN-gamma lack the ability to enhance the anti-HSV actions of ACV when their treatment is initiated after HSV-1 infection. These findings demonstrate that a combination of immunotherapy and chemotherapy can produce a substantial inhibition of herpesvirus replication and provide a rationale for the application of this approach to the interventive treatment of virus infection.

Cytokine-induced modulation of cellular proteins in retinoblastoma. Analysis by flow cytometry

Cytokines are a group of specialized, hormone-like proteins that can exert profound influences on cellular development and on a variety of cellular functions. Retinoblastoma cells are an important model for exploring human malignancy and differentiation. These multipotent embryonic cells are capable of differentiating into neuronal, glial-like and retinal pigment epithelium (RPE)-like elements. This report shows that flow cytometric analysis can be used to measure the expression of both cytoplasmic and cell surface proteins in retinoblastoma cells. The authors used this technique to monitor changes in the expression of selected cellular proteins after exposure to specific cytokines and found that MHC class I molecules were augmented by interferon-alpha (IFN-alpha) and interferon-gamma (IFN-gamma), but not by tumor necrosis factor (TNF). However, the MHC class II molecules were augmented by IFN-gamma but not by IFN-alpha or TNF. The neuronal markers, IRBP and PR-6, the glial-like marker, GFAP, and the RPE cell markers, RPE-9 and RPE-15, were not altered by any of the cytokines tested. Furthermore, IFN-gamma induced a striking enhancement of the expression of the photoreceptor cell protein, S-antigen. In contrast, IFN-alpha and TNF did not affect the expression of S-antigen. These studies show that the cytokine, IFN-gamma, can enhance a distinct cellular protein associated with cells committed to a specific cell lineage.

Ocular tropisms of murine coronavirus (strain JHM) after inoculation by various routes

The coronavirus mouse hepatitis virus (MHV, strain JHM) infects tissues in the anterior and posterior segments when injected intravitreally into adult mouse eyes. Infection causes progressive damage to the photoreceptors and retinal pigment epithelium (RPE), resulting in a disease the authors have termed JHM retinopathy. To determine whether this virus is retinotropic independent of route of inoculation, the authors injected mice with virus by several different routes: into the anterior chamber (AC), onto the cornea, intranasally, or intracerebrally. Inoculation into the AC produced effects similar to those after intravitreal inoculation, although slightly slower in onset. Viral antigen was detected in the anterior portion of the iris on day 3, and by day 6, was also located primarily in the inner nuclear layer, photoreceptors, Müller cells, and RPE. However, by day 10, viral antigens were only detected in a few cells in the ganglion cell layer. Infectious virus was isolated from neural retinas on days 3 and 6, but not on day 10. In contrast, infectious virus could not be isolated from contralateral eyes. After 14 weeks, specific regions of some retinas were atrophied, with most of the retinal layers involved. Inoculation by other routes also resulted in virus-induced disease. Scarification of the cornea with virus, but not application of virus droplets alone, caused pathologic changes in the corneal epithelium and stroma and subtle effects on the ganglion cell and inner plexiform layers. Intracerebral inoculation of virus affected mainly the RPE. Pathologic effects and viral antigens were not detected in eyes from four mice inoculated intranasally. These results show that a murine coronavirus is retinotropic when introduced by several direct routes and one indirect route. Moreover, these studies show that long-lasting retinal disorders ranging in intensity from mild to severe can occur after coronavirus infection.

1990 Sir Henry Wellcome medal and prize winner. Leukoregulin: a new biotherapeutic cytokine in the search for more effective anti-viral pharmacologic agents

This investigation examines whether cytokines, as exemplified by leukoregulin, with their immense potential for biorecognition and target cell modulation as a result of their complex three-dimensional structure, have the potential to provide new directions for biotherapy of infectious disease. Leukoregulin is a naturally occurring immunologic cytokine, secreted by stimulated lymphocytes, which increases membrane permeability and drug uptake in tumor but not in normal cells. This study demonstrates that leukoregulin also increases the plasma membrane permeability of cells acutely infected with herpes simplex type 1 virus and that the increase in membrane permeability is accompanied by a 10- to 100-fold increase in the ability of acyclovir to inhibit the release of infectious virus when the cells are treated with leukoregulin 3 hours after infection with the virus. This is the first demonstration that a cytokine, alone or in combination with anti-viral chemotherapy, can effectively inhibit virus replication in human cells following acute virus infection, which indicates that combination immunotherapy and chemotherapy have the potential to completely inhibit the production of infectious virus by acutely infected human cells.

Cytokine-mediated activation of a neuronal retinal resident cell provokes antigen presentation

The retinal pigment epithelial (RPE) cell has long been considered an important regulatory cell, maintaining physiological and structural balance within the retina. We have previously shown that the RPE cell may also be important in autoimmunity and transplantation. These cells can be induced by cytokines to express MHC class II Ag in ocular inflammatory and autoimmune conditions. In this report we show that isolated rat RPE cells can be induced to express class II Ag following incubation with rat rIFN-gamma. The ability of RPE cells to present Ag was determined by both T cell proliferation assays and IL-2 production. Only the Ia-positive RPE cells can present retinal Ag (S-Ag and interphotoreceptor-binding protein) to specifically sensitized rat Th cells. Moreover, the ability of chloroquine to inhibit this activity suggests that the RPE cell is also capable of processing Ag prior to Ag presentation. These studies indicate that cytokine-mediated activation of RPE cells may be a basic component of ocular immunity and an important aspect of RPE cell transplantation.

Cytokine-mediated activation of a neuronal retinal resident cell provokes antigen presentation

The retinal pigment epithelial (RPE) cell has long been considered an important regulatory cell, maintaining physiological and structural balance within the retina. We have previously shown that the RPE cell may also be important in autoimmunity and transplantation. These cells can be induced by cytokines to express MHC class II Ag in ocular inflammatory and autoimmune conditions. In this report we show that isolated rat RPE cells can be induced to express class II Ag following incubation with rat rIFN-gamma. The ability of RPE cells to present Ag was determined by both T cell proliferation assays and IL-2 production. Only the Ia-positive RPE cells can present retinal Ag (S-Ag and interphotoreceptor-binding protein) to specifically sensitized rat Th cells. Moreover, the ability of chloroquine to inhibit this activity suggests that the RPE cell is also capable of processing Ag prior to Ag presentation. These studies indicate that cytokine-mediated activation of RPE cells may be a basic component of ocular immunity and an important aspect of RPE cell transplantation.

Murine coronavirus induces an acute and long-lasting disease of the retina

The ability of the coronavirus mouse hepatitis virus, strain JHM, to grow in the retinas of BALB/c mice was examined. Inoculation into the vitreous chamber produced significant changes. Immunoperoxidase staining of frozen sections with either monoclonal or polyclonal antiserum revealed coronaviral antigens in the iris, ciliary body, and a few ganglion cells on day 1. The retinal pigment epithelial cells began expressing viral antigen on day 2 and large amounts of antigen were present in these cells on day 3. Viral antigens were detected in all layers of the neural retina by day 6 and were absent after day 7. Infectious virus was recovered from retinas harvested at 5 days. The drop in viral antigen expression was correlated with an elevation in virus-specific antibody; the latter began to rise on day 5 and plateaued after day 8. In hematoxylin and eosin- or periodic acid -Schiff-stained sections of virus-inoculated left eyes, but not mock-inoculated right eyes, lesions spanning all layers of the neural retina were detected by day 3. Subsequently abnormalities in retinal pigment epithelial cells appeared, sometimes around the entire circumference of the retina. Significant retinal abnormalities, notably photoreceptor degeneration, persisted through 6 weeks. These results demonstrate that coronaviruses can cause acute infection of the posterior pole of the eye, resulting in only a mild inflammatory response and long-lasting disease. This murine disease may be considered a model for degenerative diseases of the pigment epithelium and photoreceptors in man.

Interferon-gamma enhances the expression of retinal S-antigen, a specific neuronal cell marker

Interferon-gamma (IFN-gamma) is a potent lymphokine which can modify a variety of cellular processes. One of the mechanisms involved in these processes is the ability of IFN-gamma to alter the regulation and expression of cellular proteins. Using analytical flow cytometry, we show that recombinant human IFN-gamma can enhance the expression of retinal S-antigen in retinoblastoma cells. This enhancement was selective since two other retinal cell proteins, interphotoreceptor binding protein (IRBP) and photo-6, were not affected by IFN-gamma treatment. Retinal S-antigen plays an important role in vision and is one of the retinal proteins capable of inducing an inflammatory eye disease called experimental autoimmune uveitis. These studies therefore demonstrate an important role for this lymphokine, that is, the enhanced expression of a neuronal cell protein. This finding may also identify additional mechanisms by which IFN-gamma may participate in immunopathologic events in nervous tissue.

Evaluation of Ia expression in rat ocular tissues following inoculation with interferon-gamma

It is becoming increasingly clear that IFN-gamma is a potent immunoregulatory protein which influences MHC class II (Ia) antigen expression and cellular functions of B cells, T cells, NK cells and macrophages. During the past 5 yr our laboratory has provided evidence that IFN-gamma modulates class II antigens on retinal cells (retinal pigment epithelial cells, endothelial cells) and is localized within the eye during human inflammatory conditions. In this study we evaluate the direct effect of IFN-gamma on ocular tissue. Lewis rats were inoculated intravitreally or under the retina with either recombinant IFN-gamma (20,000 U) or saline. At 2 hr, 1, 2 and 6 days postinoculation, the eyes were removed and frozen sections were evaluated by immunocytochemical staining with monoclonal anti-Ia antibodies and an irrelevant monoclonal anti-T cell antibody. Saline treated tissue and tissue removed 2 hr after IFN-gamma inoculation showed no significant staining for Ia antigens. However, eyes evaluated 24 hr after IFN-gamma inoculation revealed Ia expression on a variety of ocular cells localized in the conjunctiva and anterior segment, such as conjunctival epithelium, keratocytes, iris epithelium, ciliary epithelium and choroidal cells. In the retina, retinal pigment epithelial (RPE) cells were Ia positive only when IFN-gamma was injected directly under the retina. In conjunction with Ia expression, two striking changes were noted. An iritis was seen and infiltrating cells were detected in the inner retinal layers. Both of these phenomena have been observed in certain inflammatory eye diseases. These studies clearly substantiate the concept that IFN-gamma can regulate class II antigens in the eye and thus may perpetuate immune reactivity in this site.

Development and characterization of monoclonal antibodies directed against the retinal pigment epithelial cell

The retinal pigment epithelium consists of a unicellular layer of neuroepithelial cells that are essential for the maintenance of normal function of the neural retina. In order to evaluate more critically this cell in health and disease, we prepared monoclonal antibodies against human retinal pigment epithelial (RPE) cells. Balb/c mice were immunized with human RPE cells. Spleen cells were fused with myeloma cells and resultant hybridomas were selected for antibody production. Supernatants were assayed by immunoperoxidase on frozen sections of human eye tissues. Two hybrids were cloned and ascites were generated in mice. These IgG antibodies react only with RPE cells and show no cross-reactivity with other cells in the eye or with human brain, kidney, skin, salivary glands, lymphocytes or monocytes. These antibodies recognize cell surface molecules that are highly conserved since they can be found in man, monkey, rat, cow, chicken and frog. SDS gel electrophoresis and immunoblot analysis showed that one of the antibodies reacted with a 42,000 MW polypeptide. Evaluation of the developing rat retina revealed that the epitopes are not detected at birth, are weakly present at day 6 and are highly recognized by day 9. These immunoglobulins will allow us to evaluate RPE cells in disease (proliferation, migration) and to probe the bioregulatory functions (phagocytosis, vitamin A transport) of these cells.

Identification of the lymphokines, interferon-gamma and interleukin-2, in inflammatory eye diseases

The exact pathogenic mechanisms involved in autoimmune and inflammatory eye diseases are not known. However, studies during the past few years indicate that a T cell infiltrate, T cell sensitization to retinal antigens and expression of major histocompatibility complex (MHC) class II antigens are associated with this process. In this report we show that the lymphokines, IL-2 and IFN-gamma, are present in the human eye during inflammatory and autoimmune diseases. The presence of these lymphokines is associated with a lymphocyte infiltrate, predominantly of T cell origin, and with the expression of MHC class II antigens on both the infiltrating cells and ocular resident cells, that is, retinal pigment epithelial (rpe) cells and retinal vascular endothelial cells. Furthermore, in vitro studies demonstrate that IFN-gamma can enhance the expression of the HLA-DR determinant on both of these cell types. These observations suggest that lymphokine induced class II antigen expression may serve as a local amplification system in autoimmune and inflammatory eye diseases. A better understanding of the role of lymphokines in the mechanisms involved in the development of autoimmunity and inflammation may be beneficial in the treatment of these diseases.

Anti-Ia antibody diminishes ocular inflammation in experimental autoimmune uveitis

An experimental model of inflammatory eye disease, experimental autoimmune uveitis (EAU), was established by injecting rats in the footpad with S-antigen in complete Freund's adjuvant. This model system was used to evaluate the role of major histocompatibility complex (MHC) class II antigens (Ia) in the pathogenesis of this T cell mediated disease. One day prior to S-antigen priming, rats were injected with either anti-Ia antibodies or with mouse ascites. Clinical and histopathological analysis of eyes from rats treated with anti-Ia antibody showed less ocular inflammation as well as a delay in onset of EAU when compared to controls (p = 0.01). Furthermore, immunocytochemical evaluation demonstrated that tissue obtained from animals receiving anti-Ia therapy also expressed less Ia antigen, as well as a diminution in the number of infiltrating macrophages and lymphocytes. These data show that anti-Ia treatment significantly modifies the course of EAU in the rat. In addition, this study suggests that MHC class II antigen expression may be involved in the initiation and continuation of immune responses that results in ocular inflammatory diseases.

Coexpression of neuronal, glial, and major histocompatibility complex class II antigens on retinoblastoma cells

This study identifies the presence of major histocompatibility complex class II antigens on retinoblastoma cells. In addition, the modulation of HLA-DR by interferon-gamma as well as the preferential expression of this major histocompatibility complex molecule over HLA-DQ is described. Double labeling experiments revealed that HLA-DR antigen is shared concomitantly with cells of glial and neuronal character. Investigations such as these underscore the possibility that expression of major histocompatibility complex class II antigens may function as immunological components in the host or play a role in the cellular differentiation of these tumor cells.

Retinal vascular endothelium expresses fibronectin and class II histocompatibility complex antigens in experimental autoimmune uveitis

To analyze the role of the retinal vascular endothelial cells in the development of experimental autoimmune uveitis (EAU), we studied the presence of Ia antigen and FN in retinal vessels of Lewis rats immunized with retinal S antigen. Immunopathologic studies were performed on frozen tissues obtained during various stages of the disease. Our results show that Ia antigen was not present in the normal rat retina, and there was very little FN present in a few retinal vessels. One to two days prior to the histologic and clinical onset of EAU, FN was found to be increased in the retinal vessels. Ia antigen was found to be present in the retinal vessels coincident with the first signs of cellular infiltration. During the stage of maximal cellular infiltration, FN was present diffusely throughout the retina, as well as in the subretinal space, and Ia antigen was found diffusely in the cellular infiltrate. Therefore, FN and Ia antigen reflect the immunomodulation of vascular endothelial cells in EAU, which may be very important in the pathogenesis of retinal S antigen-induced uveitis. Two possible mechanisms for the role of the activation of the retinal vascular endothelium in the development of retinal inflammation in uveitis are discussed.

Effect of cyclosporin A (CyA) on the immunopathological lesion of the labial minor salivary glands from patients with Sjögren's syndrome

Labial minor salivary gland biopsy specimens from 14 patients with Sjögren's syndrome treated either with cyclosporin A (CyA) or placebo (5 mg/kg body weight day for six months) were studied to determine T lymphocyte subsets and HLA-DR antigen expression using the avidin-biotin-peroxidase technique. In all CyA treated patients we observed a decrease in the number of T lymphocytes and in the number of T helper cells, while the percentage of T suppressor cells and B cells was the same in both treated and untreated groups. It was also shown that the HLA-DR antigen expression on the epithelial cells was eliminated in the CyA treated patients. These findings suggest that the HLA-DR antigen expression on the epithelial cells is the result rather than the triggering factor of this T cell mediated process and is probably related to decreased lymphokine production by activated T lymphocytes.

HLA-DR expression by labial minor salivary gland tissues in Sjögren's syndrome

Minor salivary gland biopsy specimens from patients with Sjögren's syndrome (primary and secondary) and from normal controls were examined with the four step biotin-avidin-immunoperoxidase assay. The composition of the infiltrating cells was similar in patients with both primary and secondary Sjögren's syndrome, consisting primarily of T lymphocytes with predominance of T helper/inducer cells. B lymphocytes (Leu-14) were approximately 20-35% of the infiltrating lymphocytes, while only a few OKM1 (monocytes/macrophages) cells and Leu-7+ (natural killer; NK) cells were observed. The majority of infiltrating lymphocytes expressed HLA-DR antigens. In the biopsy specimens of the controls there were no infiltrates; the scattered lymphocytes, however, were also predominantly T lymphocytes. Finally, the glandular epithelial cells (ducts and acini) were inappropriately expressing HLA-DR antigens, in contrast with controls where minimal HLA-DR expression was found.

Expression of HLA-DR antigen on retinal pigment epithelial cells in retinitis pigmentosa

Class II (HLA-DR) antigens are cell surface molecules that play a major role in the initiation and perpetuation of immune responses. Although most cells do not constitutively express class II antigens, selected cells can be stimulated to do so in some immunologically mediated disorders. When retinal pigment epithelial cells were evaluated by either immunoperoxidase or immunofluorescent staining of frozen eye sections from normal individuals, HLA-DR antigens were not detected. In contrast, retinal pigment epithelial cells from two patients with retinitis pigmentosa did express HLA-DR antigens. These findings demonstrated that at some time during the course of retinitis pigmentosa, the retinal pigment epithelial cell is activated to express HLA-DR.

HLA-DR antigens on retinal pigment epithelial cells from patients with uveitis

The pathogenic mechanisms involved in immunologically associated ocular diseases are not clearly understood. To further evaluate these types of disorders, we examined the expression of HLA-DR antigen on eye sections from normal individuals and five patients (six eyes) with ocular inflammation (sympathetic ophthalmia and chronic uveitis). Using immunoperoxidase staining technique and the complement-mediated cytotoxicity assay, we detected the presence of HLA-DR antigens on retinal pigment epithelial (RPE) cells from uveitic eyes. In contrast, HLA-DR antigen was not detected on RPE cells from normal ocular tissue. Our study shows that during the course of human ocular inflammatory disorders, the RPE cell is activated to express HLA-DR antigens. This antigen expression may be important in the initiation and/or perpetuation of immune reactivity in the eye.

Expression of Ia antigen on retinal pigment epithelium in experimental autoimmune uveoretinitis

Recently, human retinal pigment epithelial (RPE) cells have been demonstrated to express class II, HLA-DR, antigens both in vivo and in vitro. HLA-DR antigens were detected on RPE cells from patients with uveitis and retinitis pigmentosa. In addition, in vitro studies revealed that not only does this cell express HLA-DR antigen but also that this antigen can be modulated by the lymphokine, interferon (IFN)-gamma. In this study we evaluated the development of the murine class II, Ia, antigens on RPE cells in experimental autoimmune uveoretinitis (EAU). Ia antigen was evaluated with the avidin-biotin-peroxidase technique. Ia antigen was not detected on RPE cells from normal rats. However, Ia antigen was detected on the surface of RPE cells from EAU rats four days prior to the development of clinical and histopathological EAU. Moreover, the expression of Ia antigen on RPE cells from EAU rats continued to persist until one and one-half months after immunization. This study demonstrates that during the course of EAU the RPE cell is activated to express Ia antigens. This antigen expression may be important in the initiation and/or perpetuation of immune reactivity in the eye.