Restricted tissue reactivity of autoantibodies to a 64-kDa eye muscle membrane antigen in thyroid-associated ophthalmopathy.

We studied the tissue specificity of eye muscle (EM) membrane-reactive autoantibodies detected in the serum of patients with thyroid-associated ophthalmopathy (TAO). In preliminary studies, such antibodies were shown to react, in sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting, with human thyroid (THY) and other human skeletal muscle (HSM) membrane antigens. We carried out absorption with human EM (HEM), THY, and HSM membranes of sera from patients with TAO and autoimmune thyroid disease without ophthalmopathy which reacted with one or more of 55-, 64-, and 95-kDa antigens in pig eye muscle (PEM) membrane in immunoblotting, the majority of which were also cytotoxic to HEM cells in an antibody-dependent cell-mediated cytotoxicity assay. In Western blotting, serum antibodies reactive with PEM membrane antigens of 55, 64, and 95 kDa were cross-absorbed by HEM, THY, and HSM but not by spleen or brain membranes and showed some species specificity, being absorbed by pig and human, but not bovine, EM membranes. When incubated with cultured HEM, THY, and HSM cells in vitro, autoantibodies in TAO sera immunoprecipitated a 64-kDa antigen from the first two tissues, but not from HSM, suggesting a specific binding to autoantigenic epitopes in HEM and THY. Sera from patients with TAO as well as those from patients with thyroid autoimmunity without ophthalmopathy immunoprecipitated a approximately 66-kDa protein, shown to be distinct from the 64-kDa antigen. The restricted immunological cross-reactivity of antibodies to a THY and HEM 64-kDa membrane antigen is discussed in the context of the association of ophthalmopathy with thyroid autoimmunity. Further experiments are needed to show whether autoantibodies to the 64-kDa eye muscle and thyroid shared antigen are cytotoxic, and thus likely to play a major role in the pathogenesis of the eye disease, or just markers of the orbital autoimmune process.     

A 63 kDa skeletal muscle protein associated with eye muscle inflammation in Graves' disease is identified as the calcium binding protein calsequestrin

It is generally accepted that thyroid-associated ophthalmopathy (TAO) is an autoimmune disease of the eye muscle (EM) and the surrounding orbital connective tissue in which circulating antibodies play an important role. Antibodies against EM membrane proteins of 63-67kDa mol. wt. seem to be the best markers of ophthalmopathy in patients with autoimmune thyroid disease. We purified a 63 kDa EM protein using SDS-polyacrylamide gel electrophoresis technology and TAO patients' sera as probes, digested the protein with cyanogen bromide and sequenced immunoreactive peptides. We also screened a human EM library with a rabbit antiserum against 63-65 kDa proteins and affinity purified antibodies from a TAO patient's serum that reacted with a 55 kDa EM membrane protein. From partial sequence information and from DNA sequencing of positive cDNA clones, the protein was identified as calsequestrin, a 63 kDa calcium binding protein localized in the sarcoplasmic reticulum of the muscle fiber. As determined by Northern blotting, calsequestrin was expressed in EM and other skeletal muscle but not thyroid or fibroblasts. Calsequestrin is different from the "64 kDa protein", which has been identified as succinate dehydrogenase flavoprotein subunit, which has a corrected mol. wt. of 67 kDa. Serum antibodies against calsequestrin were found in 40% of patients with clinically active TAO, but in only 4% of those with stable eye disease, and in 5% of normal subjects, by immunoblotting. Although it is possible that autoimmunity against calsequestrin plays a role in the progressive EM damage that characterizes ophthalmopathy it is more likely that the antibodies are secondary to a reaction against some other cell membrane protein, such as the novel thyroid and eye muscle shared protein G2s or the TSH receptor.     

Isotype and immunoglobulin subclass distribution of eye muscle membrane reactive antibodies in the serum of patients with thyroid-associated ophthalmopathy as detected in Western blotting.

We have determined the immunoglobulin (Ig) class (isotype) and IgG subclass of autoantibodies in the serum of patients with thyroid-associated ophthalmopathy (TAO) or autoimmune thyroid disorders without evident ophthalmopathy reactive in Western blotting with antigens of 55, 64, 75 and 95 kDa in pig eye muscle membrane (PEMM). The 22 sera studied were shown, previously, to contain IgG antibodies reactive with one or more of the four antigens. The majority of sera antibodies reactive with PEMM antigens were of two or more IgG subclasses. Of the IgG subclass specificities IgG3 and IgG4 subclass antibodies were, overall, the most common. We were unable to demonstrate IgG subclass restriction for antibodies reactive with the 95 or 55 kDa antigens in PEMM, antibody activity being equally distributed in all four subclasses tested. While most of the sera which recognized a 64 kDa antigen did so with an IgG4 antibody, all other subclasses were also represented. On the other hand all 13 sera reactive with a 75 kDa antigen did so using Ig of the IgG3 subclass and 12 of these used the IgG4 subclass as well, IgG1 and IgG2 subclasses being represented in only 3 and 4 sera, respectively. There were no differences, in respect to Ig class or IgG subclass distribution of eye muscle reactive antibodies between patients with Graves' hyperthyroidism with ophthalmopathy and those with Hashimoto's thyroiditis, and eye disease. Control sera from five normal subjects and three patients with nonautoimmune thyroid disorders did not contain antibodies reactive with these PEMM antigens of any Ig class or IgG subclass.(ABSTRACT TRUNCATED AT 250 WORDS)     

Significance of anti-eye muscle antibody in patients with thyroid-associated ophthalmopathy by quantitative western blot.

To investigate the prevalence of antibody against rat eye muscle membrane antigen, as determined from SDS-polyacrylamide gel electrophoresis and western blotting, in sera from patients with thyroid-associated ophthalmopathy (TAO), we quantitatively analyzed the binding activity with a rat eye muscle membrane 64 kDa protein using chromato-scanner. Eye muscle antibody activity was expressed as ratio of density of the 64 kDa band to that at 66 kDa found with all normal sera and phosphate buffered saline. The mean (+/- SD) eye muscle antibody activity was 2.7 +/- 2.7 in TAO (P < 0.01 v.s. normal), 1.5 +/- 1.7 in Graves' disease without evident eye disease, 1.6 +/- 2.5 in Hashimoto's thyroiditis and 0.45 +/- 0.26 in normal subjects. A positive band at 64 kDa was found in 71% of patients with TAO, 36% of those of Graves' disease without evident eye disease and in 35% of patients with Hashimoto's thyroiditis without eye disease. The prevalence of this antibody activity tended to correlate to the severity of ophthalmopathy. Furthermore, the level of eye muscle antibody activity decreased in parallel with the improvement of eye signs in two patients. Sera reactive with rat eye muscle membrane 64 kDa protein reacted also with a human eye muscle membrane 64 kDa protein but not with human thyroid, liver, spleen or pancreas membrane preparations. In conclusion, antibody to rat eye muscle membrane 64 kDa protein is present in TAO and may be a useful clinical marker of ophthalmopathy.     

Failure to Detect Complement-Mediated Antibody-Dependent Cytotoxicity Against Human Orbital Tissue Cells in the Serum of Patients with Thyroid-Associated Ophthalmopathy

Antibodies which are cytotoxic to human eye muscle cells and orbital fibroblasts in antibody dependent cell-mediated cytotoxicity (ADCC) are routinely detected in the serum of patients with thyroid-associated ophthalmopathy (TAO). In the present study sera from patients with TAO, most of which were shown to be positive in ADCC against eye muscle cell targets, were tested for complement-mediated antibody-dependent cytotoxicity (CMAC) against human and pig eye muscle cells, human (abdominal) skeletal muscle cells and human orbital fibroblasts, in ⁵¹ Cr release assays. Several different assay protocols and complement sources were used and patient and age, sex matched normal sera compared. In preliminary studies tests were always negative when eye muscle cells, other skeletal muscle cells, or orbital fibroblasts were used as targets, regardless of the complement source, or concentration, or assay conditions used. When larger numbers of patients and normals were tested in a single assay mean (± SE) % specific lysis for patients with TAO was not significantly different from that for normals for either eye muscle cells or other skeletal muscle cells and taking the upper limit of normal as mean + 2 SD for the normals, tests were positive in no patient with either target. On the other hand ADCC tests were positive in 57 % of the same sera tested with the same eye muscle cell targets. When human thyroid cells were used as targets, tests were positive in 10 of the 14 patients tested and monoclonal antibodies, in enzyme-linked immunosorbent assay, reactive with eye muscle antigens gave positive lysis of eye muscle cells.

Although eye muscle reactive autoantibodies have been well described in TAO, particularly IgG₃ subclass antibodies against a 64 kDa membrane antigen, their significance in the pathogenesis of the eye muscle component of this disorder is unclear. In contrast to thyroid cells where microsomal, and perhaps other membrane reactive antibodies, are cytotoxic in both ADCC and CMAC, antibodies associated with TAO appear to be cytotoxic only in ADCC. Although the reason for this discrepancy is unknown one possible mechanism is failure of IgG₃ subclass antibodies, which are usually cytotoxic, to activate complement when the target antigen is in too low a density on the cell surface.     

Failure to detect complement-mediated antibody-dependent cytotoxicity against human orbital tissue cells in the serum of patients with thyroid-associated ophthalmopathy

Antibodies which are cytotoxic to human eye muscle cells and orbital fibroblasts in antibody dependent cell-mediated cytotoxicity (ADCC) are routinely detected in the serum of patients with thyroid-associated ophthalmopathy (TAO). In the present study sera from patients with TAO, most of which were shown to be positive in ADCC against eye muscle cell targets, were tested for complement-mediated antibody-dependent cytotoxicity (CMAC) against human and pig eye muscle cells, human (abdominal) skeletal muscle cells and human orbital fibroblasts, in 51Cr release assays. Several different assay protocols and complement sources were used and patient and age, sex matched normal sera compared. In preliminary studies tests were always negative when eye muscle cells, other skeletal muscle cells, or orbital fibroblasts were used as targets, regardless of the complement source, or concentration, or assay conditions used. When larger numbers of patients and normals were tested in a single assay mean (+/- SE) % specific lysis for patients with TAO was not significantly different from that for normals for either eye muscle cells or other skeletal muscle cells and taking the upper limit of normal as mean + 2 SD for the normals, tests were positive in no patient with either target. On the other hand ADCC tests were positive in 57% of the same sera tested with the same eye muscle cell targets. When human thyroid cells were used as targets, tests were positive in 10 of the 14 patients tested and monoclonal antibodies, in enzyme-linked immunosorbent assay, reactive with eye muscle antigens gave positive lysis of eye muscle cells.2+ t     

Significance of cytotoxic eye muscle antibodies in patients with thyroid-associated ophthalmopathy

We have studied the clinical significance of cytotoxic antibodies against human eye muscle cells in patients with thyroid-associated ophthalmopathy (TAO). Eye muscle reactive antibodies were measured in an antibody-dependent cell-mediated cytotoxicity (ADCC) assay. A positive test was defined as % specific lysis greater than the upper limit of normal, taken as the mean plus two standard deviations for normal subjects tested concurrently. As parameters of the severity of the ophthalmopathy we measured the degree of proptosis (mm), level of intraocular pressure (IOP) (mmHg) and American Thyroid Association classes (0-6). ADCC tests were positive in 21 out of 42 patients with TAO and in 8 out of 14 patients with Graves' disease without evident eye disease but in none of 12 normal subjects tested. In patients with TAO mean (+/- SE) IOP was significantly greater than that in patients with Graves' disease without apparent eye involvement for the primary position and for all gaze positions. There were significant positive correlations between levels of eye muscle reactive cytotoxic antibodies and the severity of the eye disease quantitated as American Thyroid Association classes 0-6, the IOP in the primary position and on downgaze, but not with the degree of proptosis. These results suggest that cytotoxic antibodies, as detected in ADCC, may play a role in the eye muscle damage of TAO and that their measurement may provide a useful clinical test.     

T cell responses to orbital antigens in thyroid-associated ophthalmopathy.

Thyroid-associated ophthalmopathy (TAO) is most likely to be a T cell-mediated disease, in which cytokines released in the extraocular muscles activate fibroblasts, increasing glycosaminoglycan production. The nature of the orbital antigen recognized by the infiltrating T cells is unclear, although it is possible that there is cross-reactivity between this and a thyroid autoantigen to explain the close association with thyroid autoimmunity. We have tested the ability of human and porcine eye muscle antigen preparations to stimulate proliferation of circulating T cells from healthy subjects and patients with TAO or Graves' disease without clinical TAO. Occasional responses were seen, particularly after depletion of CD8+ T cells, and two out of 10 TAO patients responded to eye muscle proteins of 25-50 kD after fractionation of antigens on gels and subsequent elution. There was no disease-specific response of T cells to R1, R14, D1 and 1D3, recombinant proteins identified from screening an eye muscle cDNA library with sera from patients with autoimmune thyroid disease. We have also found that interferon-gamma (IFN-gamma) production by T cells from TAO patients was not stimulated by eye muscle membrane antigens or by 1D3. These results suggest that the frequency of circulating T cells responding to eye muscle antigens in TAO is low, and that several candidate orbital antigens, including the 64-kD protein 1D3, are unlikely to be important T cell autoantigens in this condition.     

Antibodies in the serum of patients with autoimmune thyroid disorders react with a recombinant 98 amino acid fragment of a full length 64 kDa eye muscle membrane protein which is also expressed in the thyroid.

We have tested sera from patients with autoimmune thyroid disorders with or without ophthalmopathy for immunoreactivity, in a dot blot assay, against a recombinant 98 amino acid fragment of a cloned 64 kDa protein, D1, which is expressed in human eye muscle and thyroid, in the form of a Lac Z fusion protein. Tests were positive in 19 out of 40 patients with established thyroid-associated ophthalmopathy (TAO), in 12 out of 21 patients with Graves' hyperthyroidism (GH) without clinically evident ophthalmopathy, in 5 out of 10 patients with thyroid autoimmunity and lid retraction but no other signs of ophthalmopathy, in 4 out of 23 patients with Hashimoto's thyroiditis (HT) without evident ophthalmopathy and in 2 out of 18 patients with benign adenoma or multinodular goitre, but in only 2 out of 37 normal subjects tested. SDS-polyacrylamide gel electrophoresis and Western blotting for an antibody reactive with a 64 kDa antigen in pig eye muscle membranes was also carried out on sera from patients with TAO and GH. While immunoblotting for antibodies reactive with a 64 kDa protein was more often positive in patients with TAO, in whom 58% had serum antibodies which reacted with a 64 kDa protein, this was not the case in patients with GH without eye signs in whom the prevalence of positive immunoblot tests was 35%. Overall there was a fairly close correlation between the two tests although there were many exceptions.(ABSTRACT TRUNCATED AT 250 WORDS)     

Muscle and species reactivity of mouse monoclonal antibodies to human eye muscle membrane antigens.

We studied the tissue and species reactivity of mouse monoclonal antibodies (MCAB) produced by immunizing mice with a 100,000g ultracentrifuged preparation of human eye muscle (HEM) membranes. Twenty-three MCABs, 20 of which reacted in an enzyme-linked immunosorbent assay (ELISA) with HEM membrane, 2 with human thyroid membrane, and 1 nonreactive negative control, were selected for the study. The muscle and species specificity of 6 of the most reactive and more restrictively reactive MCAB were studied in more detail. All reacted in ELISA with human skeletal muscle membrane and, to a lesser extent, with human cardiac muscle membrane, but not with human brain membrane. The 6 MCAB cross-reacted with eye muscle membrane prepared from pig but not rat, although reactivity with human tissue was greatest for all MCAB tested. When tested in immunoblotting with HEM and thyroid membranes, 3 of 6 MCAB reacted with a 64-kDa protein in HEM, 2 of which also reacted with an antigen of the same molecular weight in thyroid membrane. In a complement-mediated antibody-dependent cytotoxicity assay, 5 of 19 MCAB lysed HEM cells, 6 of 21 lysed human skeletal muscle cells, and 10 of 22 lysed human thyroid cells. These findings support results from earlier clinical studies which showed that eye muscle membrane reactive autoantibodies in the serum of patients with thyroid-associated ophthalmopathy cross-react with membrane prepared from other striated muscle. The significance of eye muscle, skeletal muscle, and thyroid cross-reactivity of MCAB is discussed in the context of autoimmune thyroid disease and ophthalmopathy.     

Comparative study on IgG and IgA antibodies against human thyroid and eye-muscle antigens in Graves' ophthalmopathy.

Circulating IgG and IgA anti-thyroid and anti-eye muscle antibodies were investigated in 87 patients with Graves' disease (60 cases with ophthalmopathy). The ELISA method was used. Both IgG and IgA antibodies were demonstrated against human thyroid and eye-muscle membrane or cytosol antigens. Anti-eye-muscle antibodies of the IgA type were observed more frequently than those of the IgG type (25 cases vs. 18 were demonstrated with membrane antigens and 37 cases vs. 23 with cytosol antigens). The respective distributions for thyroid antigens the cytosol fraction were 55 cases vs. 13 and 18 cases vs. 36. A significant difference was observed in the anti-thyroid IgG levels and the anti-eye-muscle membrane or cytosol levels between the patients with Graves' disease and those in control group (P less than 0.001). The difference in the IgA antibody to thyroid and eye-muscle antigens was significant between the patients with and without ophthalmopathy (P less than 0.002). The strong correlation between the levels of IgA antibodies to thyroid and those to the eye-muscle cytosol fractions might be connected with the theory of the common aetiology of the thyroid and eye diseases in Graves' ophthalmopathy (P less than 0.001). Circulating IgA anti-human thyroid and eye-muscle antibodies seemed to have a diagnostic relevance in the development of ophthalmopathy in Graves' ophthalmopathy.     

Antithyroglobulin monoclonal and autoantibodies cross-react with an orbital connective tissue membrane antigen: a possible mechanism for the association of ophthalmopathy with autoimmune thyroid disorders.

The possibility that Graves' ophthalmopathy and autoimmune thyroid disorders may be associated because of autoimmune reactions against antigens shared between human orbital and thyroid tissues was investigated using anti-thyroglobulin (Tg) monoclonal and autoantibodies. Eleven of 16 mouse monoclonal antibodies (MCAB) tested reacted, in an enzyme-linked immunosorbent assay (ELISA), with an antigen in human orbital connective tissue membranes (OCTmem), but not with the OCT soluble fraction, or with membrane or soluble fractions of human eye muscle, lacrimal gland or skin connective tissue. The anti-OCTmem activity was absorbed by OCTmem and Tg, but not by liver membranes or bovine serum albumin (BSA). In preliminary studies four out of 113 human MCAB against thyroid or orbital tissue antigens showed reactivity restricted to Tg and OCTmem. Sera from approximately 50% of patients with autoimmune thyroid disorders, with or without ophthalmopathy, also reacted with OCTmem. The autoantibody activity correlated closely with serum titres of antithyroglobulin but not with the presence, duration, or severity of the eye disease. The OCTmem reactivity was absorbed by Tg, thyroid membranes, and OCTmem but not liver membranes, membranes prepared from other orbital tissues, or BSA. The OCTmem-Tg shared antigen site appeared not to be native thyroglobulin since, (i) MCAB and serum autoantibodies did not react with the cytosol fraction of OCT, and (ii) because the membrane antigen was not solubilizable. Because not all patients with ophthalmopathy have detectable anti-Tg antibodies and, conversely, because not all patients with detectable anti-Tg antibodies develop ophthalmopathy it is unlikely that autoimmunity against a OCTmem-Tg shared antigen is the primary mechanism of Graves' ophthalmopathy, although this possibility has not been excluded. On the other hand the reaction of anti-Tg autoantibodies with OCT membranes may be a model for other autoimmune reactions against other thyroid-orbital tissue-shared antigens. While the pathogenesis of Graves' ophthalmopathy is likely to be multifactorial, humoral and cellular reactions against primary orbital antigens, thyroid-orbitol tissue shared antigens, or both, are likely to play important roles.     

Nature and significance of orbital autoantigens and their corresponding autoantibodies in thyroid-associated ophthalmopathy.

There is now considerable evidence that the pathogenesis of thyroid-associated ophthalmopathy is closely linked to the presence of a shared autoantigen(s) in the thyroid and the eye muscle, against which cytotoxic mechanisms are directed. Although the orbital connective tissue is certainly involved in the orbital inflammatory process, a 64 kDa membrane protein expressed by both the eye muscle and the thyroid and recognized consistently by antibodies in the sera of TAO patients, seems to be the most likely target candidate. While its presence in non ocular skeletal muscle is not as well established, more recent data tend to suggest the existence of a 64 kDa molecule in the three tissues. The availability of a cDNA encoding a 572 amino acid protein corresponding to a MW of 63-64 kDa, which may be the same molecule, will allow us to determine more clearly the structural characteristics of the different molecules proposed as targets. The role of the corresponding autoantibodies in the pathogenesis of the eye disease is far less well defined. Whether they play a role in the induction of the ophthalmopathy or only represent helpful markers remains to be clarified.     

Eye muscle membrane reactive antibodies are not detected in the serum or immunoglobulin fraction of patients with thyroid-associated ophthalmopathy using an ELISA and crude membranes

We tested sera and purified immunoglobulin (Ig) fractions from patients with autoimmune thyroid disorders (AITD), with and without ophthalmopathy, and normal subjects, for the presence of antibodies reactive with eye muscle membrane antigens in an optimized enzyme-linked immunosorbent assay (ELISA). We found no correlation between ELISA results and the presence or severity of ophthalmopathy in patients with AITD for either serum or Ig, and there were no significant differences between the mean values (+/- SE) for the three groups (AITD with ophthalmopathy, AITD without ophthalmopathy and normals) for either serum or Ig. In contrast Ig from 8 of 19 (45%) patients with thyroid-associated ophthalmopathy reacted with a 64 kDa eye muscle membrane antigen in SDS-polyacrylamide gel electrophoresis and Western blotting, while tests were positive in only one of the 8 patients with AITD without eye disease and in none of the 8 normal subjects. The presence of antibodies to a 64 kDa antigen in immunoblotting did not correlate with the levels of antibodies measured in ELISA. We conclude that the ELISA, incorporating a crude membrane fractions as antigen, is not useful as a clinical test for eye muscle autoantibodies.     

Immunohistochemical Studies Using Immunized Guinea Pig Sera with Features of Anti-Human Thyroid,Eye and Skeletal Antibody and Graves’ Sera

Type 2 5′ deiodinase enzyme was observed in both thyroid and eye muscle tissues, highlighting its possible role as a common antigen in thyroid-associated ophthalmopathy. Sera of 105 Graves’ patients and 40 controls, and immunized guinea pig sera against TCSS peptide, showing homology to the amino acid sequence from 132 to 152 of type 2 5′ deiodinase, were investigated to demonstrate the binding effects to human thyroid, eye and skeletal muscle tissues. Twenty-two Graves’ patients were positive for anti-TCSS peptide antibodies, of whom 18 cases had ophthalmopathy. The levels of anti-TCSS peptide antibodies were higher not only in Graves’ patients with (P<0.0001) and without (P<0.036) eye symptoms compared to controls but also the difference was significant between patients with and without ophthalmopathy (P<0.049). In Western blot, immunized sera showed binding reactions to the supernatant fractions of human thyroid, eye and skeletal muscle tissues at the range of 29 kDa. Patient sera with Graves’ ophthalmopathy resulted in positive reactions directed to membrane areas in thyroid follicular cells, and to fibers in eye and skeletal muscles using immunohistochemical method, while no positive staining was present after adding control sera. The binding features of immunized guinea pig sera exhibited similar staining in all human tissues but could be blocked with Graves’ sera. Our results suggest that type 2 5′ deiodinase enzyme protein could play a role as an antigen in Graves’ disease. Immunized guinea pig sera against TCSS peptide exhibited similar binding reactions and stainings to human thyroid, eye and skeletal muscle tissues as patient sera with Graves’ ophthalmopathy.     

Thyroid-associated ophthalmopathy--a model for the association of organ-specific autoimmune disorders

The development of a characteristic ophthalmopathy is a feature of autoimmune diseases of the thyroid. The link between the conditions has not yet been discovered, but here Jack Wall and colleagues develop the theory that an autoimmune response to a 64 kDa antigen expressed on both thyroid and eye muscle membranes is responsible for this thyroid-associated ophthalmopathy.     

Extraocular muscle autoimmunity and orbital fat inflammation in thyroid-associated ophthalmopathy

The immunological basis for the ophthalmopathy associated with Graves’ hyperthyroidism is both poorly understood and controversial. The mechanism for its link with thyroid autoimmunity is unknown but likely to be due to autoimmunity against some thyroid and orbital tissue-shared antigen, such as the thyroid-stimulating hormone receptor, which is expressed on the orbital pre-adipocyte and extraocular muscle cell, or the putative ‘eye muscle cell membrane antigen’. Chronic upper-eyelid retraction, which sometimes occurs as a dominant feature of ophthalmopathy or as an isolated abnormality, is a common and related orbital disorder. Recent evidence that antibodies targeting the calcium-binding protein calsequestrin are specific and sensitive markers of eye muscle and upper-eyelid muscle damage has highlighted the need for diagnostic antibody tests in ophthalmopathy. In the context of this confusion, this review will address the nature of the autoimmune reactions in thyroid-associated ophthalmopathy, focusing on the eye muscle.     

Identification of autoantigen recognized by autoimmune ophthalmopathy sera with immunoblotting correlated with orbital computed tomography.

We have demonstrated that there is an antibody related to extraocular muscle enlargement in autoimmune ophthalmopathy (Graves' ophthalmopathy, thyroid-associated correlated with orbital computed tomography (CT). This study was designed to identify the autoantigen and to determine whether there are common antigens among the extraocular muscle, the lacrimal gland, and the thyroid. We prepared a 100,000g sediment fraction of porcine extraocular muscle, lacrimal gland, thyroid, and human thyroid, followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunoblotting with sera from patients with Graves' disease, with or without ophthalmopathy, classified by symptoms and signs combined with orbital CT and normal controls. The results showed there was an approximately 55-kDa protein band which was recognized by the sera in 32.1% (9/28) of patients with autoimmune ophthalmopathy and in 47.3% (9/19) of patients with extraocular muscle enlargement demonstrated by orbital CT. It was significantly higher than the positive rates in patients without autoimmune ophthalmopathy and normal controls (15.8 and 11.1%, respectively, P < 0.025). However, there was no common antigen among the extraocular muscles, the lacrimal gland, and the thyroid. To further confirm this eye muscle-specific antigen, the approximately 55-kDa protein band was cut and solubilized from the nitrocellulose paper after SDS-PAGE, and electrophoretically transferred and used as an antigen in enzyme-linked immunosorbent assay. The absorbance was significantly higher in patients with autoimmune ophthalmopathy than patients without ophthalmopathy (P < 0.005), and normal controls (P < 0.01). Our findings suggest that an approximately 55-kDa protein may be a possible antigen in the eye muscle related to autoimmune ophthalmopathy.     

Peripheral Blood Lymphocyte Transformation to G2s in Patients with Autoimmune Thyroid Disease with and without Ophthalmopathy

Thyroid associated ophthalmopathy (TAO) is an autoimmune disease involving the extra ocular muscles and surrounding orbital connective and adipose tissues. The mechanism for the link between ophthalmopathy and thyroid autoimmunity is unknown but current evidence favors an immune reaction against a thyroid and orbital tissue shared antigen such as the novel protein G2s, which is highly expressed in both eye muscles and thyroid, or the TSH receptor (TSHR). Earlier, we showed that serum antibodies against G2s were closely linked to ophthalmopathy. Although lymphocytic infiltration of the eye muscles is a pathologic feature of TAO, it is unclear whether the reaction is in the eye muscle fiber or the surrounding connective tissue. We tested for peripheral blood mononuclear cell sensitization to G2s fusion protein in patients with TAO, Graves' hyperthyroidism or Hashimoto's thyroiditis without evident ophthalmopathy and normal subjects. Results were expressed as counts per min (cpm) and as stimulation indices (SI). Although proliferation tests were positive in 23% of patients with TAO, overall, there were no significant differences between the four groups. Tests were also positive in four out of seven patients with Hashimoto's thyroiditis, suggesting that immune reactivity against G2s could be a marker of this progressive thyroid disorder. There was no significant correlation between T cell reactivity to G2s and serum antibodies against the same protein, measured in enzyme linked immunosorbent assay. Failure to demonstrate significant T lymphocyte sensitization to G2s in the majority of patients with TAO may reflect the small number of sensitized T cells expected to be circulating in the peripheral blood which could be overcome by testing cloned orbital T cells, as available. Another possibility is that the T cell epitope(s) is not present on the 141 amino acid fragment of G2s that we have so far cloned. The finding of positive T cell tests in a small proportion of patients with ophthalmopathy suggests that future studies using cloned orbital T cells and full length G2s, or its dominant epitope, are indicated.     

Peripheral blood lymphocyte transformation to G2s in patients with autoimmune thyroid disease with and without ophthalmopathy

Thyroid associated ophthalmopathy (TAO) is an autoimmune disease involving the extra ocular muscles and surrounding orbital connective and adipose tissues. The mechanism for the link between ophthalmopathy and thyroid autoimmunity is unknown but current evidence favors an immune reaction against a thyroid and orbital tissue shared antigen such as the novel protein G2s, which is highly expressed in both eye muscles and thyroid, or the TSH receptor (TSHR). Earlier, we showed that serum antibodies against G2s were closely linked to ophthalmopathy. Although lymphocytic infiltration of the eye muscles is a pathologic feature of TAO, it is unclear whether the reaction is in the eye muscle fiber or the surrounding connective tissue. We tested for peripheral blood mononuclear cell sensitization to G2s fusion protein in patients with TAO, Graves' hyperthyroidism or Hashimoto's thyroiditis without evident ophthalmopathy and normal subjects. Results were expressed as counts per min (cpm) and as stimulation indices (SI). Although proliferation tests were positive in 23% of patients with TAO, overall, there were no significant differences between the four groups. Tests were also positive in four out of seven patients with Hashimoto's thyroiditis, suggesting that immune reactivity against G2s could be a marker of this progressive thyroid disorder. There was no significant correlation between T cell reactivity to G2s and serum antibodies against the same protein, measured in enzyme linked immunosorbent assay. Failure to demonstrate significant T lymphocyte sensitization to G2s in the majority of patients with TAO may reflect the small number of sensitized T cells expected to be circulating in the peripheral blood which could be overcome by testing cloned orbital T cells, as available. Another possibility is that the T cell epitope(s) is not present on the 141 amino acid fragment of G2s that we have so far cloned. The finding of positive T cell tests in a small proportion of patients with ophthalmopathy suggests that future studies using cloned orbital T cells and full length G2s, or its dominant epitope, are indicated.