Potential role of IGF-1R in the interaction between orbital fibroblasts and B lymphocytes: an implication for B lymphocyte depletion in the active inflammatory phase of thyroid-associated ophthalmopathy.

BACKGROUND: Thyroid eye disease (TED) is an inflammatory process involving lymphocyte-mediated immune response and orbital tissue damage. The anti-insulin-like growth factor-1 receptor (IGF-1R) antibodies produced by B lymphocytes are involved in the activation of orbital fibroblasts and the inflammatory process of orbital tissue damage in TED. The purpose of this study was to explore the role of IGF-1R in the mechanistic connection between orbital fibroblasts and B lymphocytes in TED. METHODS: Orbital fibroblasts sampled from orbital connective tissues and peripheral B lymphocytes isolated from peripheral blood, which were obtained from 15 patients with TED and 15 control patients, were co-cultured at a ratio of 1:20. The level of IGF-1R expression in orbital fibroblasts was evaluated by flow cytometry and confocal microscopy. Transient B lymphocyte depletion was induced with anti-CD20 monoclonal antibody rituximab, while the IGF-1R pathway was blocked by the IGF-1R binding protein. The expression levels of interleukin-6 (IL-6) and regulated upon activation, normal T cell expressed and secreted (RANTES) in the co-culture model were quantified via ELISA. RESULTS: IGF-1R expression was significantly elevated in TED orbital fibroblasts compared to that of controls. A 24-h co-culture of orbital fibroblasts with peripheral B lymphocytes induced elevated expression levels of IL-6 and RANTES in each group (TED patients and controls), with the highest levels occurring in TED patients (T + T group). Rituximab and IGF-1R binding protein significantly inhibited increased levels of IL-6 and RANTES in the co-culture model of TED patients. CONCLUSIONS: IGF-1R may mediate interaction between orbital fibroblasts and peripheral B lymphocytes; thus, blocking IGF-1R may reduce the local inflammatory response in TED. Rituximab-mediated B lymphocyte depletion played a role in inhibiting inflammatory responses in this in vitro co-culture model, providing a theoretical basis for the clinical application of anti-CD20 monoclonal antibodies in TED.

2021 update on thyroid-associated ophthalmopathy.

PURPOSE: Our understanding of thyroid-associated ophthalmopathy (TAO, A.K.A Graves' orbitopathy, thyroid eye disease) has advanced substantially, since one of us (TJS) wrote the 2010 update on TAO, appearing in this journal. METHODS: PubMed was searched for relevant articles. RESULTS: Recent insights have resulted from important studies conducted by many different laboratory groups around the World. A clearer understanding of autoimmune diseases in general and TAO specifically emerged from the use of improved research methodologies. Several key concepts have matured over the past decade. Among them, those arising from the refinement of mouse models of TAO, early stage investigation into restoring immune tolerance in Graves' disease, and a hard-won acknowledgement that the insulin-like growth factor-I receptor (IGF-IR) might play a critical role in the development of TAO, stand out as important. The therapeutic inhibition of IGF-IR has blossomed into an effective and safe medical treatment. Teprotumumab, a ß-arrestin biased agonist monoclonal antibody inhibitor of IGF-IR has been studied in two multicenter, double-masked, placebo-controlled clinical trials demonstrated both effectiveness and a promising safety profile in moderate-to-severe, active TAO. Those studies led to the approval by the US FDA of teprotumumab, currently marketed as Tepezza for TAO. We have also learned far more about the putative role that CD34+ fibrocytes and their derivatives, CD34+ orbital fibroblasts, play in TAO. CONCLUSION: The past decade has been filled with substantial scientific advances that should provide the necessary springboard for continually accelerating discovery over the next 10 years and beyond.

cDC2 and plasmacytoid dendritic cells diminish from tissues of patients with non-Hodgkin orbital lymphoma and idiopathic orbital inflammation.

Non-Hodgkin orbital lymphoma (NHOL) and idiopathic orbital inflammation (IOI) are common orbital conditions with largely unknown pathophysiology. To investigate the immune cell composition of these diseases, we performed standardized 29 parameter flow cytometry phenotyping in peripheral blood mononuclear cells of 18 NHOL patients, 21 IOI patients, and 41 unaffected controls. Automatic gating by FlowSOM revealed decreased abundance of meta-clusters containing dendritic cells in patients, which we confirmed by manual gating. A decreased percentage of (HLA-DR+ CD303+ CD123+ ) plasmacytoid dendritic cells (pDC) in the circulation of IOI patients and decreased (HLA-DR+ CD11c+ CD1c+ ) conventional dendritic cells (cDC) type-2 for IOI patients were replicated in an independent cohort of patients and controls. Meta-analysis of both cohorts demonstrated that pDCs are also decreased in blood of NHOL patients and highlighted that the decrease in blood cDC type-2 was specific for IOI patients compared to NHOL or controls. Deconvolution-based estimation of immune cells in transcriptomic data of 48 orbital biopsies revealed a decrease in the abundance of pDC and cDC populations within the orbital microenvironment of IOI patients. Collectively, these data suggest a previously underappreciated role for dendritic cells in orbital disorders.

Orbital B-lymphocyte depletion in a treatment failure of rituximab for thyroid eye disease.

Rituximab is an emerging treatment for thyroid eye disease. Rituximab effectively depletes circulating CD20+ B-lymphocytes; however, its effect on target tissues has not been well-studied. Failures of rituximab have been infrequently reported. The authors describe a patient treated with rituximab for thyroid eye disease who failed to respond to treatment, and underwent orbital decompression. Orbital fat samples and peripheral blood samples were evaluated for the presence of CD20+ B-lymphocytes. Complete depletion of CD20+ B-lymphocytes was demonstrated in both the orbit and the blood. This case demonstrates that rituximab effectively depletes orbital CD20+ B-lymphocytes, and this depletion was maintained for 2 months despite a clinical deterioration.

Sphenoid sinus dehiscence as a risk for visual consequences in an immunocompromised patient.

Isolated sphenoid sinus disease is a rare entity with severe and potentially life threatening sequela. Because of the proximity of the sinus to the orbit, anatomical defects within the surrounding bony structures can facilitate communication with orbital content, predisposing the patient to substantial visual consequences. We report a case of a 51-year-old immunocompromised male who presented with headache and gradual unilateral decreases in vision. Computed tomography revealed opacification of the left sphenoid sinus accompanied by unusual bony dehiscence of the proximal optic canal. Early recognition and treatment of sphenoid sinusitis requires urgent surgical intervention with delay of treatment potentially leading to irreversible blindness or other devastating consequences. Bony dehiscence of the sphenoid sinus overlying the optic nerve has only been found in 4% of cadavers. It is associated with increased risk of orbital complications and predicts a poor prognosis. Immediate intervention is particularly important in immunocompromised individuals who are at greater risk of these severe complications.

[The role of adipose tissue in the pathogenesis and clinical manifestation of Graves' orbitopathy]. / Udzial tkanki tluszczowej w patogenezie i obrazie klinicznym orbitopatii tarczycowej.

Graves' orbitopathy (GO) is a inflammatory disease of connective tissue with autoimmune background considered as extrathyroidal component of the Graves' disease. Despite a progress in understanding of some elements of the pathogenesis it still remains one of the most complex topics of clinical endocrinology. Clinical symptoms of the orbitopathy derive from the discrepancy between limited space of the orbit and expansion of pathologically affected orbital tissues. In present paper the current state of knowledge concerning the role of orbital adipose tissue in a multifaceted manifestation of the disease as well as its importance in the immune and inflammatory reaction have been reviewed. The role of the major orbital auto antigens (TSHR and IGF1R) as well as hypotheses concerning the putative link connecting pathology of thyroid gland and orbital tissues were discussed.

Potential role for bone marrow-derived fibrocytes in the orbital fibroblast heterogeneity associated with thyroid-associated ophthalmopathy.

Fibroblast heterogeneity has been recognized for decades, but the basis for multiple phenotypes among these cells has been investigated only recently. More than 15 years ago, Bucalla and his colleagues described for the first time a population of fibroblast-like cells among circulating mononuclear blood cells. Subsequently these mesenchymal cells, termed fibrocytes, have been characterized and found to participate in normal and pathological tissue remodelling. In this review, I have attempted to present the evidence generated thus far suggesting that fibrocytes are participants in autoimmune diseases where tissues are injured and undergo remodelling. Aspects of their phenotype suggest that they are well suited to help orchestrate immune responses through mononuclear cell recruitment and their ability to produce inflammatory mediators and extracellular matrix molecules. These attributes also raise the possibility that they might be useful targets against which therapeutic agents might be aimed.

Evidence for an association between thyroid-stimulating hormone and insulin-like growth factor 1 receptors: a tale of two antigens implicated in Graves' disease.

Thyroid-stimulating hormone receptor (TSHR) plays a central role in regulating thyroid function and is targeted by IgGs in Graves' disease (GD-IgG). Whether TSHR is involved in the pathogenesis of thyroid-associated ophthalmopathy (TAO), the orbital manifestation of GD, remains uncertain. TSHR signaling overlaps with that of insulin-like grow factor 1 receptor (IGF-1R). GD-IgG can activate fibroblasts derived from donors with GD to synthesize T cell chemoattractants and hyaluronan, actions mediated through IGF-1R. In this study, we compare levels of IGF-1R and TSHR on the surfaces of TAO and control orbital fibroblasts and thyrocytes and explore the physical and functional relationship between the two receptors. TSHR levels are 11-fold higher on thyrocytes than on TAO or control fibroblasts. In contrast, IGF-1R levels are 3-fold higher on TAO vs control fibroblasts. In pull-down studies using fibroblasts, thyrocytes, and thyroid tissue, Abs directed specifically against either IGF-1Rbeta or TSHR bring both proteins out of solution. Moreover, IGF-1Rbeta and TSHR colocalize to the perinuclear and cytoplasmic compartments in fibroblasts and thyrocytes by confocal microscopy. Examination of orbital tissue from patients with TAO reveals similar colocalization to cell membranes. Treatment of primary thyrocytes with recombinant human TSH results in rapid ERK phosphorylation which can be blocked by an IGF-1R-blocking mAb. Our findings suggest that IGF-1R might mediate some TSH-provoked signaling. Furthermore, they indicate that TSHR levels on orbital fibroblasts are considerably lower than those on thyrocytes and that this receptor associates with IGF-1R in situ and together may comprise a functional complex in thyroid and orbital tissue.

B cells from patients with Graves' disease aberrantly express the IGF-1 receptor: implications for disease pathogenesis.

Graves' disease (GD) is an autoimmune process involving the thyroid and connective tissues in the orbit and pretibial skin. Activating anti-thyrotropin receptor Abs are responsible for hyperthyroidism in GD. However, neither these autoAbs nor the receptor they are directed against have been convincingly implicated in the connective tissue manifestations. Insulin-like growth factor-1 receptor (IGF-1R)-bearing fibroblasts overpopulate connective tissues in GD and when ligated with IgGs from these patients, express the T cell chemoattractants, IL-16, and RANTES. Disproportionately large fractions of peripheral blood T cells also express IGF-1R in patients with GD and may account, at least in part, for expansion of IGF-1R(+) memory T cells. We now report a similarly skewed B cell population exhibiting the IGF-1R(+) phenotype from the blood, orbit, and bone marrow of patients with GD. This expression profile exhibits durability in culture and is maintained or increased with CpG activation. Moreover, IGF-1R(+) B cells produce pathogenic Abs against the thyrotropin receptor. In lymphocytes from patients with GD, IGF-1 enhanced IgG production (p < 0.05) and increased B cell expansion (p < 0.02) in vitro while those from control donors failed to respond. These findings suggest a potentially important role for IGF-1R display by B lymphocytes in patients with GD in supporting their expansion and abnormal Ig production.

IgG4-positive Cell Quantification Distinguishes Between Inflammatory and Noninflammatory Diseases of the Orbit.

IgG4-related ophthalmic disease (IgG4-ROD) is a rare inflammatory disorder often refractory to corticosteroids and prone to recurrence. IgG4-ROD may frequently lack the characteristic histopathological features seen in other organs. Thus, the criteria for diagnosis of IgG4-ROD relies on elevated IgG4 cells seen on biopsied tissue. Proposed threshold levels of IgG4 to diagnose IgG4-ROD are currently based on a limited understanding of this cell type's presence in the orbit. This study seeks to describe the population of IgG4 in inflammatory and noninflammatory orbital tissues. A tertiary care center's pathology database was searched with keywords "orbit" or "orbital" from 1995 to 2013. Specimens meeting the selection criteria were evaluated, and regions of highest inflammation were identified and immunostained with IgG4 and CD138 antibodies. Immunohistochemical quantification proceeded as previously established by the international consensus criteria. Eighteen cases without a history of orbital inflammation were included as controls and were evaluated as above. Specimens from 68 inflammatory and 18 noninflammatory orbits met the selection criteria. Pathologist interreader correlation coefficient on quantification was >0.70 (P<0.001). The mean IgG4+/high powered field (HPF) and IgG4+/CD138 was 10.3 and 0.1 in inflammatory tissues and 0.5 and 0.01 in noninflammatory tissues, respectively. The spearman rho correlation coefficient between IgG4/HPF and IgG4+/CD138+ was >0.95 (P<0.0001). The mean IgG4/HPF in our study reached previously proposed threshold values for diagnosis of IgG4-ROD, illustrating the need for further discussion regarding diagnostic criteria of IgG4-ROD.

Immunological Features of Paranasal Sinus Mucosa in Patients with Graves' Orbitopathy.

Background: Previous studies showed that patients with Graves' orbitopathy (GO) had concomitant mucosal abnormality within the paranasal sinuses. It remains unknown whether the immunological reactions in sinus mucosa affect the orbit inflammation in GO. Methods: Patients with GO underwent sinus computed tomography (CT) scans for sinus mucosal disease by two independent reviewers using the Lund-MacKay systems. Ethmoid mucosal samples were collected during orbital decompression surgeries for patients with GO and correction surgeries for patients with old orbital fractures as controls. Histological analysis and immunofluorescence were performed in all sinus mucosa tissues. Flow cytometry analysis was used to examine the immunological features of sinus mucosa in both GO and control groups. Results: Immunohistochemistry showed that the paranasal sinus mucosa of patients with GO grew swelling, with goblet cell and small vessel proliferation, endothelial cell swelling, and inflammatory cell infiltration. The number of T helper (Th)1, Th17, and gamma-delta T cells in nasal sinus mucosa of patients with GO increased significantly compared with those from controls. Further, the proportion of Th1 cells was significantly correlated with clinical activity score. In addition, there was a decreased number of regulatory T cells in patients with GO. The number of Th2 cells showed no significant difference between the two groups. Finally, the proportion of interleukin-22-producing cell subsets in gamma-delta T cells of patients with GO was significantly increased compared with those from controls. Conclusions: Our observations illustrated a potential pathogenic role of mucosal-infiltrating T cells, which may have the possibility to aggravate inflammatory responses in GO.

Idiopathic Orbital Inflammation Appearing on the Affected Side of Preceding Myasthenia Gravis.

The patient was a 70-year-old man with idiopathic orbital inflammation (IOI) that appeared on the severely affected side of preceding myasthenia gravis (MG). The patient was diagnosed with MG 5 years prior to the onset of IOI. When IOI was diagnosed, an edrophonium test was negative. IOI was considered because he complained of left orbital pain, eyelid swelling, and cerebral MRI exhibited the enhanced lesions along the left orbital periosteum. A biopsy specimen revealed pathological findings compatible with IOI. The administration of corticosteroids was effective for improving the ocular symptoms. IOI should be considered when ocular symptoms deteriorated with soft tissue swelling/pain in MG patients.

Glycogen Synthase Kinase-3ß Mediates Proinflammatory Cytokine Secretion and Adipogenesis in Orbital Fibroblasts from Patients with Graves' Orbitopathy.

Purpose: We sought to determine the role of glycogen synthase kinase-3ß (GSK-3ß) in the pathogenesis of Graves' orbitopathy(GO). Methods: Expression of the GSK-3ß gene in whole orbital tissue explants was compared between GO and non-GO donors using quantitative real-time PCR (RT-PCR). The expression of proinflammatory molecules in the presence of the GSK-3ß inhibitor CHIR 99021 was analyzed using RT-PCR, western blot, and ELISA. Adipogenic differentiation was identified using Oil Red O staining, and the levels of peroxisome proliferator activator gamma (PPARγ) and CCAAT-enhancer-binding proteins (C/EBPs) α and ß were determined by western blot. Results: The expression of GSK-3ß was significantly higher in GO tissues than in control tissues. The addition of CHIR 99021 led to a decrease in the active form of the kinase in which the Y216 residue is phosphorylated. When GO and non-GO fibroblasts were stimulated with IL-1ß or TNF-α, IL-6, IL-8, intercellular adhesion molecule-1 (ICAM-1), cyclooxygenase-1 (COX-1), and monocyte chemoattractant protein 1 (MCP-1) showed increased production, which was blunted when CHIR 99021 was added. The activation of Akt, PI3K, nuclear factor (NF)-κB, Erk, Jnk, and p38 kinase by IL-1ß and TNF-α was diminished with CHIR 99021 in GO cells. A decrease in lipid droplets and expression of PPARγ and c/EBPα and -ß was noted in fibroblasts treated with CHIR 99021 during adipocyte differentiation. The inhibition of Wnt and ß-catenin in adipogenesis was reversed by CHIR 99021. Conclusions: GSK-3ß plays a significant role in GO pathogenesis. The inhibition of the kinase attenuated the proinflammatory cytokines production and fibroblast differentiation into adipocytes. GSK-3ß may be a potential target for anti-inflammatory and anti-adipogenic treatment of GO.

Rituximab treatment in a patient with severe thyroid-associated ophthalmopathy: effects on orbital lymphocytic infiltrates.

Rituximab (RTX) has been shown in previous work to improve thyroid-associated ophthalmopathy (TAO), but very little data is available on the effects of RTX in the target tissues. We studied the effects of RTX on peripheral lymphocytes and on the intra-orbital infiltrates in one patient with severe TAO who was treated with two cycles of therapy. Intra-orbital tissues derived at decompression from 3 patients with moderate-severe and 1 with severe TAO, treated with standard immunosuppression, were studied as controls. Peripheral blood lymphocytes were analyzed throughout the study period, while intra-orbital tissue lymphocytes at decompression. In the patient treated with RTX visual field and acuity improved in response to peripheral CD 20+ cell depletion, although there was a proportion of persisting CD 19+ cells. After RTX re-treatment the patient's optic nerve function improved only transiently. The number of CD 20+ cells was lower in orbital tissues (0-1%) than in the peripheral blood (3%). A greater percentage of CD 19+ was observed in the orbits compared to the periphery, most of which were CD 19+5+ (80%). By immunohistochemistry, orbital tissues from all control patients showed CD 20+ and CD 3+ cells, independently of the duration of TAO and of the treatment with either steroids or radiotherapy. This is the first report on the therapeutic effect of RTX in active, severe TAO associated to the depletion of intra-orbital CD 20+ lymphocytes. After RTX, CD 19+5+ lymphocytes were shown to be 2-3 times more prevalent in the orbital infiltrates, compared to CD 20+ cells. Persistence of autoreactive cells is believed to be related to TAO relapse.

Current insights into the pathogenesis of Graves' orbitopathy.

Graves' orbitopathy (GO) is part of an autoimmune disease constellation comprising hyperthyroidism, orbitopathy, pretibial myxedema, and acropachy. Signs and symptoms of GO occur due to inflammation of the orbital connective tissue, inflammation and fibrosis of the extraocular muscles, and adipogenesis. Stimulatory TSH receptor (TSHR) antibodies (TRAb) cause hyperthyroidism, but pathogenetic mechanisms in the orbit are less clear. The TSHR is one of the favoured candidate antigens; others such as the IGF1R might also play a role. Compared with other anatomical locations, orbital fibroblasts are extremely reactive to inflammatory stimuli, especially via CD40 activation. Orbital fibroblasts also differentiate into adipocytes, in response to the prevailing inflammatory cytokine milieu. Consequently TSHR gene expression increases together with expression of adipogenesis related genes. The same genes that confer susceptibility to Graves' disease (GD), both thyroid specific and immunoregulatory, also influence GO, although an increasing number of candidate genes with higher impact on orbitopathy are being identified. Smoking is the only environmental factor known to increase the likelihood and severity of GO developing in GD patients. A robust animal model of GO would facilitate the evaluation of new treatments. To date most models have centered on provoking autoimmune responses to the TSHR, but other antigens, alone or in combination with this receptor, hopefully will succeed in inducing the full spectrum of GD.

Adult orbital langerhans cell histiocytosis with frontal bone involvement.

A 28-year-old woman presented with a 2-week history of right upper eyelid swelling and intermittent frontal headaches. CT demonstrated an ill-defined superior right orbital mass with adjacent right frontal bone erosion and undeveloped frontal sinuses. The orbital biopsy revealed tissue strongly positive for CD1a and S100, diagnostic of Langerhans cell histiocytosis. The systemic workup was negative for multifocal lesions and for diabetes insipidus. In addition to subtotal resection, the patient was treated with a 6-month course of oral prednisone and intravenous vinblastine.

Potential Roles of CD34+ Fibrocytes Masquerading as Orbital Fibroblasts in Thyroid-Associated Ophthalmopathy.

Context: Orbital tissues in thyroid-associated ophthalmopathy exhibit particular reactivity and undergo characteristic remodeling. Mechanisms underlying these changes have remained largely unexplained. Studies have characterized orbital connective tissues and derivative fibroblasts to gain insights into local manifestations of a systemic autoimmune syndrome. Evidence Acquisition: A systematic search of PubMed was undertaken for studies related to thyroid-associated ophthalmopathy (TAO), orbital fibroblasts, and fibrocytes involved in pathogenesis. Evidence Synthesis: Orbital tissues display marked cellular heterogeneity. Fibroblast subsets, putatively derived from multiple precursors, inhabit the orbit in TAO. Among them are cells displaying the CD34+CXC chemokine receptor 4+collagen I+ phenotype, identifying them as fibrocytes, derived from the monocyte lineage. Their unique presence in the TAO orbit helps explain the tissue reactivity and characteristic remodeling that occurs in the disease. Their unanticipated expression of several proteins traditionally thought to be thyroid gland specific, including the TSH receptor and thyroglobulin, may underlie orbital involvement in Graves disease. Although no currently available information unambiguously establishes that CD34+ orbital fibroblasts originate from circulating fibrocytes, inferences from animal models of lung disease suggest that they derive from bone marrow. Further studies are necessary to determine whether fibrocyte abundance and activity in the orbit determine the clinical behavior of TAO. Conclusion: Evidence supports a role for fibrocytes in the pathogenesis of TAO. Recognition of their presence in the orbit now allows development of therapies specifically targeting these cells that ultimately could allow the restoration of immune tolerance within the orbit and perhaps systemically.

The involvement of T cell pathogenesis in thyroid-associated ophthalmopathy.

Thyroid-associated ophthalmoapthy (TAO) is the most common orbital disease. As an autoimmune disorder, it is caused by self-reactive lymphocytes that escape immune tolerance, but the mechanism is not fully understood. The basic process of TAO is the infiltration of immune cells in orbital tissues, the activation of orbital fibroblasts (OFs), and the proliferation and differentiation of OFs and lymphocytes. Activated OFs secrete inflammatory regulators, growth factors, and chemokines, thereby maintaining and amplifying the immune responses. The interactions between OFs and lymphocytes lead to the expansion and the remodeling of the orbital tissues, presenting the clinical manifestations of TAO. This review will focus on the role of T cell subsets (Type 1, Type 2, Type 17 helper T cells, and regulatory T cells) in the pathogenesis of TAO. However, we still need further studies to unravel the pathogenesis, to confirm current hypotheses, and to provide novel ideas for appropriate clinical treatment of TAO.

Insights Into Local Orbital Immunity: Evidence for the Involvement of the Th17 Cell Pathway in Thyroid-Associated Ophthalmopathy.

CONTEXT: Unique features of local immunity in thyroid-associated ophthalmopathy (TAO) may affect disease progression. OBJECTIVE: To investigate the association between the orbital immune microenvironment and TAO development. DESIGN/SETTING/PARTICIPANTS: TAO and control orbital connective tissues were collected. MAIN OUTCOME MEASURES: Single-cell sequencing examined orbital lymphocytic infiltrates. Multicolor flow cytometry explored the phenotypes of different cell subsets and in vitro models for cell functional studies. Coculture experiment and western blotting assay were used to determine underlying mechanism of the enhanced T helper 17 (Th17) cell pathway. RESULTS: The TAO orbital microenvironment was composed of natural killer cells, dendritic cells, macrophages, T cells, plasma cells, and CD34+ orbital fibroblasts, but few B cells. Increases in CD3+CD8- IL-17A-producing and RAR-related orphan receptor (ROR)γt-expressing T cells and in CD3+CD8- IL-13-producing and GATA3-expressing T cells suggested Th17 and Th2 cell responses in TAO orbits. Increased interferon-γ (IFN-γ)-producing and RORγt+Tbet+ T cells indicated a Th1-like phenotype of orbital-infiltrating Th17 cells. Higher IL-23R and IL-1R expression and lower IL-21R expression were also observed on Th17 cells in TAO orbits. Multivariate analyses revealed that the Th17 pathway [IL-17A (P = 0.001), IFN-γ (P = 0.009), RORγt (P = 0.003), IL-23R (P = 0.033), IL-21R (P = 0.019)], and Th2 pathway [IL-13 (P = 0.015), GATA3 (P = 0.012)] were associated with TAO. IL-17A, IL-23R, and IL-1R correlated with clinical activity score and visual acuity. CD34+ orbital fibroblasts exhibited distinct cell surface marker expression and promoted IL-23R and IL-1R expression on T cells to facilitate the Th17-cell phenotype through prostaglandin E2-EP2/EP4-cAMP signaling. CONCLUSION: Our study addresses the importance of retroorbital immunity and suggests possible means of disrupting TAO pathogenesis.

Current perspective on the pathogenesis of Graves' disease and ophthalmopathy.

Graves' disease (GD) is a very common autoimmune disorder of the thyroid in which stimulatory antibodies bind to the thyrotropin receptor and activate glandular function, resulting in hyperthyroidism. In addition, some patients with GD develop localized manifestations including ophthalmopathy (GO) and dermopathy. Since the cloning of the receptor cDNA, significant progress has been made in understanding the structure-function relationship of the receptor, which has been discussed in a number of earlier reviews. In this paper, we have focused our discussion on studies related to the molecular mechanisms of the disease pathogenesis and the development of animal models for GD. It has become apparent that multiple factors contribute to the etiology of GD, including host genetic as well as environmental factors. Studies in experimental animals indicate that GD is a slowly progressing disease that involves activation and recruitment of thyrotropin receptor-specific T and B cells. This activation eventually results in the production of stimulatory antibodies that can cause hyperthyroidism. Similarly, significant new insights have been gained in our understanding of GO that occurs in a subset of patients with GD. As in GD, both environmental and genetic factors play important roles in the development of GO. Although a number of putative ocular autoantigens have been identified, their role in the pathogenesis of GO awaits confirmation. Extensive analyses of orbital tissues obtained from patients with GO have provided a clearer understanding of the roles of T and B cells, cytokines and chemokines, and various ocular tissues including ocular muscles and fibroblasts. Equally impressive is the progress made in understanding why connective tissues of the orbit and the skin in GO are singled out for activation and undergo extensive remodeling. Results to date indicate that fibroblasts can act as sentinel cells and initiate lymphocyte recruitment and tissue remodeling. Moreover, these fibroblasts can be readily activated by Ig in the sera of patients with GD, suggesting a central role for them in the pathogenesis. Collectively, recent studies have led to a better understanding of the pathogenesis of GD and GO and have opened up potential new avenues for developing novel treatments for GD and GO.