Although the autoantigen involved in Graves' hyperthyroidism is known to be the TSH receptor (TSHr), whether this antigen plays a primary role in the pathogenesis of Graves' ophthalmopathy (GO) is unclear. We sought to determine whether fibroblasts derived from orbital adipose/connective tissue are capable of differentiating into adipocytes that bear immunoreactive and functional TSHr. In addition, we assessed relative levels of TSHr gene expression in normal and GO orbital adipose/connective tissue specimens. GO and normal orbital preadipocyte fibroblasts, cultured under conditions known to stimulate adipocyte differentiation, showed evidence of adipogenesis and positive immunostaining for TSHr protein. In addition, significantly more cAMP was produced in response to TSH stimulation in the differentiated cultures than in undifferentiated cultures derived from the same individuals' cells. Other studies demonstrated relatively greater TSHr gene expression in GO than in normal orbital tissue specimens. These results indicate that orbital preadipocyte fibroblasts increase their TSHr expression with differentiation and suggest that these cells play an important role in the pathogenesis of GO. Furthermore, our studies support the concept that TSHr may be an important target antigen in this condition. Factors that stimulate adipocyte differentiation and TSHr expression in the orbit in GO have yet to be defined.
The symptoms and signs of Graves' ophthalmopathy (GO) result from both an accumulation of hydrated hyaluronan in the orbital muscles and connective tissues and an expansion of the orbital adipose tissues. Recent studies have suggested a link between the stimulation of adipogenesis within the orbit in GO and the expression in these tissues of TSH receptor (TSHR), the putative orbital autoantigen. To further investigate this association, we treated orbital fibroblasts from patients with GO with rosiglitazone, a thiazolidinedione agonist of the PPARgamma receptor that stimulates adipocyte differentiation. We found this compound to be a potent stimulator of functional TSHR expression as well as TSHR and PPARgamma mRNA levels in differentiated cultures. In addition, rosiglitazone treatment stimulated recruitment and differentiation of a subset of cells within these cultures into mature lipid-laden adipocytes. These results suggest that TSHR expression in GO orbital preadipocyte fibroblasts is linked to adipogenesis, and that ligation of the PPARgamma receptor results in differentiation of these cells. It is possible that endogenous PPARgamma ligands play a role in stimulating orbital adipogenesis in GO, and that future treatments may be aimed at antagonism of various components of the PPARgamma signaling system.
The thyrotropin receptor (TSHR) is the thyroid autoantigen against which stimulating autoantibodies are directed in Graves' hyperthyroidism. Recent evidence suggests that TSHR may also serve as an orbital autoantigen in Graves' ophthalmopathy (GO) and that expression of this protein is increased in the fatty connective tissues of the orbit in this condition. It has been shown that orbital fibroblasts from patients with GO increase thyrotropin (TSH)-dependent cyclic adenosine monophosphate (cAMP) production and TSHR gene expression when cultured under conditions known to stimulate adipocyte differentiation. In the current study, we wanted to determine whether treatment of these cells with particular cytokines (each 1 ng/mL) during differentiation might further augment TSHR expression. We found that exposure to interleukin (IL)-6 increased TSHR expression above control levels in cells from patients with GO. In contrast, this cytokine did not affect TSHR expression in normal orbital cells. Neither IL-4 nor IL-1alpha had a significant stimulatory effect in either normal or Graves' cultures. These findings suggest that IL-6 may play a role in the pathogenesis of GO by increasing expression of the putative autoantigen within the adipose/connective tissues of the orbit.
We sought to determine whether the predominant orbital T helper (T(H)) cell subset in orbital T cell clones established from patients with Graves' ophthalmopathy (GO) might be related to disease duration. A total of 117 clones were established from orbital adipose/connective tissues of 6 GO patients, and cytokine production was measured in 57 CD3+CD4+ clones. T(H)1-type clones were predominant in cultures from patients with recent onset (<2 yr) Graves' hyperthyroidism (n = 44; TH1/TH0/TH2 = 57/29/14%) or GO (n = 53 clones; TH1/TH0/TH2 = 47/30/23%). In contrast, TH2-type clones predominated in cultures from patients with more remote onset (>2 yr) hyperthyroidism (n = 13; TH1/TH0/TH2 = 0/31/69%; P < 0.005) or GO (n = 4; TH1/TH0/TH2 = 0/25/75%; P = 0.05). In addition, we established T cell clones from 1 TH1-dominant patient with recent-onset thyroid and eye disease using either IL-2 (12.5 ng/mL) alone or IL-2 plus IL-4 (5 ng/mL) and found no shift toward recovery of TH2-type clones in the latter. In conclusion, although the CD3+CD4+ clones characterized were not necessarily tissue antigen specific, our findings suggest that cell-mediated (TH1-type) immune reactions may predominate in the orbit in early GO, whereas humoral immunity (TH2-type) might play the greater role in later stages of the disease.
Graves' ophthalmopathy (GO) is an orbital autoimmune disease that is closely associated with Graves' hyperthyroidism. Examination of retroorbital tissues in GO reveals an accumulation of glycosaminoglycans, increased fat volume, lymphocytic infiltration, and the presence of several inflammatory cytokines. A subpopulation of human orbital fibroblasts can be differentiated in vitro into cells with the morphologic features of adipocytes. We demonstrated recently that these differentiated cultures show increased expression of functional TSH receptor (TSHr). To determine whether the presence of inflammatory cytokines might impact adipogenesis or TSHr expression in these cultures, we treated orbital fibroblasts from normal individuals or GO patients with tumor necrosis factor-alpha (TNF-alpha), interferon-gamma (IFN-gamma), or transforming growth factor-beta. We found that each of these cytokines inhibits TSH-dependent cAMP production and TSHr gene expression, and that TNF-alpha and IFN-gamma also inhibit morphological adipocyte differentiation. When cytokines were added after differentiation, the inhibition was less pronounced. Our results suggest that TNF-alpha, IFN-gamma, and transforming growth factor-beta may act within the orbit in GO to modulate expression of the putative orbital autoantigen, TSHr. In addition, the former two cytokines may play a role in determining the extent to which the volume of the orbital adipose tissue increases in this condition.
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