Immunohistochemical evidence for C3bi involvement in Graves ophthalmopathy

Susceptibility of Ocular Tissues to Autoimmune Diseases

The orbital tissues may form a unique immunological environment, as evidenced by autoimmune disorders that specifically target orbital tissues, particularly myasthenia gravis (MG) and Graves' ophthalmopathy (GO). The reasons for the preferential susceptibility are likely to be multiple, based on the interplay of molecular and physiological properties of extraocular muscles (EOM), the unique requirements of the ocular motor system, and the specific autoimmune pathology. Of general importance, even a minor loss of EOM force generation will sufficiently misalign the visual axes to produce dramatic symptoms, and proprioceptive feedback is limited to overcome such a deficit. Particular to MG, EOM synapses appear susceptible to neuromuscular blockade, the autoimmune pathology differs between ocular and generalized MG patients, and the influence of complement regulatory factors may be less prominent in preventing damage at EOM neuromuscular junctions. GO pathogenesis is poorly understood, but shared epitopes of orbital fibroblasts, EOM, and thyroid could lead to specific autoimmune targeting of these tissues. The differential response of orbital fibroblasts to cytokines may be a key factor in disease development. Greater appreciation of the immunologic environment of orbital tissues may lead to therapies specifically designed for orbital autoimmune diseases.

Immunohistochemical evidence for C3bi involvement in Graves ophthalmopathy

PURPOSE

To determine by immunohistochemical methods if components of the complement system are present in Graves ophthalmopathy extraocular and periocular tissues compared with non-Graves ophthalmopathy ocular tissues, and, if so, whether a qualitative difference exists.

METHODS

Orbital muscle, periorbital muscle, and adipose tissue from 10 Graves ophthalmopathy patients were studied with in situ assays using monoclonal antibodies for C3bi and C5b-9 (the terminal attack complex) complement components. Extraocular muscle, periocular muscle, and adipose tissue from 12 patients treated for unrelated orbital disorders were used as controls.

RESULTS

All nine Graves extraocular and periocular muscle tissues exhibited C3bi positive staining in an intense, localized oval- to spindle-shaped reaction that appeared to represent cells on a diffuse staining background of the endomysial and perimysial connective tissues with no staining of the muscle fibers themselves. Some reactivity was seen in 6 of the 12 control muscles, but this was much less intense than that of Graves ocular muscle tissue. Only two Graves muscle samples stained minimally with the monoclonal antibody for the C5b-9 terminal attack complex while none of the control muscle samples demonstrated reactivity. Orbital fat from Graves and control patients did not demonstrate any reactivity for C3bi or C5b-9.

CONCLUSION

C3bi and not C5b-9 (the terminal attack complex) is present in Graves ophthalmopathy extraocular and periocular tissues in a qualitatively greater way than in control non-Graves ophthalmopathy ocular tissue. Consequently, C3bi may contribute to the pathophysiology of Graves ophthalmopathy.