Objective: To assess whether the A2-type IL-1RA polymorphism is associated with Graves' disease and Graves' ophthalmopathy. Several reports have described a genetic association between the A2 allele of the interleukin-1 receptor antagonist (IL-1RA) gene and certain inflammatory and autoimmune diseases, suggesting that certain loci within the IL-1-related genes may modulate the autoimmune inflammatory response. Recently, we demonstrated marked differences in the expression and regulation of IL-1RA gene and protein between orbital fibroblasts derived from patients with active Graves' ophthalmopathy and healthy individuals. Design: A total of 144 white European patients with Graves' disease were genotyped to compare their IL-1RA A2 allele frequency with that of 174 healthy controls. Methods: The polymerase chain reaction was used to amplify the pentallelic variable-number tandemrepeat locus in intron 2 of the IL-1RA gene. Results: We found no significant differences in IL-1RA A2 allele frequencies (0.20 and 0.26 respectively) and IL-1RA A2 carriage rates (31% and 40% respectively) between patients with Graves' disease and the control group. Moreover, presence or absence of Graves' ophthalmopathy in patients with Graves' disease was not related to significant differences in IL-1RA A2 allele frequencies and IL-1RA A2 carriage rates. Conclusions: Our data do not support an association between the IL-1RA A2 allele and Graves' disease or Graves' ophthalmopathy in our study population. Thus the A2-type IL-1RA gene polymorphism does not appear to indicate an increased susceptibility to develop Graves' disease and Graves' ophthalmopathy. Mechanisms unrelated to the IL-1RA A2 allele may be responsible for altered IL-1RA production within the orbital tissues in Graves' ophthalmopathy.
Direct multi-colour flow cytometric analysis was employed in patients with Graves' disease (n = 10) to determine the immunophenotype in peripheral blood lymphocytes (PBL) at the time of diagnosis without treatment (PBLw) and prior to operation (PBLp) and in thyroid-derived lymphocytes (TL). Additionally, the secretion of anti-thyroperoxidase antibodies (anti-TPO) was measured during culture of isolated peripheral or thyroid-derived B cells. Among TL from patients with high serum levels of anti-TPO (6/10) a significantly (p < 0.01) higher percentage of B cells were detected compared to PBLp (TL: 21.7 +/- 7.2%; PBLp: 13.2 +/- 4.5%). Enriched thyroid-derived B cells only from these patients also showed high spontaneous anti-TPO secretion during culture. The difference between peripheral and thyroid-derived natural killer (NK) cells was highly significant (p < 0.001; TL: 5.6 +/- 6.3%; PBLp: 13.6 +/- 5.5%). Two patients were found with a higher number of NK cells within TL. These patients were among those who had a low number of B cells infiltrating the thyroid gland. Regarding the expression of several other differentiation antigens, i.e. CD4 and CD8, gamma/delta TCR bearing T cells and CD45R0 on CD4+ T cells as a marker for memory cells, on TL no differences could be detected between patients with or without anti-TPO. In TL 31.5 +/- 7.7% of CD3- cells expressed the HLA-DR antigen (vs. 6.1 +/- 2.4% in PBLp; p < 0.001). Half of these cells simultaneously expressed the activation antigen CD69. Surprisingly, the number of CD3+ TL bearing the IL-2 receptor (CD25) and transferrin receptor (CD71) was not increased. Taken together, the proportional distribution of B and NK cells within the thyroid correlates with the anti-TPO secretion in vivo and in vitro, suggesting different immune response regulation processes of TL.
Constitutively activating mutations of the human TSH receptor (hTSHR) gene have been implicated as a major cause of hyperfunctioning nonautoimmune thyroid disease. However, significant geographic differences in the prevalence of these mutations have been observed. Recently, a high frequency of a germline polymorphism at codon 727 of the cytoplasmic tail of the hTSHR has been demonstrated in patients with toxic multinodular goiter. In the present study we assessed whether the codon 727 polymorphism is associated with hyperfunctioning thyroid adenomas. PCR followed by restriction enzyme digestion were used to genotype a total of 128 European Caucasian patients with toxic nonautoimmune thyroid disease (83 with toxic adenoma, 31 with toxic multinodular goiter, and 14 with disseminated autonomy) and to compare their codon 727 polymorphism frequencies with those of 99 healthy controls and 108 patients with Graves' disease. All individuals were drawn from an identical ethnic background. Sequencing of PCR products was used to confirm the mutation analysis. We found no significant differences in codon 727 polymorphism frequencies between patients with autonomously functioning thyroid disorders (13.3%) and the healthy control group (16.2%; P = 0.57). Moreover, the subtypes of toxic nonautoimmune thyroid disease (toxic adenoma, 13.2%; multinodular goiter, 9.6%; disseminated autonomy, 21.4%) were not related to significant differences in codon 727 polymorphism frequencies compared with the healthy control group (P = 0.67, P = 0.40, and P = 0.70, respectively). Additionally, there were no significant differences between patients with Graves' disease (21.3%) and healthy controls (P = 0.38). In conclusion, our data do not support an association between the codon 727 polymorphism of the hTSHR and toxic thyroid adenomas or toxic multinodular goiter in our study population. Thus, the codon 727 polymorphism of the hTSHR does not appear to be involved in the evolution of autoimmune or nonautoimmune hyperthyroidism in the European Caucasian population.
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