Autoantigens in autoimmune thyroid diseases

Human thyroid peroxidase (TPO) was found to bind with both IgG and IgM from patients with autoimmune thyroid diseases. Furthermore, binding of IgG to microsomes was inhibited by TPO. Patients' IgG that passed through an antigen column packed with TPO-coupled Sepharose 4 B beads lost their hemagglutinating activity in microsome hemagglutination test. Various strains of mice were immunized with porcine TPO emulsified in complete Freund's adjuvant. Both C 57 BL/6 and C 57 BL/10 mice showed mononuclear cell infiltration in the thyroid with very high incidences of thyroiditis. The strains of mice showing thyroiditis were very different from high responder strains that were immunized with murine thyroglobulin. Cloning of human TPO cDNA was attempted to deduce the primary structure of human TPO. Using three kinds of oligonucleotides as probes, two cDNAs, 2.8 and 2.4 kb, were selected from a cDNA library constructed from mRNA purified from Graves' disease thyroid. Sequencing of cDNAs revealed that shorter cDNA lacked 171 nucleotides at the middle portion of the longer cDNA. Primer extension analysis of mRNA indicated that the full length cDNA of human TPO consists of 3,048 nucleotides and its open reading frame codes 933 amino acids.     

Costimulatory molecules and autoimmune thyroid diseases

At least two signals for proliferation and cytokine secretion by T-cells are required. The first signal is delivered through the interaction of the T-cell receptor with major histocompatibility complex (MHC) molecules expressed on the surface of antigen-presenting cells (APC). The second or costimulatory signal is delivered by cell surface molecules expressed by APC. The interaction of B7.1/B7.2 with CD28 provide the most potent costimulatory signal for T-cell activation. CD40 antigen and its ligand (CD40L) have been shown to play a major role in regulating both humoral and cellular immune responses. In autoimmune thyroid diseases autoantigen presentation could be provided by "professional" APC, such as dendritic cells, as well as "nonprofessional" APC, such as thyroid follicular cells (TFC). In fact, these cells aberrantly express MHC class II molecules in Graves' disease (GD) and Hashimoto's thyroiditis (HT), together with large amounts of MHC class I antigens: moreover, the expression of CD40 on TFC, has been demonstrated. On the other hand B7.1 has been demonstrated in HT, but not in GD TFC. This could provide in HT a local costimulatory signal for T-cell differentiation towards a type 1 cytokine secretion pattern and also result in rescue from apoptosis of infiltrating lymphocytes. The presence of ICAM-1 on the surface of HT TFC may further strengthen contact and facilitate cross-signaling between T-cells and TFC. In contrast, the absence of B7 and ICAM-1 antigens in most GD TFC may more easily be associated with anergy and apoptosis of infiltrating T-cells, preventing the perpetuation and expansion of a "destructive" autoimmune reaction.     

Vitamin D and autoimmune thyroid diseases

The role of vitamin D as an immune modulator has been emphasized in recent years, and low levels of the hormone were observed in several autoimmune diseases including multiple sclerosis and systemic lupus erythematosus. Vitamin D mediates its effect though binding to vitamin D receptor (VDR), and activation of VDR-responsive genes. While VDR gene polymorphism was found to associate with autoimmune thyroid diseases (AITDs), few studies examined levels of vitamin D in these patients and those that did yielded conflicting results. We therefore undertook to evaluate the levels of vitamin D in patients with AITDs compared to patients with non-AITDs and healthy controls. Serum vitamin D (25-OH) levels were measured in 50 patients with AITDs, 42 patients with non-AITDs and 98 healthy subjects, utilizing the LIAISON chemiluminescence immunoassay (DiaSorin, Saluggia, Italy). Vitamin D deficiency was designated at levels lower than 10 ng/ml. Antithyroid antibodies, thyroid functions and demographic parameters were evaluated in all patients. The prevalence of vitamin D deficiency was significantly higher in patients with AITDs compared with healthy individuals (72% versus 30.6% P<0.001), as well as in patients with Hashimoto''s thyroiditis compared to patients with non-AITDs (79% versus 52% P<0.05). Vitamin D deficiency also correlated to the presence of antithyroid antibodies (P=0.01) and abnormal thyroid function tests (P=0.059). Significantly low levels of vitamin D were documented in patients with AITDs that were related to the presence of anti thyroid antibodies and abnormal thyroid function tests, suggesting the involvement of vitamin D in the pathogenesis of AITDs and the advisability of supplementation.     

Immunogenetics of autoimmune thyroid diseases: A comprehensive review

Both environmental and genetic triggers factor into the etiology of autoimmune thyroid disease (AITD), including Graves' disease (GD) and Hashimoto's thyroiditis (HT). Although the exact pathogenesis and causative interaction between environment and genes are unknown, GD and HT share similar immune-mediated mechanisms of disease. They both are characterized by the production of thyroid autoantibodies and by thyroidal lymphocytic infiltration, despite being clinically distinct entities with thyrotoxicosis in GD and hypothyroidism in HT. Family and population studies confirm the strong genetic influence and inheritability in the development of AITD. AITD susceptibility genes can be categorized as either thyroid specific (Tg, TSHR) or immune-modulating (FOXP3, CD25, CD40, CTLA-4, HLA), with HLA-DR3 carrying the highest risk. Of the AITD susceptibility genes, FOXP3 and CD25 play critical roles in the establishment of peripheral tolerance while CD40, CTLA-4, and the HLA genes are pivotal for T lymphocyte activation and antigen presentation. Polymorphisms in these immune-modulating genes, in particular, significantly contribute to the predisposition for GD, HT and, unsurprisingly, other autoimmune diseases. Emerging evidence suggests that single nucleotide polymorphisms (SNPs) in the immunoregulatory genes may functionally hinder the proper development of central and peripheral tolerance and alter T cell interactions with antigen presenting cells (APCs) in the immunological synapse. Thus, susceptibility genes for AITD contribute directly to the key mechanism underlying the development of organ-specific autoimmunity, namely the breakdown in self-tolerance. Here we review the major immune-modulating genes that are associated with AITD and their potential functional effects on thyroidal immune dysregulation.     

Plasma VEGF-related polymorphisms are implied in autoimmune thyroid diseases

Autoimmune thyroid diseases (AITD), including Graves’ disease (GD) and Hashimoto thyroiditis (HT), are complex multifactorial diseases. Vascular endothelial growth factor (VEGF) is implicated in various inflammatory diseases, especially autoimmune diseases. Our aim was to elucidate the relationships between plasma VEGF levels and four genome-wide association study-identified single nucleotide polymorphisms (SNPs) related to VEGF with AITD in Tunisian patients. A total of 364 healthy controls and 389 patients with AITD were genotyped for the SNPs rs6921438, rs4416670, rs6993770 and rs10738760. Levels of thyroid hormones and antibodies were quantified simultaneously with plasma VEGF after a period of six months of treatment. We found that the minor alleles of rs10738760 and rs6921438 are associated with the presence of GD. A allele of rs10738760 polymorphism is associated with increased plasma levels of free tri-iodothyronin (FT3) while no relationship was found with circulating VEGF plasma levels after six months of treatment. We also showed that the T allele of rs4416670 polymorphism was associated with increased risk of hyperthyroidism in patients treated for six months, independently of their initial diagnosis. There was no significant association between the SNPs and the risk for HT compared with controls. This study shows that AITD are influenced by 3 SNPs linked to VEGF circulating levels. Whereas rs10738760 appeared specific to GD and FT3 production after six months of treatment, rs6921438 and rs4416670 were implicated in the risk for GD. This study opens new ways to test pharmacogenomics concepts in the future especially in GD in which recurrence prognosis is still challenging.     

趋化因子及其受体与自身免疫性甲状腺疾病

趋化因子及其受体是免疫系统的重要组成部分,其趋化活性可以介导免疫细胞的定向移动和活化。在自身免疫性甲状腺疾病（AITD）的形成过程中,趋化因子及其受体参与淋巴细胞在甲状腺组织的浸润、定位及活化,它们的表达是导致AITD发生的一个重要因素。     

Autoimmune thyroid diseases as a cost of physiological autoimmune surveillance

Graves' disease (GD) and Hashimoto's thyroiditis (HT) are common autoimmune diseases of the thyroid gland, causing hyperthyroidism and hypothyroidism, respectively. Despite their opposing clinical manifestation, they have several enigmatic links. Here, we propose that GD and HT have the same fundamental origin: both diseases are the cost of a beneficial physiological process called autoimmune surveillance of hypersecreting mutants. Autoreactive T cells selectively eliminate mutant cells that hypersecrete the hormones and threaten to become toxic nodules. These T cells can trigger a humoral response in susceptible individuals, leading to the production of antibodies against thyroid antigens. This shared origin can explain similarities in incidence and risk factors between HT and GD, despite their opposite clinical phenotypes.     

Dissecting genetic heterogeneity in autoimmune thyroid diseases by subset analysis

Abundant epidemiological data point to a strong genetic susceptibility to the development of autoimmune thyroid diseases (AITD), Graves' disease (GD) and Hashimoto's thyroiditis (HT). However, identifying the AITD susceptibility genes has been confounded by significant genetic heterogeneity that exists in AITD. The goals of the present study were to dissect the genetic heterogeneity in AITD in order to identify novel AITD genes. We studied a dataset of 102 multiplex Caucasian AITD families (540 individuals) and divided them into three subsets: (1) families with young age of onset (AO< or =30), (2) families with females-only affected, and (3) Italian families. These subsets were analyzed separately for linkage with AITD in a whole genome screen. Four subset-specific loci were mapped: analyzing the families with AO< or =30, we identified a locus on 10q (linked with AITD) and a locus on Xp containing the FOXP3 gene (linked with GD); analysis of markers flanking the FOXP3 gene demonstrated association of one of the FOXP3 markers with juvenile GD in females (p=0.02); in the subset of families with females-only affected the thyroglobulin (Tg) gene locus was linked with AITD; and in the Italian subset, a novel locus on 3q was linked with GD. Finally, applying the predivided-sample test confirmed that all four loci were specific to the subsets. We conclude that distinct genes predispose to AITD in different subsets of patients. We have identified four subset-specific AITD loci, and two putative subset-specific AITD susceptibility genes; the FOXP3 gene in juvenile GD and the thyroglobulin gene in females with AITD. In view of the significant genetic heterogeneity observed in AITD, analyzing subsets is an efficient way to resolve heterogeneity and identify novel genes.     

T-cell receptors and autoimmune thyroid disease--signposts for T-cell-antigen driven diseases

The human autoimmune thyroid diseases (AITDs) are characterized by profuse infiltrates of both CD4+ and CD8+ T cells. The intrathyroidal T-cell-receptor repertoire in Graves' disease, more than in Hashimoto's disease, has been shown to be biased as evidenced by phenotypic analysis and by the use of a restricted T-cell-receptor variable (V) gene repertoire seen in both TCR alpha and beta chains. Evidence for a bias in the T-cell repertoire has also been observed in animal models of induced and spontaneous autoimmune thyroiditis. We found a similar phenomenon of autoimmune thyroid-related T-cell bias in thyroid-humanized scid mice. In these studies we transplanted lymphocyte-depleted thyrocytes and autologous peripheral lymphocytes from AITD patients with a basement membrane preparation which allowed the formation of an artificial thyroid which we have called an "organoid". T-cell clonal expansion was present in these artificial mixed-cell organoids which appeared to mimic the in vivo process. Such clonal expansion was suggestive of an antigen-driven immune response and could also be identified in thyroid tissue from patients with Graves' disease. Our data on scid mice grafted with human mixed-cell thyroid organoids, therefore, suggested that the major antigens driving T-cell selection in patients with AITD were most likely to be thyroid specific. These antigens include thyroglobulin, thyroid peroxidase, and the receptor for thyroid stimulating hormone (TSHR) on the surface of thyroid epithelial cells and we found significant T-cell proliferation to synthetic TSHR peptides in patients with AITD as compared with normals. Our search for a TCR recognition motif for the autoantigen TPO did not reveal any specific sequence motifs. Instead, analysis of the physico-chemical characteristics i.e. hydrophobicity of the amino acids in the CDR3 (N) region of the TCR alpha chain, revealed a strong negative linear correlation between strength of stimulation and the average hydrophobicity of N-region amino acids. This led us to hypothesize that lower affinity T-cell clones were commonly more hydrophobic in their CDR3 alpha region amino acids in keeping with potential crossreactivity of such T cells as a consequence of promiscuous, hydrophobic CDR3 regions. This phenomenon would be analogous to polyreactive, natural autoantibodies which tend to be crossreactive and 'sticky'. Thus, the physico-chemical characteristics of the TCR alpha CDR3 region supported the interaction with antigen/MHC by potentially cross-reactive T cells of low affinity. It would seem likely that such low-affinity autoreactive T-cell populations serve as a pool of potentially pathogenetic cells. These cells would be able to respond to an insult which, via a number of possible mechanisms such as molecular mimicry, would initiate a thyroid lymphocytic infiltration in an antigen-driven fashion with intrathyroidal T-cell expansion and a marked bias in the utilization of T-cell-receptor V genes.     

Predisposition to autoimmune thyroid diseases within a Tunisian multiplex family

The autoimmune thyroid diseases (AITDs) are multifactorial diseases which result from interplays between predisposing genes and triggering environmental factors. In order to study the genetic susceptibility factors to AITDs, we have followed up 115 control members belonging to a large Tunisian family with a high prevalence of AITDs (Akr family) during 15 years between 1990 to 2005. The follow-up of these control members have showed that 13 subjects (11.3%) developed AITDs (G2). The Hashimoto thyroiditis was the most frequently seen in 77% of the cases, whereas the Graves's disease was present in 23% of the cases. One hundred and two members remained controls (G1). High female predominance was noted in the two groups. The mean age of the G1 subjects group was slightly higher than that of G2. The prevalence of positive antithyroglobulin antibody (TgAb) and antithyroperoxydase antibody (TPOAb) was more frequent in G2 group (P=0.27 and P=0.23) respectively. The HLA haplotypes was realized in 42% of control members. The most frequent HLA haplotypes that were found were B37, DRB11 and A1. HLA B37 and DRB11 were significantly more frequent for the patients of G2 (P=0.0001 and P=0.034) respectively. Our study confirms the contribution of the genetic factors in the development of AITDs in 'Akr' family and suggested that the members of this family share the same genetic inheritance.     

Celiac disease in North Italian patients with autoimmune thyroid diseases

Background: Patients with autoimmune thyroid diseases (AITDs) are prone to develop other autoimmune manifestations and to display autoimmune polyendocrine syndromes.

An increased prevalence of celiac disease (CD) was demonstrated in adult European and Italian patients with AITDs; conversely, an increased prevalence of AITDs was demonstrated in patients with CD. An IgA deficiency is the most frequent immunodeficiency in humans and, in general, high frequency of this disorder was demonstrated in those with autoimmune diseases.

Aim: To define the prevalence of both CD and IgA deficiency in North Italian patients with AITDs.

Methods: 276 Italian patients with AITD were enrolled (mean age 42.6 years range 12–89, 186 of whom had chronic thyroiditis and 90 had Graves' disease). The tissue transglutaminase autoantibodies of the IgA class (IgA-tTGAbs) were evaluated using an ELISA method in these patients. Furthermore, the serological levels of the IgA were determined.

Results: Five of the patients (1.8%) were affected by previously diagnosed CD and were on a gluten-free diet. Ten out of the remaining 271 patients (3.6%) were found to be positive for celiac-related autoantibodies. All of these patients agreed to undergo endoscopy and duodenal biopsies and silent CD was found in 5 of them but 5 had not histopathological signs of CD.

CD (clinical, silent or latent) was present in 15/276 (5.4%) of the North Italian patients with AITD; this prevalence is significantly higher with respect to the general population (p < 0.00001).

The genetic pattern of the 10 patients with both AITDs and CD was characterized by the presence of DQ2 in 8 patients and DQ8 in 2. An IgA deficiency was present in 2/276 of the patients (0.72%).

Conclusions: CD is significantly increased in patients with thyroid autoimmune disorders for this reason it is important to screen for CD in patients with AITDs.     

Antigenic alterations in autoimmune thyroid diseases. Observations and hypotheses

In order to further define the pathobiologic changes that occur in Hashimoto's thyroiditis (HT) and Graves' disease (GD), 47 cases of these conditions and six of nodular thyroid hyperplasia were studied. Antibodies to cytokeratin, vimentin, LN-2 (a B-lymphocyte marker), UCHL-1 (a T-lymphocyte marker), and HLA-DR, and biotinylated Helix pomatia (Roman snail) lectin, were applied to paraffin sections using the avidin-biotin-peroxidase complex method. Cytokeratin was not expressed in resting epithelium or nodular hyperplasia, but was strongly displayed by injured (HT) or diffusely hyperplastic (GD) glandular tissue. Vimentin was present throughout the cytoplasm of proliferating thyrocytes but was limited to basal portions of resting cells and those of nodular hyperplasia. HLA-DR was observed in injured and hyperplastic thyroid tissue, as was N-acetyl-alpha-D-galactosamine, the target of H pomatia lectin. UCHL-1-labeled infiltrating lymphocytes were observed in both HT and GD, in areas with minimal epithelial changes, while LN-2 was observed only in association with well-formed lymphoid follicles. These findings suggest that T cells are implicated in the mechanism of both conditions, but that inflammation is not the initiating event for HT and GD; and that a "switch" in intermediate filament synthesis accompanies HLA-DR and N-acetyl-alpha-D-galactosamine expression by thyroid epithelium. Since current theories implicate intermediate filaments as intracellular mediators, we hypothesize that certain cytokeratins may be associated with gene activity governing the expression of class II histocompatibility antigens and other membrane glycoproteins in HT and GD.     

Functional TSH receptor antibodies in children with autoimmune thyroid diseases

Introduction: The diagnostic value of the level of TSH receptor antibodies (TSHR-Ab) in the population of children with autoimmune thyroid diseases (AITDs) is still unknown. The aim of this cross-sectional study was to investigate the prevalence of TSHR-Ab in a paediatric cohort with AITD and healthy controls.

Materials and methods: A total of 240 serum samples were obtained from 205 patients with AITD, type 1 diabetes (T1D), juvenile arthritis (JA), and healthy controls (C). TSHR stimulating (TSI) and -blocking (TBI) immunoglobulins were measured in cell-based bioassays using CHO cells expressing a chimeric TSHR and a c-AMP response-element-dependent luciferase. TSI was reported as percentage of specimen-to-reference ratio (cutoff 140SRR%). Blocking activity was defined as percent inhibition of luciferase expression relative to induction with bovine TSH alone (40% inhibition).

Results: C as well as children with JA and T1D were both TSI and TBI negative. In contrast, children with Graves’ disease (GD) were positive for TSI in 47/53 samples (88.7%) while those with thyroidal and orbital GD showed TSI positivity in 95.8% (23/24 samples). Serum TSI levels were SRR% 320?±?157 and 417?±?135 in GD and GD?+?orbitopathy, respectively (p?=?.02). Children with Hashimoto’s thyroiditis (HT) were TSI positive in 4/83 (4.8%) samples, including two with orbital involvement. TSI levels were increased in HT children with vs. those without eye disease (SRR% 177 vs. 51, p?Conclusions: In conclusion, TSI is prevalent in children with GD while the highest serum TSI levels were noted in children with AITD and orbitopathy.     

Screening of SLC26A4 gene in autoimmune thyroid diseases

The Pendred syndrome (PS) gene, SLC26A4, was involved in the genetic susceptibility of autoimmune thyroid disease (AITD) in Tunisian population. Recently, functional assays have shown a differential expression of SLC26A4 gene between Graves’ disease (GD) and Hashimoto's thyroiditis (HT). Here, by the mean of DHPLC and HRM, we explored the 21 exons and their flanking intronic sequences of 128 patients affected with GD (n = 64) or HT (n = 64). The pathogenic effect of identified variations on splice was investigated using the web server HSF. Eighteen allelic variations were identified and ranged on missense, sens and splice variations. Nine identified variations (c.‐66C>G, c.898A>C, c.1002‐9A>C, c.1061T>C, c.1544 + 9G>T, c.1545‐5T>G, c.1790T>C, c.1826T>G, c.2139T>G) were previously reported in hearing impairment studies. Forty‐seven per cent (30/64) of GD patients and 37,5% (24/64) of HT patients present at least one variant in the explored sequences. Moreover, the analysis of the variant distribution between HT (9 (5′UTR), 12 exonic and 13 intronic) and GD (18 (5′UTR), 13 exonic and 5 intronic) patients showed a significant difference (χ² = 6.54, 2df, P = 0.03). Interestingly, missense changes (I300L, p.M283I, F354S and p.L597S) affected conserved residues of pendrin. On the other hand, the HSF analyses ascertain that some variants identified in HT disease are predicted to have a pathogenic effect on splice. In conclusion, our analysis of SLC26A4 sequence variations suggested a distinct genetics basis between HT and GD patients, which should be confirmed on a large cohort.     

Genetic dissection of familial autoimmune thyroid diseases using whole genome screening

The autoimmune thyroid diseases (AITDs) are multifactorial disease which are caused by genetic susceptibility and environmental triggers. Various epidemiological and genetic techniques can be employed to study the genetic contribution to disease development. Most epidemiologic data support an important genetic contribution to the development of AITD. The genetic susceptibility to AITD involves several genes with varying effects. Some AITD susceptibility genes are most likely immune modifying genes which increase the susceptibility to autoimmunity in general (e.g. HLA, CTLA-4) while others may be thyroid-specific (e.g. thyroglobulin). These genes probably act in concert to increase the autoimmune reactions in susceptible individuals and direct them towards the thyroid.     

DICER and DROSHA gene expression and polymorphisms in autoimmune thyroid diseases

Dicer and Drosha are RNase III enzymes that are necessary for the biogenesis of most miRNAs. However, there are no reports on the association of Dicer and Drosha with the pathogenesis of autoimmune thyroid disease (AITD). We genotyped DICER rs3742330A/G and rs1057035T/C as well as DROSHA rs644236C/T and rs10719C/T polymorphisms in 255?Hashimoto's disease (HD) patients, in 255 Graves' disease (GD) patients and in 128 healthy controls by the polymerase chain reaction (PCR)- restriction fragment length polymorphism (RFLP) method. We also examined the expression of DICER and DROSHA gene in peripheral blood mononuclear cells (PBMCs) by quantitative RT-PCR (qRT-PCR) methods. The TT genotype of the DICER rs1057035 polymorphism was less frequent in GD patients (p?=?0.0098) than in healthy subjects. The CC genotype of DROSHA rs644236 polymorphism were more frequent in GD patients than in HD patients (p?=?0.0171). The gene expression of DICER was lower in patients with AITD compared with that in control subjects (p?=?0.0064) and was lower in patients with GD in remission than in patients with intractable GD (p?=?0.0213). In addition, the expression of DROSHA was lower in patients with AITD than that in control subjects (p?p?=?0.0440). In conclusion, the DICER rs1057035 TT genotype and DROSHA rs644236?CC genotype were associated with the development of GD and the differentiation between GD and HD, respectively. The expression levels of DICER and DROSHA genes were low in AITD and differed depending on the intractability of GD and the severity of HD, respectively.     

Anti-thyroid peroxidase antibodies in thyroid disorders and non-thyroid autoimmune diseases.

A new commercial method for measurement of anti-thyroid peroxidase (anti-TPO DYNOtest, Henning, Berlin) was evaluated in normal subjects and in patients with autoimmune thyroid and non-thyroid diseases, and compared to an immune fluorescence method for measurement of anti-microsomal antibodies (MicAb), and a radioimmunological method for quantifying thyroglobulin antibodies (TgAb). The majority of normal subjects had anti-TPO levels below 52 U/ml and patients with Hashimoto's thyroiditis had levels above 200 U/ml, with a good correlation to MicAb. In other autoimmune thyroid diseases the correlation was less pronounced. In non-thyroid autoimmune diseases MicAb showed falsely positive reactions in the presence of other autoantibodies, e.g. mitochondrial antibodies. The present study indicates that the anti-TPO method should probably replace measurements of MicAb for routine clinical use, thus providing a sensitive, precise, antigen specific method with the ability to reveal quantitative fluctuations. The study also indicates that TgAb could be abolished in routine diagnosis of autoimmune thyroid diseases and be reserved for special clinical situations, research purposes as well as measurement in sera before evaluation of serum thyroglobulin levels.