CD28/CTLA-4/ICOS haplotypes confers susceptibility to Graves’ disease and modulates clinical phenotype of disease

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Abstract

Graves’ disease, an autoimmune disease with heterogeneous symptoms including Graves’ orbitopathy, has a combined genetic/environmental background, where variations within CD28/CTLA-4/ICOS genes are considered as disease markers.

Association of CD28c.17+3T>C(rs3116496), CTLA-4g.319C>T(rs5742909), CTLA-4c.49A>G(rs231775), CTLA-4g.*642AT(8_33), CT60(rs3087243), Jo31(rs11571302), ICOSc.1554+4GT(8_15) polymorphisms with susceptibility to Graves’ disease and clinical outcome was investigated. The study group comprised of 561 Polish Caucasians, including 172 unrelated Graves’ disease patients. CTLA-4c.49A>G, CTLA-4g.319C>T, and CT60 were genotyped by PCR–RFLP; Jo31 and CD28c.17+3C>T by minisequencing; CTLA-4g.*642AT(8_33) and ICOSc.1554+4GT(8_15)—PCR and fluorescence-based technique. CD28c.17+3T>C(rs3116496)T/ CTLA-4g.319C>T(rs5742909)C/ CTLA-4c.49A>G(rs231775)G/ CTLA-4g.*642AT(8_33)(AT _16–21)/CT60(rs3087243)G/Jo31(rs11571302)G/ ICOSc.1554+4GT(8_15)(m) and TCA(AT _<16)GT(m) haplotypes increased risk of Graves’ disease, especially in males, as well as overall Graves’ orbitopathy development with severe outcome. TCG(AT _16–21)GG(l) haplotype increased risk of Graves’ disease and reduced the chance of successful medical treatment. Although this haplotype was mainly observed in patients without signs of Graves’ orbitopathy, if Graves’ orbitopathy developed it favored a Graves’ orbitopathy outcome. Haplotype TCA(AT _>21)GT(m) increased Graves’ disease risk in women and, in all patients, was linked to Graves’ disease without Graves’ orbitopathy. TCG(AT _<16)GG(m) haplotype was predominantly observed in patients without Graves’ orbitopathy, whereas TCA(AT _16–21)GG(m) was absent in those patients. TCA(AT _16–21)GG(m) occurred in patients with a mild Graves’ orbitopathy outcome. The marker CTLA-4g.*642AT(8_33) was the only independent Graves’ disease risk factor, whereas CT60 was an independent factor for disease progression. Sporadic Graves’ disease was related to presence of CTLA-4c.49A>G[A] and the rare CTLA-4g.319C>T[T] allele variant. Familial background of the disease was exclusively associated with CTLA-4g.*642AT(8_33)[AT _>21]/[AT _>21] genotype. CD28/CTLA -4/ ICOS loci may confer inherited susceptibility to Graves’ disease or may be involved in susceptibility to Graves’ disease and play a pathogenetic role.

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Most cited references 36

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Consensus statement of the European Group on Graves' orbitopathy (EUGOGO) on management of GO.

G E Krassas, Antonella Boschi, Matthias Stahl … (2008)

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Immunogenetics of autoimmune thyroid diseases: A comprehensive review.

Hanna J Lee, Cheuk Li, Sara Hammerstad … (2015)

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.

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

Lois E. H. Smith, B. Prabhakar, S Bahn … (2003)

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.

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Author and article information

Contributors

Edyta Pawlak-Adamska: (+48) 71 3371172 , epawlak@iitd.pan.wroc.pl

Journal

Journal ID (nlm-ta): Endocrine

Journal ID (iso-abbrev): Endocrine

Title: Endocrine

Publisher: Springer US (New York )

ISSN (Print): 1355-008X

ISSN (Electronic): 1559-0100

Publication date (Electronic): 16 September 2016

Publication date PMC-release: 16 September 2016

Publication date (Print): 2017

Volume: 55

Issue: 1

Pages: 186-199

Affiliations

[1 ]Department of Experimental Therapy, Hirszfeld Institute of Immunology and Experimental Therapy, Polish Academy of Sciences, R. Weigl 12, Wroclaw, 53-114 Poland

[2 ]Department of Endocrinology, Diabetes and Isotope Therapy, Wroclaw Medical University, L. Pasteur 4, Wroclaw, 50-367 Poland

[3 ]Department of Forensic Medicine, Wroclaw Medical University, M. Curie-Sklodowska 52, Wroclaw, 50-369 Poland

[4 ]Department of Human Evolutionary Biology, Institute of Anthropology, Adam Mickiewicz University, Umultowska 89, Poznan, 61-614 Poland

[5 ]Department of Ophthalmology, Wroclaw Medical University, Borowska 213, Wroclaw, 50-556 Poland

Article

Publisher ID: 1096

DOI: 10.1007/s12020-016-1096-1

PMC ID: 5225215

PubMed ID: 27638540

SO-VID: 62b14a4a-63a1-4fa7-b93a-df8f6e835905

History

Date received : 8 April 2016

Date accepted : 17 August 2016

Funding

Funded by: Poslish Scientific Research Committee

Award ID: 2 P05B 055 29

Award Recipient : Marek Bolanowski

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ScienceOpen disciplines: Endocrinology & Diabetes

Keywords: cd28/ctla-4/icos,graves’ disease,graves’ orbitopathy,gene polymorphism,haplotype

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ScienceOpen disciplines: Endocrinology & Diabetes

Keywords: cd28/ctla-4/icos, graves’ disease, graves’ orbitopathy, gene polymorphism, haplotype

CD28/ CTLA-4/ICOS haplotypes confers susceptibility to Graves’ disease and modulates clinical phenotype of disease

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Journal of the ASEAN Federation of Endocrine Societies

Most cited references 36

Consensus statement of the European Group on Graves' orbitopathy (EUGOGO) on management of GO.

Immunogenetics of autoimmune thyroid diseases: A comprehensive review.

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

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