The Effect of HLA-B Allele on the IDDM Risk Defined by DRB1*04 Subtypes and DQB1*0302

Nejentsev, S; Reijonen, Helena; Adojaan, Bela; Kovalchuk, L.; Sochnevs, Arthur; Schwartz, E.I.; Åkerblom, Hans K.; Ilonen, Jorma

doi:10.2337/diab.46.11.1888

Cited by 55 publications

(20 citation statements)

References 16 publications

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“…The major finding in our study—the strong effect of B*39 on the progression from β-cell autoimmunity to clinical disease—was only seen in subjects carrying the combination of both major class II risk haplotypes, the DR3/DR4 genotype. We have earlier observed HLA-B*39 to be common in type 1 diabetes–associated DRB1*0404 haplotypes in Finland (5), and we have also been able to demonstrate its predisposing effect on type 1 diabetes risk in DRB1*0404-DQB1*0302–positive subjects in Estonia and Russia (18). The presence of the HLA-B*39 allele in the DRB1*08-DQB1*0402 haplotype has also been found to be a risk factor for type 1 diabetes (3).…”

Section: Discussionsupporting

confidence: 59%

Effect of HLA Class I and Class II Alleles on Progression From Autoantibody Positivity to Overt Type 1 Diabetes in Children With Risk-Associated Class II Genotypes

Lipponen

Gombos²,

Kiviniemi³

et al. 2010

Diabetes

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OBJECTIVEClass II alleles define the main HLA effect on type 1 diabetes, but there is an independent effect of certain class I alleles. Class II and class I molecules are differently involved in the initiation and effector phases of the immune response, suggesting that class I alleles would be important determinants in the rate of β-cell destruction. To test this hypothesis we analyzed the role of HLA class I and class II gene polymorphisms in the progression from diabetes-associated autoimmunity to clinical disease.RESEARCH DESIGN AND METHODSThe effect of HLA-DR-DQ haplotypes and a panel of class I HLA-A and -B alleles on the progression from autoantibody seroconversion to clinical diabetes was studied in 249 children persistently positive for at least one biochemical diabetes-associated autoantibody in addition to islet cell autoantibody.RESULTSThe progression to clinical disease was separately analyzed after the appearance of the first and the second persistent biochemical autoantibody using Cox regression. Multivariate analysis demonstrated a significant protective effect of the A*03 allele (odds ratio [OR] 0.61, P = 0.042 after the first and OR 0.55, P = 0.027 after the second autoantibody), whereas the B*39 allele had a promoting effect after seroconversion for the second autoantibody (OR 2.4, P = 0.014). When children with the DR3/DR4 genotype were separately analyzed, HLA-B*39 had a strong effect (OR 6.6, P = 0.004 and OR 7.5, P = 0.007, after the appearance of the first and the second autoantibody, respectively). The protective effect of A*03 was seen only among children without the DR3/DR4 combination.CONCLUSIONSThese results confirm that class I alleles affect the progression of diabetes-associated autoimmunity and demonstrate interactions between class I and class II alleles.

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Section: Discussionsupporting

confidence: 59%

Effect of HLA Class I and Class II Alleles on Progression From Autoantibody Positivity to Overt Type 1 Diabetes in Children With Risk-Associated Class II Genotypes

Lipponen

Gombos²,

Kiviniemi³

et al. 2010

Diabetes

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“…DRB1*0405 was shown to be the strongest DR4 subtype conferring risk for Type 1 diabetes in several populations including African-Americans and Mexican-Americans, Caucasian French and Sardinians [29], while it was not present in the Finnish population [13]. Such differences mostly mirror the prevalence of risk alleles in the background populations, but may also re¯ect haplotypic associations and/or yet uncharacterized susceptibility genes within the HLA gene region [16,30]. Such differences mostly mirror the prevalence of risk alleles in the background populations, but may also re¯ect haplotypic associations and/or yet uncharacterized susceptibility genes within the HLA gene region [16,30].…”

Section: Discussionmentioning

confidence: 99%

“…Standard dot-blot hybridization with digoxygeninlabelled oligonucleotide probes was used as a reference method [16]. Standard dot-blot hybridization with digoxygeninlabelled oligonucleotide probes was used as a reference method [16].…”

Section: Methodsmentioning

confidence: 99%

Population‐based genetic screening for the estimation of Type 1 diabetes mellitus risk in Finland: selective genotyping of markers in the HLA‐DQB1, HLA‐DQA1 and HLA‐DRB1 loci

Nejentsev¹,

Sjöroos²,

Soukka³

et al. 1999

Diabetic Medicine

149

117

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“…Likewise, susceptibility has also been linked to specific HLA-A and HLA-B Class I alleles (29), however little is known about the role of the disease-associated variants in T1D. However, it should be noted that when HLA-B*39 is combined in a HLA haplotype with DRB1*0404-DQB1*0302, patients are at significantly heightened risk (30). This is a demonstration of gene-gene interaction or epistasis, controlling T1D onset.…”

Section: Geneticsmentioning

confidence: 99%

Use of Nonobese Diabetic Mice to Understand Human Type 1 Diabetes

Thayer

Wilson

Mathews

2010

Endocrinology and Metabolism Clinics of North America

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Synopsis In 1922, Leonard Thompson received the first injections of insulin prepared from the pancreas of canine test subjects. From pancreatectomized dogs to the more recent development of animal models that spontaneously develop autoimmune syndromes, animal models have played a meaningful role in furthering diabetes research. Of these animals the non-obese diabetic (NOD) mouse is the most widely used for research in Type 1 Diabetes (T1D) as the NOD shares a number of genetic and immunologic traits with the human form of the disease. In this chapter, we review both similarities and differences in NOD and human T1D and discuss the potential role of NOD mice in future pre-clinical studies aiming to provide a better understanding of the genetic and immune defects that lead to T1D.

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The Effect of HLA-B Allele on the IDDM Risk Defined by DRB104 Subtypes and DQB10302

Cited by 55 publications

References 16 publications

Effect of HLA Class I and Class II Alleles on Progression From Autoantibody Positivity to Overt Type 1 Diabetes in Children With Risk-Associated Class II Genotypes

Effect of HLA Class I and Class II Alleles on Progression From Autoantibody Positivity to Overt Type 1 Diabetes in Children With Risk-Associated Class II Genotypes

Population‐based genetic screening for the estimation of Type 1 diabetes mellitus risk in Finland: selective genotyping of markers in the HLA‐DQB1, HLA‐DQA1 and HLA‐DRB1 loci

Use of Nonobese Diabetic Mice to Understand Human Type 1 Diabetes

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