High risk HLA-DR/DQ genotypes for IDD confer susceptibility to autoantibodies but DQB1*0602 does not prevent them.

Although HLA class II genes are important in insulin-dependent diabetes (IDD), their influence on the expression of IDD-associated autoantibodies (aAb) is unclear. We compared HLA-DRB1 and DQB1 gene frequencies in several Caucasian groups: 191 normal controls, 378 IDD patients, and 357 non-diabetic relatives of which 250 had no aAb, 107 had at least one aAb (79 ICA+, 31 GAD65+ and 49 IAA+), and 23 had both ICA+ and IAA+. We found that the frequencies of DR3/4 or DQB1*0201/0302 heterozygotes were significantly higher in aAb+ relatives compared to aAb- relatives. The frequencies of DR4/4 or DR4/X (X = non 3 or 4) and DQB1*0302/X (X = 0201 or 0302) in aAb+ relatives were not different from the aAb- relatives (which were enriched for these haplotypes), but were significantly higher than normal controls. The frequencies of DR3/X or DQB1*0201/X were decreased in both aAb+ relatives and IDD patients. Interestingly, the dominant IDD-protective DQB1*0602 allele allowed the development of individual aAbs (10% of ICA+ and 8% IAA+ relatives had the allele), but was not observed in any high risk double aAb+, or GAD65Ab+ relatives. The latter finding was similar to that in our patients with IDD, in that only two of them (0.5%) had a DQB1*0602 allele. In conclusion, HLA-encoded susceptibilities to disease-relevant autoantibody production and IDD are concordant with the susceptibility alleles, but discordant for the protective DQB1*0602. Thus HLA genotyping for DQB1*0602 would impact on the selection of aAb+ relatives for disease prevention trials.

The role of tyrosinase in autoimmune vitiligo.

Vitiligo is a common depigmenting skin disease, associated with certain autoimmune endocrinopathies, and autoantibodies to several antigens can be found in melanoma cells. We set out to identify the antigens. We examined 26 patients with vitiligo and associated endocrine disease. Of these, 18 patients (77%) and 8 immediate family members had autoantibodies specific for a 69 kDa protein in HTB-70 human melanoma cells that was not seen in control cells. The autoantibody-positive patient sera reacted with recombinant human tyrosinase expressed in Escherichia coli seen by western blots, as did antibodies raised in rabbits against hamster tyrosinase, but not to recombinant tyrosinase-related protein. Not one of 31 normal controls or 8 patients with alopecia or systemic lupus erythematosus had tyrosinase autoantibodies but a small proportion (12%) of 42 patients with autoimmune endocrine disease without a history of vitiligo had them. The results show that tyrosinase, an enzyme important in melanin formation, is a principal autoantigen of autoimmune vitiligo.

Autoantibody epitope mapping of the 21-hydroxylase antigen in autoimmune Addison's disease.

Patients with idiopathic Addison's disease are characterized by cytoplasmic adrenal autoantibodies, detectable by indirect immunofluorescence of cryocut sections of human adrenal cortex. Recently, autoantibodies that bind a 55-kilodalton protein in the microsomal fraction of adrenal gland extracts identified to be the cytochrome P450 enzyme 21-hydroxylase have been found in Addisonian patient sera. We confirm the finding and report here the autoantigenic epitopes involved in the autoantibody reactivity using recombinant DNA technology. Six cDNA fragments spanning different regions of the 21-hydroxylase gene were expressed as fusion proteins with glutathione S-transferase in Escherichia coli. Immunoblot analyses were used to evaluate the reactivity of the recombinant proteins with patients' sera to determine the autoepitopes involved. We found that a conserved region (amino acids 164-356) reacted with 25 of 30 adrenal autoantibody-positive sera tested. One serum sample reacted only with the amino portion of the 21-hydroxylase (amino acids 1-162). In addition, 4 other enzymes important to steroid hormone biosynthesis, 11 beta-hydroxylase, 17 alpha-hydroxylase, side-chain cleavage enzyme P450, and 3 beta-hydroxysteroid dehydrogenase, were expressed in E. coli, but none of them gave positive autoantibody reactions by Western blot assays, even using sera from 5 patients with type I autoimmune polyglandular syndrome. The availability of recombinant antigens has permitted structural analysis of the autoepitopes involved in the autoimmune response to 21-hydroxylase in Addison's disease. Our findings should lead to the development of a simple and specific tool for immunodiagnosis of the disease.

Additive susceptibility to insulin-dependent diabetes conferred by HLA-DQB1 and insulin genes.

Several genomic polymorphisms at the insulin (INS) gene and its flanking regions were analyzed in 197 unrelated Caucasian patients affected by insulin-dependent diabetes (IDDM) and 159 ethnically matched, normal controls ascertained from the South-Eastern United States. We found that the frequency of homozygotes for the common variant at the insulin gene was significantly increased in the diabetic population (RR = 2.0, p < 0.005). However, the polymorphisms in the 5' and 3' regions flanking the INS were not significantly associated with IDDM. These results suggest that the IDDM susceptibility locus on chromosome 11p is located within the region extending from the 5' VNTR to the 3' end of the INS gene. We determined the HLA-DQB1 genotypes by denaturing gradient gel electrophoresis (DGGE) and/or sequence-specific primers (SSP) techniques to assess the possible interactions between INS and HLA. DQB1*0302 had the strongest predisposing effect on IDDM susceptibility (RR = 9.3) and DQB1*0602 the strongest protective effect (RR = 0.02). However, a significant predisposing effect of DQB1*0201 could be demonstrated only after removal of the effects of DQB1*0302 and DQB1*0602. Analyses of the genotypes revealed that all genotypes containing 0602 were protective and that the heterozygous genotype 0201/0302 and homozygous genotype 0302/0302 confer the highest risk (RR = 20.9 and 12.9 respectively). However, heterozygous genotypes 0302/X (X excludes 0201, 0302 and 0602) have a significantly lower predisposing risk. Similarly, there is heterogeneity in risk between predisposing 0201/0201 homozygous individuals and protective 0201/X individuals. When subjects were stratified by HLA genotypes, the relative risks conferred by INS did not vary, thus suggesting that the susceptibility effects conferred by HLA and INS are additive rather than interactive.