Analysis of HLA Genotypes and Susceptibility to Insulin-Dependent Diabetes Mellitus: HLA-DQalpha Complements HLA-DQbeta

Abstract

It is well known that certain genes in the HLA-D region confer increased susceptibility to insulin-dependent diabetes mellitus (IDDM). Previous studies have documented an increased risk associated with the HLA-DR beta chain alleles, DR3 and DR4, and the DQ beta chain allele DQB1*0302 (formerly DQw8). Since DQ alpha is also polymorphic and has been strongly implicated as the primary IDDM susceptibility locus in other races, we wanted to assess the contribution of DQ alpha to IDDM in Caucasians. This information would enable us to define more precisely the class II association with IDDM as well as gain insight into issues of cis versus trans association of DQ heterodimers in this disease. To this end, the DQ alpha genotype was determined for a large group of diabetic and normal Caucasian individuals who had been HLA-DQ beta and HLA-DR typed previously. Using the polymerase chain reaction and a set of twelve oligonucleotide probes, we determined the DQ alpha genotype of 323 patients with IDDM and 182 normal subjects. We found that certain DQ alpha alleles are decreased in the diabetic population compared with normal subjects (i.e. DQA1*0102 and *0103), while others are significantly increased in patients with IDDM (i.e. DQA1*0301 and *0501). In addition, certain combinations of DQ alpha alleles are associated with increased susceptibility to disease (i.e. DQA1*0301, *0501). These results parallel our findings at the DQ beta locus; however, because of the various associations between DQ alpha and DQ beta chains, the risks conferred by DQ alpha are generally lower than those at DQ beta. Moreover, our data indicate that, in Caucasians, no single DQ alpha allele accounts for the highest degree of susceptibility to IDDM as in other races, although DQ alpha analysis may be informative in a few cases. When done in combination, however, oligonucleotide analyses at both DQ alpha and DQ beta complement each other and provide a more complete assessment of the HLA-associated component of disease susceptibility in IDDM.