Genetic susceptibility to type 1 diabetes is associated with the major
histocompatibility complex (MHC) on human chromosome 6. To analyse the contribution
of the class I region of the MHC to disease susceptibility, polymorphism of the class Ib
molecule HLA-E and several genetic markers within the region was investigated in 378
British Caucasoid patients with type 1 diabetes as defined by the National Diabetes Group,
100 multiplex families from the BDA Warren Repository and 216 unselected normal
British Caucasoid controls.
PCR-Sequence-Specific Oligonucleotide Probing (PCR-SSOP) was used to analyse
polymorphism of the HLA-E gene, Restriction Fragment Length Polymorphism analysis
was used to investigate the four genomic probes P3A, P3B, 28L and 66R and finally
microsatellite analysis to examine the two markers P 1 and D6S306.
The association of the class I region with type 1 diabetes was also investigated with
respect to gender and age at onset of type 1 diabetes. Linkage with known MHC class II
susceptibility alleles was also analysed and the transmission disequilibrium test was used
to analyse the BDA multiplex families.
Significant increases in the frequency of the 1.5; 1.5 kilo base (kb) (Pc = 0.0004) and
1.8; 1.5 kb (Pc= 0.008) P3B genotypes were found in the patients compared to the controls.
The P3B genotype 1.8; 1.8 was found to be decreased in the patients compared to the
controls 26.6% vs 51.5% (Pc = 0.000002). This decrease in the 1.8; 1.8 P3B genotype was
particularly apparent in those patients diagnosed before the age of 20 years. There were
also differences in the frequency of the P3B genotype between males and female patients.
The 1.5 P3B allele was increased and the 1.8 kb allele decreased in patients ( 46.1% and
53.9%) respectively compared to normal controls (27.8% and 72.1 %) respectively
(Pc = <0.000001). The 1.8 P3B allele was increased in the <10 years compared to the 10-
20 years age group 60.2% vs 49.1% (Pc = 0.06). Further, the 1.8kb allele was increased in
female patients with an age at onset of < 10 years compared to those in the 10-20 years
group 63.5% vs 45.8% (Pc = 0.04). Analysis of the BDA multiplex families using the
transmission disequilibirum test (TDT) showed that the 1.5kb allele was significantly
transmitted from parents to affected offspring (Pc = 0.000002), suggesting that the 1.5
allele is in linkage with a susceptibility locus for type 1 diabetes. There was a highly
significant difference in the observed transmission of the 1.5kb allele in the > 10 years
group compared to the observed transmission of the 1.8kb allele in the > 10 years group
(Pc = 0.000002).
Increased frequencies of the HLA-E genotypes 0101;0101 (Pc = 0.0007),
0101;0103 (Pc = 0.025) were found in patients compared to controls. The HLA-E
genotypes 0102;0104 (Pc= 0.001) and 0103;0104 (Pc= 0.004) were decreased in patients
compared to controls. The 0101;0 101 genotype was increased in patients with an age at
onset of 10-20 years compared to patients in the < 10 years group 4 7.0% vs 21 .1%
(Pc = 0.001). The HLA-E 0101 allele was increased in patients compared to controls
54.1% vs 28.7% (Pc = 0.000003). In contrast, the alleles 0102 and 0104 were decreased in
patients compared to controls (Pc = 0.000003, p = 0.0000 1) respectively. The 0 I 03 allele
was increased in patients with an age at onset of < 10 years compared to the 10-20 years
group 34.1% vs 18.9% (Pc = 0.02) in contrast, the 0101 allele was increased in the 10-20
years compared to the <10 years 62.9% vs 47.6% (Pc = 0.07). The frequency of the 0103
allele was increased in female patients in the < 10 years compared to the 10-20 years
37.5% vs 16.2% (Pc = 0.04). Haplotype analysis showed the significant presence of the
P3A-P3B-28L-HLA-E (4-1.5-3 .8-0101) haplotype in patients with type 1 diabetes, which
suggested the possible association between the P3B 1.5kb allele and the HLA-E 0101
allele. This was also supported by the presence of the 3 loci haplotype P3B-28L-HLA-E
(1.5-3 .8-0101) that was found significantly present in patients. Combined genotype
analysis of the P3B and HLA-E showed that the 0101-0103-1.5 genotype was significantly
increased in patients compared to controls (Pc = 0.08). Analysis of the class lI 'diabetes-associated'
alleles showed there was no significant linkage/association with either the P3B
or HLA-E locus, suggesting that the class I association with type 1 diabetes may be
independent of the class II.
In conclusion a strong association with type 1 diabetes has been identified within
the class I region, localised to the central area of the region. The association is related to
gender and age at onset of type 1 diabetes, particularly the 10-20 years age at onset group.
Identified HLA-E as a novel susceptibility gene, which is the first report of an association
between a class Ib gene and an autoirnmune disease.
Date of Award | 1999 |
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Original language | English |
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Awarding Institution | |
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IMMUNOGENETICS OF TYPE 1 DIABETES IN MAN
Hodgkinson, A. D. (Author). 1999
Student thesis: PhD