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Adrenal 21‐Hydroxylase Cytochrome P‐450 Genes within the MHC Class III Region
Author(s) -
White Perrin C.,
New Maria I.,
Dupont Bo
Publication year - 1985
Publication title -
immunological reviews
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.839
H-Index - 223
eISSN - 1600-065X
pISSN - 0105-2896
DOI - 10.1111/j.1600-065x.1985.tb01148.x
Subject(s) - cancer , medicine , immunogenetics , immunology , antibody
Genes encoding several serum complement components and the gene(s) for steroid 21-hydroxylase (21-OH) have been located in the class III region of the major histocompatibility complex (MHC). All these genes are highly polymorphic in man, and these polymorphisms have been used to draw conclusions about the structure and function of these genes. For example, electrophoretic polymorphisms of the fourth component of complement (C4) have been shown to be controlled by two closely linked genes, which also control expression of the red cell antigens Rodgers and Chido. Steroid 21-OH deficiency (D) can occur in several forms which differ in severity, and because of genetic linkage disequilibrium with different HLA antigens the inheritance of these forms is consistent with the existence of several alleles at a single locus. When severe 21-OH D occurs in association with the HLA haplotype A3;Bw47;DR7, there is a simultaneous null allele at one of the C4 loci. This was hypothesized to result from a single deletion or rearrangement affecting the 21-OH and C4 loci and perhaps the HLA-B gene as well. To test this hypothesis and identify the 21-OH gene, a cDNA clone was isolated which encoded the cytochrome P450 specific for steroid 21-hydroxylation in the bovine adrenal gland. This clone hybridized to two genes in normal human DNA, but to only one gene in DNA from an individual homozygous for A3;Bw47;DR7. All individuals heterozygous for A3;Bw47;DR7 carry a heterozygous deletion of a gene. These experiments showed that at least one structural gene for the cytochrome P450 specific for 21-hydroxylation is located in the MHC, probably very near the C4 genes, and a mutation in this gene results in 21-OH D. Cosmid clones have been used to locate the 21-OH genes both in man and mouse. In both species, there are two 21-OH genes, each located immediately 3' of one of the two C4 genes, and oriented in the same direction as the C4 genes. In man, the gene located 3' of the C4B gene is deleted in 21-OH D on the Bw47 haplotype, but the gene 3' of the C4A gene is deleted in hormonally normal individuals on the A1;B8;C4AQO;C4B1;DR3 haplotype. Thus the 21-OH B gene is normally active in man, but the 21-OH A gene is not.