Remarkable sequence conservation of theHLA-DQB2 locus (DX?) within the highly polymorphicDQ subregion of the human MHC

Abstract

TheHLA-D region of the major histocompatibility complex (MHC) is characterized by a remarkable diversity. Most of theHLA class II genes are highly polymorphic, and in addition, the number and organization of individual loci in that region varies in different haplotypes. This extensive allelic polymorphism of immune response genes has well-known functional implications. Within theHLA-D region, two loci,DQA2 andDQB2 (formerly calledDXα andDXβ), represent a very special case: the detailed structure of these two genes is entirely compatible with expression, yet their expression has never been demonstrated in any tissue. Consequently, there exists no known corresponding protein product. Pseudogenes are known to accumulate mutations, as observed for instance in the case ofHLA-DPA2,-DPB2, or-DRB2 genes. We have therefore investigated the extent of DQ2 genes' polymorphism by DNA sequence comparison and by oligonucleotide hybridization across a large number of different haplotypes, and compared it with other genes in theHLA-D region. We show here that, contrary to the adjacentDQ1 genes,DQ2 genes exhibit little and possibly no polymorphism. This conservation ofDQ2 genes in many haplotypes indicates that the DQ 1-DQ2 duplication event must have preceeded the extensive diversification ofDQ1 genes and raises the puzzling question of whyDQ2 genes have remained nonpolymorphic. This suggests that either these genes correspond to an unusually invariant region of the MHC or they are under a strong selective pressure for the conservation of the amino acid sequence of a putative DQ2 gene product. The latter would imply that theHLA-DQ2 genes are expressed into a protein product endowed with essential functional properties.