mRNA abundance, rather than differences in subunit assembly, determine differential expression of HLA-DR beta 1 and -DR beta 3 molecules

The class II major histocompatibility molecules HLA-DR are formed by the association of a single DR alpha chain with two nonallelic DR beta chains. In DR3 cells one DR beta chain is severalfold more abundant than the other. We have studied the mechanism that controls the differential expression of these DR beta genes. We determined the amino-terminal sequences of the two expressed DR beta chains. Comparison of these sequences with the nucleotide sequences of the DR3B1 and DRB3a genes indicates that the abundant chain is the B1 gene product. Supporting this conclusion, an informative mutant, 9.4.3, was found to have lost the abundant beta chain and beta 1 mRNA. This mutant expresses normal cell surface levels of the DR beta 3 chain and exhibits no significant dosage compensation of its beta 3 chain. The unchanged level of DR beta 3 dimer on the cell surface suggests that free DR alpha chains are not the limiting factor in the surface expression of the beta 3 chain and, further, that the differential regulation of the surface expression of the two DR beta chains occurs at a step prior to DR assembly. Quantitation of DR beta mRNAs by locus-specific oligonucleotide probes showed that beta 1 mRNA is 4.5-fold more abundant than beta 3 mRNA, strongly indicating that the greater surface expression of DR beta 1 is a direct consequence of greater beta 1 mRNA abundance.     

Identification of the DRw10 DR beta 1-chain allele as encoding a polymorphic class II major histocompatibility complex epitope otherwise restricted to DR beta 2 molecules of the DRw53 type

Although the polymorphic human Ia epitope recognized by monoclonal antibody 109d6 typically is expressed by DRw53 beta 2 chains, the epitope was shown to be encoded by distinctive DR beta 1 chains of a DRw10 haplotype in three unrelated DR4-negative individuals with rheumatoid arthritis. No evidence of a DR beta 2 (DR beta 4) chain molecule was found to be encoded by this haplotype. Using two-dimensional gel analysis and partial radioactive N-terminal microsequencing, the DR and DQ products were characterized in the heterozygous members of a family in which the segregation of both varieties of DR beta chains specifying the 109d6 epitope was demonstrated. The expression of the epitope on the DR beta 2 chain, but not on the DR beta 1 chain, was abolished by preventing N-linked glycosylation, although in both molecules the epitope was not altered by neuraminidase digestion. The potential structural bases of the serologic cross reactions of DRw10 are discussed, as are the possible implications of the findings for the definition of susceptibility to rheumatoid arthritis.     

Analysis of DR beta and DQ beta chain cDNA clones from a DR7 haplotype

A cDNA library was constructed from a DR7, DRw53, DQw2 homozygous cell line, cDNA clones corresponding to DR beta and DQ beta chains were isolated, and the nucleotide sequences of the polymorphic first domains of these chains were determined. A novel screening strategy allowed rapid and simple identification of cDNA clones corresponding to both DR beta chains (DR7 beta1 and DR7 beta2): DR7 beta2 clones have a recognition site for the enzyme BssHII, whereas DR7 beta1 clones do not. The DR7 beta 1 sequence differs significantly from all previously described DR beta chains. As predicted by the presence of the BssHII site in DR7 beta 2 clones, the DR7 beta 2 sequence differs from the DR7 beta 1 sequence. The sequence of the DRw53-associated DR7 beta 2 chain is identical to the reported sequence of the DRw53-associated DR4 beta 2 chain. In addition, the sequence of the DQ beta chain from the DR7, DQw2 cell line is identical to the reported sequence of a DQ beta chain from a DR3, DQw2 cell. These findings raise interesting questions about the evolution of the DR3, DR4, and DR7 haplotypes.     

DO beta: a new beta chain gene in HLA-D with a distinct regulation of expression

The HLA-D region of the human major histocompatibility complex encodes the genes for the alpha and beta chains of the DP, DQ and DR class II antigens. A cDNA clone encoding a new class II beta chain (designated DO) was isolated from a library constructed from mRNA of a mutant B-cell line having a single HLA haplotype. Complete cDNA clones encoding the four isotypic beta chains of the DR1, DQw1, DPw2 and putative DO antigens were sequenced. The DO beta gene was mapped in the D region by hybridization with DNA of HLA-deletion mutants. DO beta mRNA expression is low in B-cell lines but remains in mutant lines which have lost expression of other class II genes. Unlike other class II genes DO beta is not induced by gamma-interferon in fibroblast lines. The DO beta gene is distinct from the DP beta, DQ beta and DR beta genes in its pattern of nucleotide divergence. The independent evolution and expression of DO beta suggest that it may be part of a functionally distinct class II molecule.     

Molecular studies of a rare DR2/LD-5a/DQw3 HLA class II haplotype. Multiple genetic mechanisms in the generation of polymorphic HLA class II genes

A cDNA library was constructed from a homozygous B lymphoblastoid cell line (REM) obtained from an individual of a long isolated American Indian tribe, the Warao. The REM cell line expresses serologically defined determinants, DR2 and DQw3, and the T lymphocyte-defined (Dw/LD) specificity, LD-5a. T cells can recognize differences between FJO (a DR2/DQw1 cell line that expresses the Dw specificity MN2) and REM for both DR and DQ molecules. cNDA clones encoding the polymorphic DR beta 1-, DR beta 2-, DQ beta-, and DQ alpha-chains were sequenced and compared with other DR and DQ gene sequences. The DR beta 1-sequence of REM is identical to the DR beta 1-sequence of FJO; the DR beta 2-sequence is also identical to that of FJO except for one amino acid difference at position 67 in the polymorphic first domain (Leu in REM, Phe in FJO) due to a single point mutation. The DQ beta-sequence is identical to that of DR4/DQw3 haplotype; the DQ alpha is different from the DQ alpha of DR4/DQw3 haplotype and identical to the DQ alpha of both the DR3/DQw2 haplotype of a Raji cell line and the DR5/DQw3 haplotype in deduced amino acid sequence. Taken together, these findings suggest that: 1) a single amino acid difference (position 67) in the third hypervariable region of the first domain of the DR beta 2-chain in the DR2 haplotype is apparently sufficient for stimulating T cell responses; 2) the DQw3 serologic specificity may be defined mainly by the DQ beta-rather than DQ alpha-chain; and 3) multiple genetic events have probably occurred to generate the rarely found REM (DR2/LD-5a/DQw3) haplotype.     

Class II genes of the human major histocompatibility complex. Comparisons of the DQ and DX alpha and beta genes

The human major histocompatibility complex, HLA, contains the genes of several class II molecules. We present here the molecular maps of the DQ and DX subregions and analyze the sequences of the polymorphic DQ alpha and DQ beta genes as well as the DX alpha and DX beta genes. The DQ alpha and DQ beta genes are oriented in opposite directions, approximately 12 kilobases apart. The DX alpha and DX beta genes are similarly oriented about 8 kilobases. The exon-intron organizations of the DQ alpha and DX alpha genes are analogous to those of other class II alpha genes. Comparison of the DQ alpha gene sequence to three DQ alpha cDNA clones shows that amino acid replacements are predominantly located between residues 45 and 80 in the amino-terminal domain. Analysis of the frequency of silent and replacement substitutions indicates that there is little selection against replacements in DQ alpha first domains. The exons encoding the second domains of DQ alpha and DX alpha are virtually identical, suggesting that a gene conversion event has occurred between these genes. The DX beta gene is very similar to the DQ beta gene but differs in the cytoplasmic portion. The DX beta gene contains a separate exon of 24 nucleotides encoding the core of the cytoplasmic tail. This exon is not expressed in the DQ beta genes due to a nonfunctional splice junction. Comparison of the number of nucleotide substitutions in the DQ beta first and second domain exons suggests that little or no phenotypic selection acts on the first domain whereas the second domain is under strong selection.     

Complete characterization and sequence of an HLA class II DR beta chain cDNA from the DR5 haplotype

The human major histocompatibility complex includes the DP, DQ, and DR subregions, each of which contains at least one alpha chain gene and two beta chain genes. The products of the alpha chain gene and a beta chain gene from a given subregion combine to form a heterodimer which is found predominantly on the surface of immunocompetent cells, and is essential for effective cell-cell interactions and the generation of an immune response. The beta chain of the DR molecule is highly polymorphic, and it is this polymorphism which is thought to be ultimately responsible for the specific immune responsiveness and disease predisposition conferred by different DR molecules. While the sequences of DR beta chains of the homozygous DR1 cells, homozygous DR2, homozygous DR4, DR3/w6 cells and DR4/w6 genotypes have been partially or completely characterized, no sequence is yet available for the DR beta chain from a homozygous DR5 cell. A cDNA library was therefore constructed from the Swei cell line homozygous for the DR5 haplotype. A beta chain clone was isolated, characterized, and sequenced. Comparison with previously published DR beta chain restriction endonuclease maps and nucleotide sequences demonstrated that this clone was a DR beta chain clone. Comparison of the deduced amino acid sequence with other DR beta chain amino acid sequences shows three regions of variability in the first external domain, corresponding to amino acid residues 9-13, 26-38, and 67-74. The sequence of each of these variable regions in the beta chain from DR5 cells was identical or nearly identical to the sequences of variable regions found in the beta chains of other DR haplotypes, supporting the notion of gene conversion as an evolutionary mechanism generating polymorphism. The second external domain, and transmembrane and intracytoplasmic regions show a high degree of sequence conservation.     

Complete sequence of the HLA DQ alpha and DQ beta cDNA from a DR5/DQw3 cell line

The HLA-D region is composed of three subregions termed DR, DQ, and DP. We previously reported the sequence of a DR5 beta I and two DR5 beta III cDNA from the DR5 cell line Swei. We now report on the nucleotide and deduced amino acid sequence of the DQ alpha and DQ beta cDNA from the same DR5 cell line, which also types as DQw3. Comparison with other available DQ sequences indicates that DQ alpha has one region of major variability, whereas DQ beta appears to have four regions of variability. In addition, these comparisons indicate that DQw3 alpha from DR5 is different from DQw3 alpha from DR4, but identical to DQw2 alpha from DR3. In contrast, DQw3 beta from DR5 is very similar to DQw3 beta from DR4. These data indicate that at least for DQw2 and DQw3 it is the DQ beta chain that is responsible for DQ typing. Most sequence differences in DQ alleles can be attributed to point mutations; however, codon additions/deletions in the DQ alpha chain may contribute to variability. In addition, regions of possible gene conversion in the DQ alpha and DQ beta chains is suggested by the presence of a chi-like sequence in each chain. Finally, comparison of available haplotypes suggest recombination events may take place between DQ beta and DQ alpha, between DQ alpha and DR beta I, and between DR beta I and DR beta III.     

A genetically controlled pairing anomaly between HLA-DQ alpha and HLA-DQ beta chains

The HLA-DQ region contains highly polymorphic alpha and beta loci, so that a diverse set of cis- and trans-associated class II alpha/beta dimers are potentially generated in heterozygous individuals. To evaluate the extent of this predicted diversity, DQ2 beta or DQ3.2 beta cDNA were introduced into a panel of homozygous B cell lines that expressed different DQ alpha alleles. Restricted patterns of alpha/beta pairing were observed in which DQ2 beta and DQ3 beta molecules were unable to pair efficiently with DQ1 alpha chains. This pairing anomaly may contribute to altered class II phenotypes in heterozygous individuals, and is reflected in the absence of either DQ1 alpha, DQ2 beta or DQ1 alpha, DQ3 beta haplotypes in the known human gene pool.     

Molecular characterization by high resolution isoelectric focusing of the products encoded by the class II region loci of the MHC in humans. II. DP alpha and DP beta gene variants

To characterize the molecular polymorphism of the DP alpha and DP beta gene products, the HLA-DP molecules expressed by more than 200 cell lines were individually immunoprecipitated by using the mAb B7/21 and their neuraminidase-treated DP alpha and DP beta chains analyzed in IEF gels. These cell lines, most of them from members of 32 families, allowed the definition, by segregation analysis, of the IEF patterns of the DP polypeptide chains encoded by 129 distinct haplotypes. Both DP alpha and DP beta chains display polymorphic IEF-banding patterns. Two DP alpha (A and B) and seven DP beta (A, B, C, D, E, F, and G) IEF variants were characterized. The DP alpha B variant was found in linkage disequilibrium with both DP beta B and DP beta D. Linkage disequilibrium was also encountered with alleles at the DR and DQ loci. Finally, the correlations between the IEF DP alpha and DP beta variants and the primed lymphocyte test-defined HLA-DP specificities were determined by using a panel of 24 primed lymphocyte test-typed cell lines.     

Structural analysis of anti-DR1 allorecognition by using DR1/H-2Ek hybrid molecules. Influence of the beta 2-domain correlates with CD4 dependence.

A segmental analysis of the key regions of HLA-DR1 that control T cell allorecognition was performed by using a series of transfected cell lines expressing the products of recombinant DRB/H-2Eb genes, paired with either DR alpha or H-2E alpha. Four of eight human T cell clones tolerated substitution of the H-2E alpha chain, but only one clone showed any response to the DR alpha/H-2E beta k dimer. Both the membrane-proximal and the membrane-distal domains of the beta-chain played an important part in stimulating these clones. The response of four of eight clones was markedly inhibited by substitution of the H-2E beta 2 for the DR beta 2 domain. This inhibition showed a complete correlation with the sensitivity of the clones to inhibition by anti-CD4 mAb. Taken together, these results suggest that the interaction site for CD4 may include residues on the beta 2-domain. Introduction of H-2Ek sequence into either half of the beta 1-domain led to a complete loss of response by all but two of the clones. This is consistent with these clones having dual specificity for exposed DR1-specific polymorphisms and for DR1-bound peptides. The pattern of response of one of the clones suggested that indirect conformational effects on the alpha 1-domain may also contribute to the influence of the amino-terminal half of the beta 1-domain on T cell recognition. In the presence of H-2E alpha, this clone responded more strongly when the amino-terminal half of the beta 1-domain was of H-2Ek rather than DR1 sequence. This implies that species matching of the floor of the beta 1-domain with the alpha-chain is more important than the presence of the alpha-chain of the parental species.     

Structural studies on the murine Ia alloantigens. IV. NH2-terminal sequence analysis of allelic products of the I-A and I-E/C subregions.

Murine Ia alloantigens encoded by the I-A and I-E/C subregions were isolated from radiolabeled splenic lysates and examined by NH2-terminal sequence analysis. Haplotype-associated sequence variation was detected in the beta, but not alpha, subunits of both the A and E/C alloantigens. The A beta-polypeptides from k and b haplotypes show four differences in the 12 positions compared, whereas the E/C beta-polypeptides from k and r haplotypes show two differences in the 13 positions compared. No sequence variation was detected between the Ak and Ab alpha-chains (six positions compared) or between the E/Ck and E/Cr alpha-chains (11 positions compared). Homology relationships between these murine Ia alloantigens and the human Ia (DR) alloantigens are also presented.     

HLA-DQ molecules form alpha-beta heterodimers of mixed allotype

Retroviral vectors with an internal cytomegalovirus major immediate-early gene enhancer/promoter regulating HLA class II gene expression were used to transfer HLA cDNA into human EBV-transformed B-lymphoblastoid cell lines. HLA-DQ2 beta and DQ3.2 beta cDNA were transferred into DQ3.2 and DQ2 homozygous lymphoblastoid cell lines, respectively. Serologic analysis of the infected cell lines with allospecific mAb demonstrated surface expression of these exogenous DQ molecules implying that DQ alpha-chains from DR3, DQ2-positive cells can pair with DQ3.2 beta-chains and, similarly, DQ alpha-chains from DR4, DQ3.2-positive cells can pair with DQ2 beta-chains. Immunoprecipitation of the introduced DQ3.2 beta molecule resulted in co-purification of the allotype-mismatched endogenous DQ2 alpha polypeptide. We also show that vectors with a cytomegalovirus major immediate-early gene enhancer/promoter result in higher levels of expression of the transduced gene compared to previously described HLA vectors with either the SV-40 early enhancer/promoter or the lymphotropic papovavirus-enhanced SV-40 promoter. Although deletion of HLA cDNA did sometimes occur in the process of generating virus-producing clones, the HLA cDNA is stably maintained in virus-producing clones, once it is generated. This retroviral expression system is a highly efficient way to study HLA gene function.     

Genomic hybridization of bovine class II major histocompatibility genes: 2. Polymorphism of DR genes and linkage disequilibrium in the DQ-DR region

Class II genes of the bovine major histocompatibility complex have been investigated by Southern blot analysis using human cDNA probes for DQ alpha, DQ beta, DR alpha and DR beta. In this report restriction fragment length polymorphisms of DR alpha and DR beta are described. The polymorphisms were interpreted genetically by analysing five paternal half-sib families of the Swedish Red and White Breed, comprising altogether 28 offspring. Using the restriction enzymes BamHI, EcoRI and PvuII, three DR alpha and three DR beta allelic fragment patterns were resolved. The DR alpha and DR beta genes thus appear to be much less polymorphic than the previously described DQ alpha and DQ beta genes. Also, the observed linkage disequilibrium between DR genes was less pronounced than that between DQ genes, whereas the association between DR and DQ haplotypes was very strong. The family data available indicated strongly that the DQ alpha, DQ beta, DR alpha and DR beta genes are all closely linked.     

Characterization of specific HLA-DQ alpha allospecificities by genomic, biochemical, and serologic analysis

Bgl II restriction endonuclease digestion of genomic DNA from lymphoblastoid cell lines homozygous for HLA DR and DQ serological specificities, followed by hybridization with a DQ alpha cDNA probe, identified a genomic polymorphism characterized by two reciprocal patterns, one associated with DR 3, 5 and 8 and the other with DR 1, 2, 4, 7, and 9. The former pattern corresponded precisely to the reactivity of monoclonal antibody SFR20-DQ alpha 5, shown by Western blotting to react with isolated alpha-chains, but not with beta-chains. Additional variants of the DQ alpha genes were identified by using a locus-specific oligonucleotide probe for the DQ alpha gene, indicating differences among the DQ alpha 5-negative set of alleles. This analysis defines a set of DQ alpha allelic markers that are distinct from the well-established DQ serologic specificities DQw1, 2, 3 or "blank." Although most DQ alpha 5+ cells carry the DRw52 specificity associated with the DR beta 2 gene, analysis of DQ alpha polymorphisms on DR5, DQw1; DR8, DQw1; and DRw13, DQw1 cells verified that this DQ alpha family of alleles was not invariably linked to the DR beta 2 locus.     

Class II genes of the human major histocompatibility complex. The DO beta gene is a divergent member of the class II beta gene family

A novel class II beta chain gene is described. This gene, tentatively called DO beta, displays considerably less polymorphism than beta genes of the DP, DQ, and DR loci. The nucleotide sequence of the DO beta gene is strikingly similar to that of the previously identified murine A beta 2 gene. The DO beta gene displays the same exon/intron organization as other beta genes although the fifth exon and the translated portion of the sixth exon are longer than in other genes. A striking feature of the amino acid sequence deduced from the DO beta gene sequence is the pronounced hydrophobicity of the NH2-terminal region. This feature distinguishes the putative DO beta chain from other class II beta chains and raises the possibility that DO beta chains may interact with an alpha chain that is structurally different from those of the DP, DQ, and DR loci. It further suggests that the putative DO molecule may have a function different from those of other class II antigens.     

A novel association of DQ alpha and DQ beta genes in the DRw10 haplotype. Determination of a DQw1 specificity by the DQ beta-chain

The association of the class II genes of the DRw10 haplotype from a cell line, NASC, initiated from a member of a well characterized family, was analyzed by sequencing cDNA clones corresponding to DR beta I, DQ alpha, and DQ beta genes. An identical haplotype was also identified in the Raji cell line. In addition to typing as DRw10 and DQw1 with HLA typing sera both, the NASC and Raji cell lines were shown to react strongly with the monoclonal antibodies 109d6 (specific for DRw10 beta 1 and DRw53 beta 2 gene products) and Genox 3.5.3 (specific for DQw1) and exhibited the restriction fragment length polymorphism indicative of a DRw10, DQw1 haplotype. The DR beta 1 gene corresponding to the DRw10 specificity was found to have a first domain sequence different from all other DR beta I genes. Sequence analysis of the 3'-untranslated region of this DR beta-chain gene showed a significant divergence from the 3' untranslated region of the DRw53 family of haplotypes and a lesser divergence from that of the DRw52 and DR1/DR2 families. The sequence of the DQ beta genes corresponding to the DQw1 specificity in the DRw10 haplotype was found to be identical to the DQ beta gene from a DR1, DQw1 haplotype. Surprisingly, however, the DQ alpha gene did not resemble other DQw1-like DQ alpha genes, but was identical in sequence to the DQ alpha gene found in DR4 haplotypes. The novel association of DQ alpha and DQ beta genes in the DRw10 haplotype revealed in these studies may result from a double recombinational event. More consequentially, these studies strongly suggest that the DQw1 specificity recognized by Genox 3.5.3 is determined by the DQ beta chain and is not affected by the DQ alpha-chain.     

Restriction fragment length polymorphisms of horse class II MHC genes observed using various human alpha-and beta-chain cDNA probes

Genomic DNA isolated from 20 horses was digested with up to six restriction endonucleases and subjected to southern blot hybridization analysis using various human class II alpha- and beta-chain cDNA probes. A high degree of restriction fragment length polymorphism (RFLP) was found for the DQ alpha, DP beta, DQ beta and DR beta probes, about 20 polymorphic bands being detected for each. DR alpha showed 2-4 polymorphic bands, whereas no evidence for DP alpha-like genes was found. A number of correlations of RFLPs with individual alloantisera were apparent.     

Chemical cross-linking of Ia alloantigen alpha and beta chains with dimethyl 3,3'-dithiobispropionimidate.

We have examined the polypeptide chain composition of membrane-bound and detergent-solubilized Ia antigens using the chemical cross-linking reagent dimethyl 3,3'-dithiobispropionimidate (DTBP). Products of the I-E/C subregion of the major histocompatibility complex, which were solubilized from spleen cells with the detergent NP-40 and partially purified by affinity chromatography on lentil lectin-agarose, could be almost completely cross-linked by DTBP. Thus, the characteristic 33,000 m.v. (alpha) and 28,000 (beta) polypeptide chains seen on sodium dodecylsulfate polyacrylamide gels disappeared and a major new species of 60,000 m.w. appeared after cross-linking. When isolated and reduced with 2-mercaptoethanol, the 60,000 m.w. peak was found to be comprised to alpha and beta chains. Similar results were obtained when I-E/C, as well as I-A, alpha and beta chains were crosslinked on the cell surface. These data demonstrate that the alpha and beta chains of the Ia antigens exist primarily in the form of a dimer both in detergent solution and in situ.