Complementary DNA sequence of the HLA-B*3924 allele

We have isolated the complete coding region of HLA-B*39 from a Spanish Caucasoid, using a new PCR primer for its 5' untranslated region. The cDNA matched partial genomic sequences of B*3924, an allele whose distribution appears to be restricted to Mediterranean and Arabian Caucasoids. A single amino acid change exclusive to B*3924 (threonine-98) distinguishes it from B*3903.

Specific amplification of the HLA-DRB4 gene from c-DNA. Complete coding sequence of the HLA alleles DRB4*0103101 and DRB4*01033

We present the complete coding sequence of the HLA alleles DRB4*0103101 and DRB4*01033 derived from the lymphoblastoid cell line G081, established from an individual of Spanish Gypsy ethnic origin. This cell was typed by PCR-SSP and reverse SSO as DRB4*0103101 but further characterization of the DRB4 gene by sequence-based typing (SBT) demonstrated heterozygosity at codon 78 (TAC, TAT). With the aim of confirming this polymorphism, RNA isolated from G081 was subjected to RT-PCR using primers designed to recognize specifically the 5' and 3' UT regions of HLA-DRB4 and the product was cloned and sequenced. Nucleotide sequences derived from seven clones confirmed the heterozygosity of G081, as they corresponded to two open reading frames of 801 nucleotides that matched either DRB4*0103101 or the recently described DRB4*01033, for which a partial sequence, spanning exons 2 and 3, has been reported. The phenotype of G081 (A*01; B*0702, *1302/1303; Cw*0602, *07; DRB1*0403, *0701; DRB4*0103101, *01033; DQB1*0202, *0302; DQA1*0201, *0301) is consistent with a proposed association of DRB4*01033 with DRB1*0403 and DQB1*0302.

Different NK cell surface phenotypes defined by the DX9 antibody are due to KIR3DL1 gene polymorphism

KIR3DL1 and KIR3DL2 are NK cell receptors for polymorphic HLA-B and -A determinants. The proportion of NK cells that bind anti-KIR3DL1-specific Ab DX9 and their level of binding vary between individuals. To determine whether these differences are due to KIR polymorphism, we assessed KIR3D gene diversity in unrelated individuals and families. Both KIR3DL1 and KIR3DL2 are highly polymorphic genes, with KIR3DS1 segregating like an allele of KIR3DL1. A KIR haplotype lacking KIR3DL1 and KIR3DS1 was defined. The two KIR3DL1 alleles of a heterozygous donor were expressed by different, but overlapping, subsets of NK cell clones. Sequence variation in KIR3DL1 and KIR3DL2 appear distinct; recombination is more evident in KIR3DL1, and point mutation is more evident in KIR3DL2. The KIR3DL1 genotype correlates well with levels of DX9 binding by NK cells, but not with the frequency of DX9-binding cells. Different KIR3DL1 alleles determine high, low, and no binding of DX9 Ab. Consequently, heterozygotes for high and low binding KIR3DL1 alleles have distinct subpopulations of NK cells that bind DX9 at high and low levels, giving characteristic bimodal distributions in flow cytometry. The Z27 Ab gave binding patterns similar to those of DX9. Four KIR3DL1 alleles producing high DX9 binding phenotypes were distinguished from four alleles producing low or no binding phenotypes by substitution at one or more of four positions in the encoded protein: 182 and 283 in the extracellular Ig-like domains, 320 in the transmembrane region, and 373 in the cytoplasmic tail.

Identification of seventeen novel KIR variants: fourteen of them from two non-Caucasian donors

The killer-cell immunoglobulin-like receptors (KIR) expressed by human natural killer (NK) cells are encoded by a family of genes on chromosome 19. The number of KIR genes varies with haplotype and the individual genes exhibit polymorphism. To investigate KIR diversity we studied KIR cDNA and genes of four human donors: two Caucasians, one Black American and one Asian Indian. From analysis of these donors seventeen novel KIR variants were identified and characterized. Fifteen of the new variants appear to have a simple allelic relationship with a known KIR, whereas two of them combine the sequences of two different KIR genes. Fourteen of the seventeen KIR variants were isolated from the two non-Caucasoid blood donors. These data show that much human KIR diversity remains to be characterized, particularly in non-Caucasoid populations.

Gene structure and promoter variation of expressed and nonexpressed variants of the KIR2DL5 gene

Two variants of the novel KIR2DL5 gene (KIR2DL5.1 and.2) were identified in genomic DNA of a single donor. However, only the KIR2DL5.1 variant was transcribed in PBMC. In this study, analysis of seven additional donors reveals two new variants of the KIR2DL5 gene and indicates that transcription, or its lack, are consistently associated with particular variants of this gene. Comparison of the complete nucleotide sequences of the exons and introns of KIR2DL5.1 and KIR2DL5.2 reveals no structural abnormalities, but similar open reading frames for both variants. In contrast, the promoter region of KIR2DL5 shows a high degree of sequence polymorphism that is likely relevant for expression. Substitution within a putative binding site for the transcription factor acute myeloid leukemia gene 1 could determine the lack of expression for some KIR2DL5 variants.

Discovery of two novel variants of KIR2DS5 reveals this gene to be a common component of human KIR 'B' haplotypes

The gene encoding the non-inhibitory receptor KIR2DS5 has so far been represented by a single cDNA sequence, NKAT9. A previous study by polymerase chain reaction using sequence-specific primers (PCR-SSP) failed to detect NKAT9 in genomic DNA of 52 donors, which suggested that KIR2DS5 could be a rare gene. Here, we have characterized two novel variants of KIR2DS5 that differ from NKAT9 by 8 and 10 nucleotide substitutions. The frequency of KIR2DS5 was then re-assessed by PCR-SSP using primers specific for conserved sequences of all three known KIR2DS5 variants. We found KIR2DS5 is not a rare gene, but one present in 26% of 34 donors representing the major ethnic groups. Like other non-inhibitory KIR, the distribution of KIR2DS5 is restricted to the 'B' subset of KIR-gene haplotypes. Transcription of the KIR2DS5 gene was studied by reverse transcriptase (RT)-PCR in natural killer (NK) cells from one donor and shown to follow the clonal distribution seen for most other KIR genes.

Genes encoding human killer-cell Ig-like receptors with D1 and D2 extracellular domains all contain untranslated pseudoexons encoding a third Ig-like domain

Human killer-cell immunoglobulin-like receptors (KIR) show three types of organization of their extracellular domains: D0-D1-D2 in KIR3D, D1-D2 in the majority of KIR2D, and D0-D2 in KIR2DL4 and the novel KIR2DL5. The gene for a KIR2DL3 variant, which has a D1-D2 structure, has been shown previously to have a nonexpressed region (pseudoexon 3) that is paralogous to the exon encoding the D0 domain of other KIR. This pseudoexon is not expressed because it is skipped during splicing of pre-mRNA. In this study, we demonstrate that all eight genes encoding human KIR with D1-D2 configuration (KIR2DL1-KIR2DL3, KIR2DS1-KIR2DS5) have similarly untranslated pseudoexons. Whereas the pseudoexons of four of these KIR genes bear nonsense mutations and/or altered splicing sites, the pseudoexons in the other four KIR genes have no major structural abnormalities, indicating that other mechanisms are responsible for inactivation of their exons 3. A comparison of the sequences on pseudoexons 3 with the paralogous expressed exons suggests that an exonic splicing enhancer may be necessary for the expression of exon 3 in KIR genes.

KIR2DL5, a novel killer-cell receptor with a D0-D2 configuration of Ig-like domains

Four novel killer-cell Ig-like receptor (KIR) genes were discovered by analysis of genomic DNA from a human donor. One gene, KIR2DL5, is expressed by subpopulations of NK cells and T cells, whereas expression of the other three genes could not be detected. KIR2DL5 has two extracellular Ig-like domains of the D0 and D2 type, a structural configuration that was previously unique to KIR2DL4. Although having a similar structure overall, the KIR2DL4 and KIR2DL5 receptors have distinctive amino acid sequences in the ligand-binding extracellular domains and differ in the transmembrane and cytoplasmic motifs that determine signal transduction. Whereas the KIR2DL4 gene is present on all KIR haplotypes and is expressed by all human NK cells, the KIR2DL5 gene is restricted to the "B" subset of KIR haplotypes and is clonally expressed by NK cells within an individual. Chimpanzee genes for KIR2DL4 and KIR2DL5 have been defined and are very similar in sequence to their human orthologs. The donor in whom KIR2DL5 was first detected bears two variants of it that differ by five nucleotide substitutions in the coding region. Although the substitutions are not predicted to affect gene expression, transcription of only one of the two KIR2DL5 variants could be detected.

Strong association between HLA-Cw*0706 and HLA-B*44032 in the Bubi population from Equatorial Guinea

Unrelated Bubi, native to the island of Bioko (Equatorial Guinea), were previously typed by low-resolution polymerase chain reaction using sequence-specific primers (PCR-SSP) and serology for HLA-A, -B and -C. HLA-B*44 was found frequently and associated with Cw*07. We have studied the HLA subtypes of 20 B*44pos/Cw*07pos Bubi individuals. HLA-B and -C were typed by sequencing exons 2 and 3. To distinguish the alleles Cw*1701/02/03, Cw*07011/012/06 and Cw*1801/02 additional sequencing of exon 1 or 5 was performed. All 20 B*44pos/Cw*07pos individuals of the Bubi population were typed Cw*0706 positive. Nineteen of them carried the B*44032 allele and one B*4407. In addition, 19 B*44neg/ Cw*07pos Bubi individuals were typed for HLA-C and none of them proved Cw*0706 positive. To determine whether the association between Cw*0706 and B*44032 was limited to the Bubi, 19 individuals from Dutch Caucasian families were typed in which B44 and Cw7 segregated on one haplotype. None of these individuals showed the presence of B*44032 or Cw*0706. The haplotypes found in the Dutch Caucasians were B*4402-Cw*0704, B*44031-Cw*07011 and B*44031-Cw*0702. The present observation indicates a strong association between B*44032 and Cw*0706 in the Bubi population.

A new HLA-Cw*15 allele, Cw*1508, identified in the Peruvian population

A novel HLA-Cw*15 allele , Cw*1508, has been found in the Peruvian population. This new allele, initially detected as a polymerase chain reaction with sequence-specific primers (PCR-SSP) variant, shows greatest similarity to Cw*1502. The nucleotide sequence of Cw*1508 only differs from that of Cw*1502 at position 539; this change determines the replacement of Leu by Arg 156 in Cw*1508.

[The factors related to eating behaviors in a juvenile urban population]

OBJECTIVE

To find certain personal and social factors relating to the attitudes to food and the nutritional habits of young people.

DESIGN

Observational, crossover study with randomised distribution.

SETTING

Txantrea, a quarter of Pamplona with 20,578 inhabitants and with 1739 14 to 19-year olds in school.

PARTICIPANTS

Sample of 465 people between 14 and 19, randomised and stratified for age.

RESULTS

Under the life-style heading, 69% (64.3-73) tried to eat a varied diet; 56% (51.3-60.5) took part in the choice of family meals; and 52% (47, 3-56.3) ate snacks. On personal questions, 67% (62.3-71.1) said they had quite a lot or a lot of interest in diet; 50% (45.3-54.5) said they were quite concerned or very concerned about their diet; 22% (18.3-25.9) thought themselves obese or slightly obese, whereas 8% (5.7-10.9) were in fact obese. 71% (66.7-74.9) were satisfied with their physique. 28% (24.1-32.2) had been on a diet. 81% (76.7-84.6) thought that young people gave a lot or quite a lot of importance to their physique. 78% (73.9-81.4) thought that the communication media had a lot or quite a lot of influence on the life-styles of young people. On education and information, 33% (28.7-37.3) thought they were well-informed on dietary questions, basically by the family. 38% (33.5-42.3) thought they were good or very good at cooking. 58% (53.3-62.3) said they were available for training in nutrition. The people with more interest in nutritional questions were more concerned and better informed. Being female was associated with: more interest and concern, having followed a diet, the view that the media had a big influence, feeling pressured by the family to eat more and availability for education. Being male was associated with: satisfaction with their physique, and thinking they were very thin, thin or balanced.

CONCLUSIONS

Critical attitudes to the influence of the media were seen. There was a lot of concern about, and interest, in, nutrition. There was also quite a lot of not very healthy behaviour.

On the nature of "HLA-B42" alloantibodies. Specific reagents for HLA-Cw*17?

An almost complete and bidirectional association exists between HLA-Cw*17 and the HLA-B antigens B41 and B42. Serological and molecular analysis of an individual in which HLA-B*4101 was identified in the absence of Cw*17 provides experimental evidence to prove a previously proposed hypothesis predicting that alloantisera classified as "B41+B42" are instead specific reagents for HLA-Cw*17.

Diversity of HLA-B61 alleles and haplotypes in East Asians and Spanish Gypsies

The distribution of HLA-B61 alleles and their association with HLA-C and DRB1 alleles were investigated in six East Asian populations (South Korean, Chinese Korean, Man (Manchu), Northern Han, Mongolian and Buryat) and Spanish Gypsies and compared to our previous report on the Japanese population. The alleles were identified using a group-specific polymerase chain reaction (PCR) and genomic DNA followed by hybridization with sequence-specific oligonucleotide probes (SSOP). Both HLA-B*4002 and B*4006 were commonly detected in the South Korean, Chinese Korean, Man, Northern Han and Japanese populations, while HLA-B*4002 was predominant in the Mongolian and Buryat populations. Strong associations of B*4002 with Cw*0304 and of B*4006 with Cw*0801 were commonly observed in these East Asian populations. In contrast, in Spanish Gypsies, only HLA-B*4006 was found and the allele exhibited a strong association with Cw*1502. HLA-B*4003 was also identified in the South Korean, Chinese Korean, Northern Han, Mongolian and Japanese populations at relatively low frequencies, and exhibited an association with Cw*0304. Moreover, the association of these B61 alleles with the DRB1 alleles revealed considerable diversity among the different populations. HLA-B*4004 and B*4009 were not observed in these populations. Consequently, the frequencies of the B61 alleles varied among the different East Asian populations, but the individual B61 alleles were carried by specific haplotypes often regardless of the ethnic differences.

Allele-specific HLA-B*15 typing by PCR-SSP and its application to four distinct ethnic populations

We present a set of primer mixes for the allele-specific typing of the HLA-B*15 group by PCR-SSP. The set comprises 46 primer mixes which are designed to unequivocally resolve all but two of the 666 possible combinations of the B*15 alleles, B*1501-37 (B*1536 sequence unavailable). A core subset of 34 of the 46 mixes can be used alone to give a high resolution B*15 typing set. This allows for the identification of each B*15 allele when present as the only B*15 allele and the majority of the possible B*15 homozygotic combinations. The method was validated using reference DNA samples and the B*15 allele frequency in 4 distinct ethnic populations was investigated. The results show that these populations contain predominantly mutually exclusive sets of B*15 alleles.

A new pair of HLA-C alleles, Cw*12042 and Cw*1203, differing at the KIR-related dimorphism of codons 77-80

A previously unknown HLA-C variant of the Cw*12 group was identified by PCR-SSP from genomic DNA of cell NDS-JD. Molecular cloning and nucleotide sequence analysis permitted the characterization of the complete coding region of this new allele, Cw*12042. The new variant differs from the recently reported Cw*12041 by two silent changes at exons 2 and 3, and from Cw*1203 by coding changes at codons 77 and 80. Cw*1203 (Ser-Asn) and Cw*12042 (Asn-Lys) constitute the second known example of HLA-C alleles only differing at the KIR-related dimorphism of residues 77-80. The new allele is associated in cell NDS-JD with the haplotype HLA-A*2403, Cw*12042, B*51, DRB1*1502, DRB5*0102, DQB1*0601, possibly related from the evolutionary aspect to the ancestral haplotype A*2402, Cw*1202, B*5201, DRB1*1502, DRB5*0102, DQB1*0601.

HLA-Cw*1602: a new susceptibility marker of Behçet's disease in southern Spain

Genotyping of the HLA-C locus by PCR-SSP in Behçet's disease patients from southern Spain reveals a statistically significant association with Cw*1602 (OR 20.15, corrected p < 0.05). This is an uncommon allele absent from the healthy control group, which seems to confer higher relative risk than B51 in this study (OR 1.85). Stratified frequencies do not show statistically significant differences but suggest that the Cw*1602-B51 haplotype could be the main HLA marker of Behçet's disease in the analyzed population.

HLA class I and class II allele distribution in the Bubi population from the island of Bioko (Equatorial Guinea)

We determined the HLA frequency distribution in a sample of 100 Bubi individuals born on the island of Bioko (Equatorial Guinea). HLA-A, -B and -C typing was performed by serology and PCR-SSP. DRB1/3/4/5, DQB1 and DQA1 alleles were determined by PCR-SSOP. The HLA allele distribution of this population group resembles those found in other Bantu-speaking groups; however, the higher frequency of A30, A32, B44, DRB1*1301 in the Bubi with respect to other Bantu groups and the absence of DR4 deserve special mention. The cloning and sequencing of class I and II genes in this population allowed the description of five new allelic variants: B*4407, Cw*0706, Cw*1801, Cw*1802 and DQB1*0612 and five confirmatory sequences: B*3910, B*5703, B*8101, Cw*1203 and Cw*1701. The following new HLA-C,B haplotypes have been found in Bubi: Cw*08-B*57, Cw*18-B*57, Cw*0302-B*53, Cw*07-B*53 and Cw*1601-B*63. The most frequent seven-locus haplotype is: A*30-Cw*17-B*42-DRB1*1102-DRB3*0202-DQA1*05-DQB1 *0301. In terms of genetic distance, the Bubi are closer to other Bantu groups than to West African populations.

High resolution HLA-C typing by PCR-SSP: identification of allelic frequencies and linkage disequilibria in 604 unrelated random UK Caucasoids and a comparison with serology

Recent evidence indicates that HLA-C molecules are biologically relevant by eliciting T-cell responses and exerting control over NK cell function. In addition, HLA-C is associated with susceptibility to various diseases, notably psoriasis vulgaris. Clarification of the full biological roles for HLA-C has however proved difficult because detection of HLA-C antigens by complement mediated cytotoxicity using alloantisera is inefficient. Up to 50% of individuals in every race have serologically undetectable HLA-C locus antigens due to a combination of relatively low expression, lack of serological reagents and a lack of information about the distribution of the HLA-C blank alleles. Recently, amplification of DNA using sequence-specific primers (PCR-SSP) has proved a reliable, accurate and rapid method for medium resolution HLA-C typing. We have now developed high resolution HLA-C typing by PCR-SSP utilizing allele and group-specific PCR-SSP reactions which can identify all HLA-C alleles (except non-coding change alleles) in most heterozygous combinations. Using this system we have typed 604 unrelated United Kingdom Caucasoids to generate accurate frequency and linkage disequilibrium data. To assess the validity of serology for HLA-C, PCR-SSP typings for 527 out of the 604 individuals were compared to serology. We find that the frequency of many HLA-C antigens has been underestimated by serology and some antigens such as Cw6 are consistently assigned incorrectly by serology. The overall discrepancy rate between serology and SSP was high at 37% (195/527). High-resolution HLA-C typing of 112 International Histocompatibility Workshop cell lines has also been performed.

Complete coding regions of two novel HLA-B alleles detected by phototyping (PCR-SSP) in the British caucasoid population: B*5108 and B*5002

Two previously reported PCR-SSP variants of the HLA-B locus, B51GAC and B45v, were investigated by RT-PCR cloning and nucleotide sequence analysis of their complete coding regions. They have been shown to correspond to the new alleles B*5108 and B*5002, both of which differ from the common B*5101 and B*5001 subtypes, respectively, by amino acid replacements at their alpha-2 domain alpha-helices. The primary structure of B*5002, intermediate between those of B*4501 and B*5001, raises further concern about the current classification of B*45 as a B12 rather than as a B*50 subtype.

The novel HLA-Cw*1802 allele is associated with B*5703 in the Bubi population from Equatorial Guinea

The HLA-Cw*1801 specificity, a Cw7/Cw4 hybrid allele, has recently been described in association with B*8101 (formerly B"DT"). In this study, the new Cw*1802 variant, differing from Cw*1801 at exon 5, is found associated with B*5703 in Bubi individuals from Equatorial Guinea. Confirmatory complete coding regions of B*5703 and B*3910 are also reported.

The complete primary structure of Cw*1701 reveals a highly divergent HLA class I molecule

Genotyping of the HLA-C locus by PCR-SSP has previously shown 100% association of B41 and B42 with a new allelic variant. Partial sequencing studies (exons 2-4) demonstrated that this PCR-SSP variant corresponded to the new allele Cw*1701. In this study we have characterized the whole coding region of Cw*1701 from a Bubi individual of Equatorial Guinea. Our results partially confirm the previously reported sequence and reveal that Cw*1701 has many new polymorphisms at several exons, including a 18-bp insertion in exon 5. Cw*1701 is thus a most unusual HLA-C molecule defining a third allelic lineage of this locus.

Molecular cloning of two new HLA-C alleles: Cw*1801 and Cw*0706

Nucleotide sequence analysis of the HLA-C alleles of the GB92 cell line, heterozygous for B*8101 and B*4407, revealed the existence of two new allelic variants: Cw*1801 and Cw*0706. The former allele, initially detected as a PCR-SSP variant, displays a hybrid aspect, sharing sequence motifs with Cw*07 at exons 1 and 2, and with Cw*04 at distal exons. In serological assays, Cw*1801 is only recognized by some cross-reactive sera. Cw*0706 shows a primary structure closely related to previously known Cw7 alleles, but carries new sequence motifs at its 3'-end. Preliminary data indicate that Cw*1801 is associated to B*8101 and that Cw*0706, B*4407 could account for a part of the Cw7, B44 haplotypes observed in African populations.