Identification of a new HLA-C allele, Cw*0316, by sequence-based typing

The presence of a new allele, Cw*0316, was detected in a Caucasian individual through an unusual association. Molecular typing of the individual by sequence-specific primers and sequence-specific oligonucleotides showed the presence of B*58, B*41 and Cw*17. Sequence-based typing revealed the additional presence of another human leucocyte antigen-C allele. The new allele showed four nucleotide differences with Cw*030202 at positions 559, 560, 589 and 594 in exon 3, leading to three codon changes, codons 187, 197 and 198. This resulted in two amino acid substitutions at positions 163 (L-T) and 173 (K-E) of the mature protein, which proved sufficient to abrogate serological reactivity with Cw3-specific sera.     

Identification of a novel HLA-C allele, Cw*0406, in a Singapore Malay

A novel allele, C*0406, has been identified and is characterised by a single nucleotide substitution at position 196 of exon 3 when compared with its closest related allele, C*0403. The latter is found in 4/69 Chinese and 7/80 Malays while Cw*0406 was found in only one Malay individual within the study populations. The data suggest that Cw*0406 may have arisen as a relatively recent genetic event either by gene conversion or as a simple point mutation variant of Cw*0403.     

A frame shift due to a two-nucleotide deletion results in an HLA-B null allele, B*9549N

This report describes the identification of a new human leukocyte antigen (HLA) class I null allele, B*9549N, resulting from a premature stop codon in exon 3.     

A deletion in exon 3 results in a new HLA-A*01 null allele (A*0115N) in a Martinican woman

We report the identification of a new HLA-A null allele, HLA-A*0115N. This null allele has been identified within the A*01 group by a combination of serological and molecular typing [Polymerase chain reaction (PCR) sequence-specific primers, PCR sequence-specific oligoprobes and sequence-based typing (SBT)] in a potential intrafamilial bone marrow donor from Martinique (French West Indies). To characterize this A*01 null allele, we performed DNA typing by PCR-SBT on genomic DNA from the beginning of exon 2 (position 84) through the end of the exon 4 (position 895) and revealed a nucleotide deletion at the end of the exon 3. This sole difference between the new allele and the HLA-A*0101 generates a premature stop codon (TGA) in the beginning of exon 4. This deletion most likely explains the lack of cell surface expression of the encoded protein despite the presence of A*01 allele. The absence of correct expression of the antigen on the cell surface was confirmed by one-dimensional isoelectric focusing (1D-IEF). To date, this is the fourth null allele described within the A*01 group.     

Identification of an HLA-C variant allele, Cw*0805, by sequencing based typing

Abstract: We have identified a. variant HLA-C allele, Cw*0805, in DNA isolated from a blood sample used in the UK National External Quality Assessment Scheme for Histocompatibility and Immunogenetics. The DNA was initially typed by PCR-SSP and PCR-SBT as Cw*0802, 1602 with a single mismatch in exon 2 of one of the alleles. The two HLA-C alleles were separated by locus- and allele-speciflc PCRs and sequencing analysis showed that the Cw*0802 allele was variant in this sample, with a single mismatch in exon 2 at position 289.     

HLA-C typing of eleven Papua New Guineans: identification of an HLA-Cw4/Cw2 hybrid allele

HLA-C polymorphism of 11 individuals from Papua New Guinea was studied by serology and DNA typing (SSP ARMS-PCR). To resolve certain discrepancies HLA-C alleles were cloned and sequenced. Five alleles were identified by sequencing, four of which; Cw*0304, Cw*0401, Cw*12022 and Cw*1502 have been identified previously in other populations. The fifth allele, which was found in four individuals is a novel HLA-C allele. The new allele, called HLA-Cw*0403 is most similar to HLA-Cw*0401, differing by 10 nucleotides, 9 of which are located in the region from nucleotide 98 to 218. This region of Cw*0403 is identical to both HLA-Cw*0201 and Cw*02022. The 9 nucleotide differences between Cw*0401 and Cw*0403 result in 6 amino acid differences in the α1 domain. These amino acids in Cw*0403 may contribute to the serological typing of some, but not all Cw*0403 expressing cells. The Final difference between Cw*0401 and Cw*0403 is a coding substitution at nucleotide 979 in exon 5. The guanine found in Cw*0403 is identical to all HLA-C alleles except HLA-Cw*0401, which has an adenine. The Cw*0403 allele was most likely formed by a gene conversion event between Cw*02 and Cw*04, involving a minimum of 121 to a maximum of 215 nucleotides.     

Identification of the novel HLA-C allele Cw*0751

We report the novel HLA-Cw allele HLA-Cw*0751. The allele was identified during routine sequence-based typing in our laboratory. The novel allele is identical to Cw*07020101 except for a single nucleotide change in codon 90.2 in position 268. HLA-Cw*0751 allele possesses an adenine at position 268 in exon 2, while HLA-Cw*07020101 has a cytosine at this position. Although this substitution does not change serologic reactivity of HLA-Cw7 molecule, it changes the amino acid at codon 90 from an aspartic acid to an alanine. Aspartic acid is polar and acidic, while alanine is non-polar and neutral.     

HLA-C sequence based typing: nucleotide analysis from exon 1 through exon 8. Identification of a new allele: Cw*0718

At present, 128 HLA-Cw alleles have been described. Twenty-four of 128 display critical polymorphisms in contributing to allele identification outside exons 2 and 3. As a matter of fact, complete resolution of Cw*030201, Cw*030202, Cw*0409N, Cw*0501, Cw*0503, Cw*070101, Cw*070102, Cw*070401, Cw*0706, Cw*0711, Cw*0718, Cw*120201, Cw*120202, Cw*150501, Cw*150502, Cw*1701, Cw*1702, Cw*1703, Cw*1801 and Cw*1802 alleles requires nucleotide analysis of exons 1, 4, 5, 6 and 7. Moreover, some alleles (Cw*04010101, Cw*04010102, Cw*07020101 and Cw*07020102) showing nucleotide differences outside the coding regions of HLA-C gene (intron 2) have been reported. High resolution sequence based typing (SBT) developed in this study involves two DNA amplifications and 12 direct sequencing reactions and allows the analysis of HLA-C polymorphisms from exon 1 through exon 8, including intron 2. This typing procedure identifies all 128 Cw alleles described so far. Nevertheless, a number of ambiguous heterozygous typing results may be expected, this being the major drawback of SBT methods. A total of 201 samples were HLA-C typed using SBT strategy here described. The sequence of exons 6, 7 and 8 of HLA-Cw*070102 allele was elucidated. A novel HLA-Cw*07 allele, Cw*0718, was identified in two samples. Cw*0718 differs from the Cw*070101 allele by a unique nucleotide position within exon 6, resulting in an amino acid substitution at codon 324 (Ala-->Val) in the cytoplasmic region of the molecule.     

Identification of a new HLA-A null allele,A*2436 N

We describe a new HLA-A null allele in a donor. This null allele resulted from the deletion of two nucleotides in exon 2, which effects a frameshift as well as a premature stop codon. This new null allele has been officially named HLA-A*2436 N.     

Identification of the null HLA-A2 allele, A*0232N

We have identified a null HLA-A*02 allele, HLA-A*0232N, by using a combination of serology, flow cytometry, polymerase chain reaction using sequence-specific primers (PCR-SSP) and full-length sequencing. The null HLA-A2 allele was identified in an Asian individual originally typed by serology as an apparently homozygous HLA-A3, B51. Subsequent genotyping by PCR-SSP identified the genotype as HLA-A*0201, *0301, B*51, Cw*1402. The serological type and lack of detectable HLA-A2 was confirmed using monoclonal antibody typing reagents. Flow cytometry studies failed to identify any cell surface HLA-A2 expression on the patient's peripheral blood lymphocytes. Genotyping using a PCR-SSP set designed to detect null alleles revealed the mutation had not been previously described. Full-length sequencing of the allele identified an allele which was subsequently named HLA-A*0232N. This allele is identical to HLA-A*0201 except for a novel point mutation (T for C) at position 493 which creates a premature stop codon. The sequencing enabled the development of a monospecific A*0232N PCR-SSP reaction which was used to screen 973 DNA samples: no further examples of A*0232N were identified.     

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

Abstract: 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, DQBl*0601.     

An HLB-B null allele (B*0808N) caused by a nucleotide deletion in exon 3, found in the family of a bone marrow transplant recipient

We have identified a variant HLA-B allele, B*0808N, segregating through two generations of healthy individuals, whilst HLA typing the family of a bone marrow patient. Serological typing identified a disparity between the father (A1, A3 B7 DR7) and the brother (A1, A2 B56 DR1, DR7) of the patient. Low/medium resolution polymerase chain reaction using sequence-specific primers (PCR-SSP) revealed a B*08 allele undetectable by serological methods. High resolution DNA typing by polymerase chain reaction-sequencing based typing (PCR-SBT), revealed a nucleotide deletion at position 131 (C) in exon 3, the only difference between the new allele and B*0801. The deletion results in a frame shift in the protein coding sequence, introducing a premature termination codon (TGA) in exon 4. Although a B*08 allele is present in these individuals, the deletion prevents correct expression of the antigen on the cell surface.     

Identification of a new HLA-B null allele,B*1817 N,in a family

We describe a new HLA-B null allele found in a daughter and her mother. This null allele was due to a mutation at position 41 of exon 1 which resulted in a premature stop codon. This new null allele was officially named HLA-B*1817N*.     

A nucleotide deletion in exon 4 is responsible for an HLA-A null allele (A*0105N)

We report herein the identification of a new HLA-A null allele. This allele, A*0105N, was detected during histocompatibility testing of a cord blood donor and the respective mother. Serologic typing results contrasted those obtained with DNA typing that alone showed the presence of HLA-A*01. ThisA*0105N was due to a nucleotide deletion in exon 4 that altered the reading frame, causing a premature termination.     

HLA-DR51 expression failure caused by a two-base deletion at exon 2 of a DRB5 null allele (DRB5*0110N) in a Spanish gypsy family

Here we describe a new HLA class II null allele at the DRB5 gene. Serologic HLA typing of a Spanish gypsy family rendered the following paternal haplotype: A2-Cblk-B52-Bw4-DR15-DQ5. However, DNA typing demonstrated the presence of a DRB5 gene in the haplotype DRB1*1502-DRB5*0102-DQB1*05031. Complete DRB5 cDNA sequencing revealed a DRB5*0102 allele with a deletion of two nucleotides at exon 2 (239-240) in codon 80. This change generates a frame shift leading to a stop codon at position 86, and could explain the lack of DR51 protein at the cell surface. This is the second DRB5 null allele described together with DRB5*0108N, raising the number of HLA alleles with an expression disorder.     

A nonsense mutation in exon 3 results in the HLA-B null allele B*5127N

A new HLA-B null allele has been identified within the B*51 group by combined serological and molecular typing of an Italian Caucasoid family. Serological data indicated that the proband typed homozygous for A2 and B60. Confirmatory typing using sequence specific oligonucleotide hybridization (SSPOH) detected a second B allele within the B*51 group. Allele specific typing (SSP) for B*51 subtypes, including the known B*5111N allele, was performed, and typing results were consistent with B*5101, suggesting the presence of a new null variant. Cloning and sequencing of this allele identified a B*5101 variant with a nonsense mutation in exon 3. This new null allele has been designated B*5127N. The combined use of serologic and DNA-based typing methods facilitates the identification of null and low-expression alleles. An overview of null alleles of class I HLA is presented.     

Sequence analysis of the novel HLA-Cw*08 variant allele, Cw*0820, in a Chinese Han individual

A novel human leukocyte antigen (HLA) allele, HLA-Cw*0820, was identified in a Chinese Han individual. It differs from the closest allele Cw*080101 by single nucleotide change at genomic nucleotide (nt) 1615 G>A (coding sequence nt 652 G>A, codon 194 GTC>ATC) in exon 4, which results in an amino acid change Val194Ile.