DLA-DQA1 polymorphisms in dogs defined by sequence-specific oligonucleotide probes (SSOP)

Several recent studies have identified DNA sequences for alleles of the DLA-DQA1 locus in the dog. To date, 10 DQA1 alleles have been reported. No data exists on the frequencies of these alleles within the general dog population, nor is there any indication of whether alleles are breed specific. We have addressed this issue by establishing a molecular-based sequence-specific oligonucleotide probing (SSOP) method to identify all published DQA1 alleles and have used these methods to type a large number of dogs. Oligonucleotide probes were designed to detect all the polymorphic sites in exon 2. This allowed assignment at the allele level. Three hundred and thirty dogs were typed for DQA1. All but two of the published DQA1 alleles were identified in these animals. One new allele was identified, and confirmed by DNA cloning and sequencing. This typing method provides a powerful tool for generating data that will be essential for studies investigating the genetic relationships between different breeds.     

Definition of HLA-C alleles using sequence-specific oligonucleotide probes (PCR-SSOP)

Abstract: Many new HLA-C locus alleles have recently been identified by DNA sequencing, and a molecular based method for their detection using PCR with sequence specific primers has been reported. However, other methods may be more appropriate for the identification of C locus alleles in larger studies. Here we describe one such system, based on PCR sequence specific oligonucleotide probes, (SSOP) for C locus typing. Advantages of SSOP typing compared to SSP are that it is easier to detect new alleles, more cost effective and less time consuming. We have developed a DNA typing method to identify the broad C locus antigens (including those not yet defined serologically) using a minimum of probes with one amplification. We use a C locus specific sense primer in exon 2 and a consensus antisense primer in exon 3, in a two-step PCR, giving a product of 710 bp. Probes were designed with similar melting temperatures (54–56C) that would identify as many alleles as possible. The method was established using DNA from B lymphoid cell lines of known C locus type, mostly 10th workshop homozygous cell lines, plus as many other sequenced cell lines as possible. The system was able to correctly identify their C locus types using only 26 probes. DNA was tested from a panel of serologically typed individuals which included many different heterozygous combinations. We found a high concordance of results, with all discrepancies being additional antigens identified by molecular typing, filling in serological blanks. We can identify all common heterozygote combinations using this method.     

Nomenclature for factors of the dog major histocompatibility system (DLA), 2000: Second report of the ISAG DLA Nomenclature Committee

The ISAG DLA Nomenclature Committee met during the "Comparative Evolution of the Mammalian MHC" meeting in Manchester, England on 10th September 2000. The main points discussed were the naming of class I genes and alleles, and the inclusion of alleles from other canidae.     

Nomenclature for factors of the dog major histocompatibility system (DLA), 1998. First report of the ISAG DLA Nomenclature Committee

A Nomenclature Committee for factors of the dog major histocompatibility system or dog leukocyte antigen (DLA) has been convened under the auspices of the International Society for Animal Genetics (ISAG) to define a sequence-based nomenclature for the genes of the DLA system. The remit of this committee includes: i) assignment of gene names; ii) rules for naming alleles; iii) assignment of names to published alleles; iv) assignment of names to new alleles; and v) rules for acceptance of new alleles.     

Discrimination between HLA-DR1 (DRB1*0101) and DR'Br' (DRB1*0103) using sequence-specific oligonucleotide probes

Serological identification of the HLA-DQw1(w5)-associated or HLA-DQw3(w7)-associated DR'Br' (DRB1*0103) allele cannot be accomplished in the presence of a second DQw1(w5)-positive or DQw3(w7)-positive haplotype, respectively. DNA-restriction fragment length polymorphism (RFLP) analysis assists in identification of DR'Br', though not in the presence of DR1. We describe an alternative or complementary method for identification of DR'Br' using two oligonucleotide probes which target HLA-DRB1 gene HV3 regions.     

Association of hypothyroid disease in Doberman Pinscher dogs with a rare major histocompatibility complex DLA class II haplotype

Canine hypothyroid disease is similar to Hashimoto's disease in humans, which has been shown to be associated with human major histocompatibility complex (MHC) genes. We have collected 27 Doberman Pinschers affected with primary hypothyroid disease and compared their MHC class II haplotypes with 129 unaffected Doberman Pinschers. Three dog-leucocyte antigen (DLA) genes, DLA-DRB1, DQA1 and DQB1, were characterized by sequence-based typing and assigned to haplotypes for each dog. One rare haplotype was found at an increased frequency in the affected dogs compared to the unaffected dogs (Odds ratio = 2.43, P < 0.02). This haplotype has only been found in Doberman Pinschers and Labradors to date.     

Polymorphism of HLA-DRw52-associated DRB1 genes as defined by sequence-specific oligonucleotide probe hybridization and sequencing

We have used group-specific DNA amplification and sequence-specific oligonucleotide probe (SSOP) hybridization to study DRB1 sequence polymorphisms associated with DR3, DRw11(5), DRw12(5), DRw13(w6), DRw14(w6) and DRw8 alleles. Group-specific amplification of DRw52-associated DRB1 alleles was achieved using a 5' amplification primer designed to hybridize with a first hypervariable region (HVR) sequence common to all known alleles in this group, together with a 3' intron primer. Prospective SSOP typing of DR3, DRw11, DRw12, DRw13, DRw14 and DRw8 alleles was performed in 318 individuals, including 124 patients, 46 family members and 148 unrelated marrow donors. Among the 395 DRw52-associated DRB1 alleles tested in our study, a subtype corresponding to the previously defined alleles DRB1*0301-2 (DR3), DRB1*1101-4 (DR5), DRB1*1201-2 (DR5), DRB1*1301-5 (DRw6), DRB1*1401-2 and 1404 (DRw6), and DRB1*0801-4 (DRw8) could be assigned in all but 6 individuals (1.9%) tested. In addition to the 22 known alleles, we identified two new DRw6-associated alleles, DRB1*13.MW(1) and DRB1*14.GB(1). DRB1*13.MW typed serologically as DRw13 and was identical to DRB1*1301 except at codon 71 where AGG encodes arginine instead of GAG encoding glutamic acid. DRB1*14.GB represents a DRB1*1402 variant whose sequence at codon 86 encodes valine (GTG) instead of glycine (GGT). These results demonstrate that SSOP methods represent an efficient and precise approach for typing DRB1 alleles and for identifying potential novel variants previously unrecognized by conventional typing methods.     

Extensive interbreed,but minimal intrabreed,variation of DLA class II alleles and haplotypes in dogs

The DLA class II genes in the dog major histocompatibility complex are highly polymorphic. To date, 52 DLA-DRB1, 16 DLA-DQA1 and 41 DLA-DQB1 allelic sequences have been assigned. The aim of this study was to examine the intrabreed and interbreed variation of DLA allele and haplotype frequencies in dogs, and to ascertain whether conserved DLA class II haplotypes occur within and between different breeds. One thousand and 25 DNA samples from over 80 different breeds were DLA class II genotyped, the number of dogs per breed ranging from 1 to 61. DNA sequence based typing and sequence specific oligonucleotide probing were used to characterize dogs for their DLA-DRB1, DQA1 and DQB1 alleles. The high frequency of DLA class II homozygous animals (35%), allowed the assignment of many haplotypes despite the absence of family data. Four new DLA alleles were identified during the course of this study. Analysis of the data revealed considerable interbreed variation, not only in allele frequency, but also in the numbers of alleles found per breed. There was also considerable variation in the number of breeds in which particular alleles were found. These interbreed variations were found in all three DLA class II loci tested, and also applied to the three-locus haplotypes identified. Within this data set, 58 different DLA-DRB1/DQA1/DQB1 three-locus haplotypes were identified, which were all found in at least two different animals. Some of the haplotypes appeared to be characteristic of certain breeds. The high interbreed, and relatively low intrabreed, variation of MHC alleles and haplotypes found in this study could provide an explanation for reports of interbreed variation of immune responses to vaccines, viruses and other infections.     

Genetic basis of cranial cruciate ligament rupture (CCLR) in dogs

Cranial Cruciate Ligament rupture (CCLR) is one of the most common forms of lameness in dogs and is analogous to rupture of the anterior cruciate ligament in humans, for which it can serve as a model. As there is a strong breed-related predisposition to CCLR in dogs, a study was undertaken to consider putative genetic components in susceptible dog breeds. A candidate gene, single nucleotide polymorphism (SNP) genotyping approach using MALDI-TOF mass spectrometry (Sequenom Ltd) was designed to investigate several CCLR-susceptible dog breeds and identify CCLR-associated genes/gene regions that may confer susceptibility or resistance. A meta-analysis was performed using the breed case/control candidate gene data to identify SNP associations that were common to the whole cohort of susceptible dogs. We identified SNPs in key genes involved in ligament strength, stability and extracellular matrix formation (COL5A1, COL5A2, COL1A1, COL3A1, COL11A1, COL24A1, FBN1, LOX, LTBP2) which were significantly associated with CCLR susceptibility across the dog breeds used in this study. These SNPs could have an involvement in CCLR due to a detrimental effect on ligament structure and strength. This is the first published candidate gene study that has revealed significant genetic associations with canine CCLR.     

HLA-DRw52-associated DRB1 alleles: Identification using polymerase chain reaction-amplified DNA, sequence-specific oligonucleotide probes, and a chemiluminescent detection system

Polymerase chain reaction (PCR) primers were designed to specifically amplify exon 2 of the DRw52-associated DRB1 alleles for subsequent typing by sequence-specific oligonucleotide probe (SSOP) hybridization and chemiluminescent detection. The DRw52 DRB1 group, encoding 22 of the 44 W.H.O. designated DRB1 allelic products, was divided by differential PCR with two polymorphism-directed forward primers. Based on a polymorphism at codon 13, these forward primers separate the DRw52-associated alleles into subsets; one comprised of the alleles of DR3/DRw11/DRw6 and the other of DRw8/DRw12/DRB1*1404. The DRB1 alleles in the latter subset were then defined by SSOP hybridization to the amplified DNA. The preferential amplification also resulted in SSOP definition of 15 alleles in the DR3/DRw11/DRw6 subset but some DRw11/DRw13 heterozygous allelic combinations were still unresolved. Two reverse PCR primers specific for the polymorphism at codon 86 were used to obtain amplified material to which SSOP reactivity provided definitive identification of the ambiguous heterozygotes.     

Transporter associated with antigen processing (TAP) 1 gene polymorphisms in patients with hypersensitivity pneumonitis

Hypersensitivity pneumonitis (HP) is a lung inflammatory disease caused by the inhalation of a variety of antigens. Previous studies support the role of the major histocompatibility complex (MHC) class II genes in the susceptibility to develop HP. However, the putative role of other MHC loci has not been elucidated. Transporters associated with antigen processing (TAP) genes are located within the MHC class II region and play an important role transporting peptides across the endoplasmic reticulum membrane for MHC class I molecules assembly. The distribution of single nucleotide polymorphisms (SNPs) in TAP1 genes was analyzed in 73 hypersensitivity pneumonitis (HP) patients and 58 normal subjects. We found a significant association of the allele Gly-637 (GGC) (p=0.00004, OR=27.30, CI=3.87-548.04) and the genotypes Asp-637/Gly-637 (p=0.01, OR=16.0, CI=2.19-631.21), Pro-661/Pro-661 (p=0.006, OR=11.30, CI=2.28-75.77) with HP. A significant decrease in the frequency of the allele Pro-661 (CCA) (p=0.008, OR=0.06, CI=0-0.45), the genotype Asp-637/Asp-637 (p=0.01, OR=0.17, 95% CI=0.05-0.58) and the haplotype [Val-333 (GTC), Val-458 (GTG), Gly-637 (GGC), Pro-661 (CCA)] was detected in HP patients compared with controls (p=0.002, OR=0.07, CI=0.0-0.57). These findings suggest that TAP1 gene polymorphisms are related to HP risk, and highlight the importance of the MHC in the development of this disease.     

Human TAP1 polymorphisms detected by denaturing gradient gel electrophoresis

Presentation of endogenous peptides by major histocompatibility complex class I (MHC) molecules is controlled, in part, by the Tap1 and Tap2 genes in the MHC class II region that encode a heterodimeric peptide transporter. Polymorphisms of human Tap1 in normal individuals have now been investigated systematically by denaturing gradient gel electrophoresis (DGGE) analysis of fragments of genomic DNA generated by the polymerase chain reaction. Polymorphisms identified by distinctive DGGE band patterns were confirmed by DNA sequencing. In addition to four previously described polymorphisms in the open reading frame, DGGE detected three new polymorphisms: a GT substitution in the promoter region, a 10-bp insert in intron 9, and a GT substitution 80-bp downstream of the translation termination codon.     

Heritability estimate for temperament scores in German shepherd dogs and its genetic correlation with hip dysplasia

Temperament and hip dysplasia scores of 575 German shepherd dogs bred and evaluated by the United States Army's Division of Bio-Sensor Research between 1968 and 1976 were examined. The records represented 4 years, 18 sires, and 71 dams. Restricted maximum-likelihood procedures were used to obtain variance component estimates from which the heritabilities and genetic correlation were estimated. Heritability estimates for the temperament and hip dysplasia scores were 0.51 and 0.26, respectively. The genetic correlation between the two traits was estimated as –0.33. Males showed significantly higher temperament scores than females.     

Canine major histocompatibility complex genes DQA and DQB in Irish setter dogs

Information about genetic variation within the canine major histocompatibility complex (MHC) class II genes is limited. In common with most other vertebrate species the canine MHC, or DLA, includes genes which are homologous to human DR, DQ, and DP. Recently, at least one functional DLA DQ gene-pair has been characterized, but so far systematic screening efforts have been lacking. In the present study, we sequenced both cDNA and genomic clones derived from DLA DQ genes of Irish setter dogs. This breed was of interest, since it shows a high prevalence of gluten sensitive enteropathy (GSE), which may be a useful animal model for celiac disease (CD) of man. Interestingly, few of the alleles found in Irish setters were identical to those previously detected in other breeds. Three novel DLA DQA and four novel DLA DQB alleles were discovered in 19 unrelated dogs. Strong association between certain HLA DQ alleles and CD of man prompted us to screen the DQ alleles of members of a family of gluten-sensitive Irish setter dogs. No haplotypes or alleles were shared by all affected dogs, but one frequent haplo-type in this family was also detected in an unrelated gluten-sensitive Irish setter; this haplotype was absent in the healthy dogs. This observation warrants further investigation by screening the DQ alleles of a large population of unrelated gluten-sensitive Irish setters.     

Prevalence of intestinal parasites in shelter dogs and cats in the metropolitan area of Barcelona (Spain)

Prevalence of intestinal parasites in dogs and cats in Barcelona and surrounding areas was studied by analyzing 505 faecal samples of dogs and 50 of cats using a formol-ether diphasic method for helminths, a modified acid-fast technique for Cryptosporidium and other coccidian oocysts, and the Heindenhein technique for Giardia and Entamoeba trophozoites and cysts. Parasites were found in 26.9% of dogs and 34.0% of cats. Giardia duodenalis, Cryptosporidium sp., coccidian oocysts and Entamoeba sp. were detected in both dogs and cats. Taenia sp., Dipylidium caninum, Ancylostoma caninum, Toxocara canis, Toxascaris leonina, Trichuris vulpis and Uncinaria sp. were also found in dogs but only Ancylostoma tubaeforme and Toxocara cati in cats. There was a significant relationship for G. duodenalis and Cryptosporidium sp. with seasonality and for G. duodenalis with geographical origin in dogs. Significant differences were also found for T. canis between stray and domestic dogs and for T. vulpis between males and females.