Role of the major histocompatibility complex in immune responsiveness in a Holstein Charolais cattle cross population

Baxter, Rebecca Jayne

January 2011

Infectious disease is a major issue facing the livestock industry. Further understanding of the role of genetic factors in the observed phenotypic variability of the immune response to pathogens and vaccination could assist in designing improved preventative measures such as more efficacious vaccines and targeted breeding strategies to select for disease resistance. Major candidate genes for controlling immune responsiveness are located within the major histocompatibility complex (MHC). The highly polymorphic classical MHC genes are key determinants in the strength and type of immune response. However, it has proved difficult to establish genotyping approaches to define functionally relevant allelic variations for outbred species such as cattle, not least because the peptide binding clefts (PBC) of classical MHC molecules are highly polymorphic, and the genes within the MHC complex are closely linked. The overall aim of this project was to investigate the role of MHC genes in immune responsiveness in approximately 200 F2 and backcross Holstein-Charolais cattle. These animals were generated as part of the Roslin Bovine Genome (RoBoGen) herd, established through a quantitative trait loci (QTL) project, in which a number of phenotypic traits including immune traits were measured. The immune traits included responses to a Foot-and-mouth disease virus (FMDV) peptide, and vaccines against bovine respiratory syncytial virus (BRSV), para-influenza virus 3 (PIV-3) and bovine herpes virus-1 (BHV-1), as well as T cell response to Staphylococcus aureus. The immune phenotypes measured included IgG and interferon- (IFN- ) levels and T cell proliferation. The cattle MHC region, known as bovine leukocyte antigens (BoLA), resides on bovine chromosome 23. The BoLA region contains approximately 200 genes most of which are immune-related. Class II gene polymorphisms were considered to be the most likely to influence the immune traits measured, and the project primarily focused on the best defined gene, BoLA-DRB3. A sequence-based typing technique was successfully improved to facilitate genotyping of the PBC of BoLA-DRB3 in all generations of the RoBoGen herd (approximately 400 animals) and identified 24 distinct alleles. The sequence information obtained also enabled further analysis of the role of defined ‘pockets’ within the PBC, which directly determine peptide binding affinity. All datasets were statistically analysed using a residual maximum likelihood (REML) model and it was shown that several of the DRB3 alleles within the RoBoGen herd had highly significant (p<0.05) associations with the immune response to the FMDV peptide. In addition DRB3 alleles were identified which had significant associations with the response to the respiratory pathogen vaccinations and exposure to S. aureus. The pocket analysis also enabled the identification of several amino acid positions within the PBC which were significantly associated with the immune response traits. In order to explore whether DQ Class II gene polymorphisms also played a role in the variability of responses and whether BoLA Class I-Class II haplotypes could be discerned, microarrays which utilized allele specific oligonucleotides for BoLA Class I and Class II DQ genes were employed. In addition, to investigate whether the number of DQ gene pairs per chromosome influenced the responses, a quantitative polymerase chain reaction (qPCR) assay to determine DQA gene dosage was developed. However, due to the extremely complex nature of the BoLA region both, techniques would require improving to be used for large-scale studies. Nonetheless, information about haplotypes was determined from the microarray results and the qPCR technique lays the foundations for future development to investigate DQ gene dosage. The MHC region in cattle is very complex due the high level of polymorphisms and gene duplications. It is likely that many genes play a role in the immune response to both pathogens and vaccines. However, from the evidence presented here, polymorphisms in the PBC of BoLA-DRB3, particularly within the pockets, are significantly associated with variation in immune response to many different antigens and this information could be exploited in the design of vaccines or breeding cattle for improved disease resistance.

636.089

β2m antibody is a suitable antibody to detect major histocompatibility complex class Ι as well as α chain antibody in healthy tissues and tissues infected with mouse parvovirus 1

Alhawsawi, Sana Mahmoud

27 May 2015

No description available.

Immunology

MHC, Major histocompatibility complex

MPV-1, Mouse parvovirus class 1

IHC, Immunohistochemistry

Regulace genové exprese HSP70 genů a její závislost na genotypu HSP70 genů. / Regulation of gene expression of HSP70 genes and its dependence on the genotype of HSP70 genes.

Ambrož, Antonín

January 2011

The topic of the presented thesis is the regulation of gene expression level of the three HSP70 genes in mononuclear cells. We investigated the dependence of expression regulation (induction) abiliy on selected point mutations, so-called SNPs (single nucleotide polymorphism) in the observed genes. The mononuclear cells were obtained from peripheral blood samples of healthy individuals. In order to analyze their gene expression, we selected individuals who were homozygous for at least one of the monitored point mutations. Taking into account the chosen criteria for healthy individuals we based on interviews with these individuals and their personal history. We determined the polymorphisms observed in two cell stress-inducible HSP70-1 (HSPA1A) and HSP70-2 (HSPA1B) genes and in one constitutively expressed gene HSP70-Hom (HSPA1L). Further, we have analyzed HSP70s gene expression regulation and the relation between the expression regulation and studied polymorphisms. We determined the degree of regulation of a gene expression in the studied genes in relation to two SNPs -110A/C (rs1008438), +190G /C (rs1043618) gene HSP70-1, and two SNPs +1267A/G (rs1061581), +2074G /C (rs539689 ) of the HSP70-2 gene, and the mutation of one five-nucleotide (rs9281590) HSP70-2 gene, and one SNP +2437T/C (rs2227956) of...