Alan McCulloch

Gene expression profiling of Naïve sheep genetically resistant and susceptible to gastrointestinal nematodes

BackgroundGastrointestinal nematodes constitute a major cause of morbidity and mortality in grazing ruminants. Individual animals or breeds, however, are known to differ in their resistance to infection. Gene expression profiling allows us to examine large numbers of transcripts simultaneously in order to identify those transcripts that contribute to an animals susceptibility or resistance.ResultsWith the goal of identifying genes with a differential pattern of expression between sheep genetically resistant and susceptible to gastrointestinal nematodes, a 20,000 spot ovine cDNA microarray was constructed. This array was used to interrogate the expression of 9,238 known genes in duodenum tissue of four resistant and four susceptible female lambs. Naïve animals were used in order to look at genes that were differentially expressed in the absence of infection with gastrointestinal nematodes. Forty one unique known genes were identified that were differentially expressed between the resistant and susceptible animals. Northern blotting of a selection of the genes confirmed differential expression. The differentially expressed genes had a variety of functions, although many genes relating to the stress response and response to stimulus were more highly expressed in the susceptible animals.ConclusionWe have constructed the first reported ovine microarray and used this array to examine gene expression in lambs genetically resistant and susceptible to gastrointestinal nematode infection. This study indicates that susceptible animals appear to be generating a hyper-sensitive immune response to non-nematode challenges. The gastrointestinal tract of susceptible animals is therefore under stress and compromised even in the absence of gastrointestinal nematodes. These factors may contribute to the genetic susceptibility of these animals.

Genetic analysis of MDR1 and inflammatory bowel disease reveals protective effect of heterozygous variants for ulcerative colitis

Background: Single nucleotide polymorphisms (SNPs) in the multidrug transporter MDR1 have been associated with inflammatory bowel disease (IBD) in different studies. However, the data are highly controversial. Recently, 6 haplotype tagging SNPs (tSNPs), representing the haplotype variations of the MDR1 gene, were identified. The aims of this study were to genotype these variants and correlate them to disease phenotype in New Zealand IBD patients. Materials and Methods: A total of 784 IBD patients and 200 healthy subjects were genotyped for 5 tSNPs and the triallelic MDR1 variant G2677T/A using the Sequenom MassArray platform. Furthermore, the effects of these variants were examined in correlation with phenotypic clinical features. Results: Heterozygous carriers for the variants C1236T, rs2235046 (an SNP in intron 16), and G2677T/A showed a lower risk of developing ulcerative colitis (C1236T: odds ratio [OR] = 0.63, 95% confidence interval [CI] = 0.42‐0.93, P = 0.03; G2677T/A: OR = 0.59, CI = 0.39‐0.89, P = 0.02; and rs2235046: OR = 0.59, 95% CI = 0.38‐0.91, P = 0.009) as compared with homozygotes. None of the analyzed markers were associated with Crohns disease on a genotypic level. Subgroup analysis revealed an association for 2 variants with IBD when stratified for age of onset (C1236T SNP and rs3789243). The MDR1 variant C3435T was associated with disease behavior in CD (OR = 1.45, 95% CI = 1.01‐2.08, P = 0.04), whereas the SNP rs3789243 was found to be associated with pancolitis in UC patients (OR = 1.35, CI = 1.00‐1.82, P = 0.05). Conclusions: The results of our study support the role of MDR1 as a candidate gene for ulcerative colitis. Furthermore, our results suggest the possibility of a heterozygous advantage for certain MDR1 variants for this disease. Inflamm Bowel Dis 2009

Association of DLG5 variants with inflammatory bowel disease in the New Zealand caucasian population and meta-analysis of the DLG5 R30Q variant†

Background: Variants in the DLG5 gene have been associated with inflammatory bowel disease (IBD) in samples from some, but not all populations. In particular, 2 nonsynonymous single‐nucleotide polymorphisms (SNPs), R30Q (rs1248696) and P1371Q (rs2289310), have been associated with an increased risk of IBD, and a common haplotype (called haplotype “A”) has been associated with reduced risk. Methods: We genotyped R30Q, P1371Q, and a haplotype A tagging SNP (rs2289311) in a New Zealand Caucasian cohort of 389 Crohns disease (CD) patients, 406 ulcerative colitis (UC) patients, and 416 population controls. Each SNP was tested for association with disease susceptibility and clinical phenotypes. We also performed a meta‐analysis of R30Q data from published association studies. Results: The haplotype A tagging SNP was associated with reduced risk of IBD at the 0.05 significance level (P = 0.036) with an allelic odds ratio of 0.83 (95% confidence interval [CI]: 0.69–0.99). Association with haplotype A was strongest (odds ratio ≈0.57) in UC patients with familial IBD or extraintestinal manifestations. The R30Q and P1371Q polymorphisms were not significantly associated with UC, CD, or IBD. Analysis of male and female data did not find any gender‐specific associations. Meta‐analysis gave no evidence of association of R30Q with IBD. Conclusions: Meta‐analysis demonstrates that the minor allele of R30Q is not a risk factor for IBD across populations. This study provides some evidence that DLG5 haplotype A is associated with reduced risk of IBD in the New Zealand Caucasian population, but this association will need to be replicated in an independent sample.

Mushroom intolerance: a novel diet-gene interaction in Crohn's disease.

Carrying a functional single nucleotide polymorphism (L503F, c. 1672 C>T) in the gene for the Na-dependent organic cation transporter (OCTN1), increases the risk of Crohns disease (CD) in some, but not all, populations. Case-control data on New Zealand Caucasians show no differences for CD risk between individuals carrying the L503F OCTN1 C-allele when compared with those carrying the variant T-allele. However, more of the New Zealand CD cases report intolerance to maize and mushrooms than those who report beneficial effects or no differences. The OCTN1 gene encodes a transporter for ergothionine, a fungal metabolite at high levels in mushrooms but not widely common in other dietary items. An inability to tolerate mushrooms showed statistically significant associations with the variant OCTN1 genotype. That is, among those individuals reporting adverse effects from mushrooms, there was a higher frequency of the variant T-allele when compared with the general population, or with CD patients overall. We believe that this is a novel gene-diet association, suggesting that individuals carrying the OCTN1 variant single nucleotide polymorphism may have an enhanced risk of adverse symptoms associated with consuming mushrooms. Nutrigenomic approaches to dietary recommendations may be appropriate in this group.

Molecular evolution of the Bovini tribe (Bovidae, Bovinae): is there evidence of rapid evolution or reduced selective constraint in Domestic cattle?

BackgroundIf mutation within the coding region of the genome is largely not adaptive, the ratio of nonsynonymous (dN) to synonymous substitutions (dS) per site (dN/dS) should be approximately equal among closely related species. Furthermore, dN/dS in divergence between species should be equivalent to dN/dS in polymorphisms. This hypothesis is of particular interest in closely related members of the Bovini tribe, because domestication has promoted rapid phenotypic divergence through strong artificial selection of some species while others remain undomesticated. We examined a number of genes that may be involved in milk production in Domestic cattle and a number of their wild relatives for evidence that domestication had affected molecular evolution. Elevated rates of dN/dS were further queried to determine if they were the result of positive selection, low effective population size (Ne) or reduced selective constraint.ResultsWe have found that the domestication process has contributed to higher dN/dS ratios in cattle, especially in the lineages leading to the Domestic cow (Bos taurus) and Mithan (Bos frontalis) and within some breeds of Domestic cow. However, the high rates of dN/dS polymorphism within B. taurus when compared to species divergence suggest that positive selection has not elevated evolutionary rates in these genes. Likewise, the low rate of dN/dS in Bison, which has undergone a recent population bottleneck, indicates a reduction in population size alone is not responsible for these observations.ConclusionThe effect of selection depends on effective population size and the selection coefficient (Nes). Typically under domestication both selection pressure for traits important in fitness in the wild and Ne are reduced. Therefore, reduced selective constraint could be responsible for the observed elevated evolutionary ratios in domesticated species, especially in B. taurus and B. frontalis, which have the highest dN/dS in the Bovini. This may have important implications for tests of selection such as the McDonald-Kreitman test. Surprisingly we have also detected a significant difference in the supposed neutral substitution rate between synonymous and noncoding sites in the Bovine genome, with a 30% higher rate of substitution at synonymous sites. This is due, at least in part, to an excess of the highly mutable CpG dinucleotides at synonymous sites, which will have implications for time of divergence estimates from molecular data.

Single nucleotide polymorphisms in human Paneth cell defensin A5 may confer susceptibility to inflammatory bowel disease in a New Zealand Caucasian population

BACKGROUND Human Paneth cell alpha-defensins, especially DEFA5, are involved in maintaining homeostasis of the human microbial microflora. Since breakdown of normal mucosal antibacterial defence occurs in inflammatory bowel disease (IBD), variants in the DEFA5 gene could be associated with IBD risk. SUBJECTS A cohort of 25 patients with indeterminate colitis (IC), 405 with ulcerative colitis (UC), and 385 with Crohns disease (CD), were compared with 201 control individuals from the Canterbury region in New Zealand. METHODS A 15 kb haplotype block surrounding DEFA5 contained 35 HapMap markers which were polymorphic in Caucasians. Four markers (A-D) were selected to tag 27 of the 35 markers at r(2)>0.68, and were genotyped in DNA samples. RESULTS Minor allele frequencies for all single nucleotide polymorphisms (SNPs) were somewhat elevated in patients. Subgroup analysis showed SNP A had odds ratio 1.44 in UC patients with pancolitis (95% C.I. 1.07-1.94), SNP B odds ratio 2.37 in CD patients with onset prior to 17 years age (95% C.I. 1.12-5.03), SNP C odds ratio 1.68 in UC patients with left colonic localisation (95% C.I. 1.12-2.52), and SNP D had odds ratio 1.56 in CD patients with one or more relatives with IBD (95% C.I. 1.03-2.35). Two two-marker haplotypes and one three-marker haplotype were associated with UC (p-values 0.025-0.05). CONCLUSIONS The SNPs genotyped in our study were surrogates for common variants, and observed associations between these and IBD status are likely due to linkage disequilibrium with a functional common DEFA5 variant. Identifying such functional variants will be prioritized in subsequent work.

Establishment of a pipeline to analyse non-synonymous SNPs in Bos taurus.

BackgroundSingle nucleotide polymorphisms (SNPs) are an abundant form of genetic variation in the genome of every species and are useful for gene mapping and association studies. Of particular interest are non-synonymous SNPs, which may alter protein function and phenotype. We therefore examined bovine expressed sequences for non-synonymous SNPs and validated and tested selected SNPs for their association with measured traits.ResultsOver 500,000 public bovine expressed sequence tagged (EST) sequences were used to search for coding SNPs (cSNPs). A total of 15,353 SNPs were detected in the transcribed sequences studied, of which 6,325 were predicted to be coding SNPs with the remaining 9,028 SNPs presumed to be in untranslated regions. Of the cSNPs detected, 2,868 were predicted to result in a change in the amino acid encoded. In order to determine the actual number of non-synonymous polymorphic SNPs we designed assays for 920 of the putative SNPs. These SNPs were then genotyped through a panel of cattle DNA pools using chip-based MALDI-TOF mass spectrometry. Of the SNPs tested, 29% were found to be polymorphic with a minor allele frequency >10%. A subset of the SNPs was genotyped through animal resources in order to look for association with age of puberty, facial eczema resistance or meat yield. Three SNPs were nominally associated with resistance to the disease facial eczema (P < 0.01).ConclusionWe have identified 15,353 putative SNPs in or close to bovine genes and 2,868 of these SNPs were predicted to be non-synonymous. Approximately 29% of the non-synonymous SNPs were polymorphic and common with a minor allele frequency >10%. Of the SNPs detected in this study, 99% have not been previously reported. These novel SNPs will be useful for association studies or gene mapping.

Tumor necrosis factor receptor superfamily, member 1B haplotypes increase or decrease the risk of inflammatory bowel diseases in a New Zealand caucasian population.

Inflammatory bowel diseases (IBDs) comprising Crohn disease (CD) and ulcerative colitis (UC) are chronic inflammatory conditions with polygenic susceptibility. Interactions between TNF-alpha and TNF-alpha receptor play a fundamental role in inflammatory response. This study investigates the role that selected single nucleotide polymorphisms (SNPs) and haplotypes in the TNF-alpha receptor (TNSFRSF1B) gene play in the risk of IBD in a New Zealand Caucasian population. DNA samples from 388 CD, 405 UC, 27 indeterminate colitis patients, and 293 randomly selected controls, from Canterbury, New Zealand were screened for 3 common SNPs in TNSFRSF1B: rs1061622 (c.676T > C), rs1061624 (c.*1663A > G), and rs3397 (c.*1690T > C), using TaqMan technologies. Carrying the rs1061624 variant decreased the risk of UC in the left colon (OR 0.73, 95% CI = 0.54–1.00) and of being a smoker at diagnosis (OR 0.62; 95% CI = 0.40–0.96). Carrying the rs3397 variant decreased the risk of penetrating CD (OR 0.62, 95% CI = 0.40–0.95). Three marker haplotype analyses revealed highly significant differences between CD patients and control subjects (χ 2 = 29.9, df = 7, P = .0001) and UC cases and controls (χ 2 = 46.3, df = 7, P < .0001). We conclude that carrying a 3-marker haplotype in the TNSFRSF1B gene may increase (e.g., haplotype of GGC was 2.9-fold more in the CD or UCpatients) or decrease (e.g., TGT was 0.47-fold less in UC patients) the risk of IBD in a New Zealand Caucasian population.

Testing the neutral theory of molecular evolution using genomic data: a comparison of the human and bovine transcriptome

Despite growing evidence of rapid evolution in protein coding genes, the contribution of positive selection to intra- and interspecific differences in protein coding regions of the genome is unclear. We attempted to see if genes coding for secreted proteins and genes with narrow expression, specifically those preferentially expressed in the mammary gland, have diverged at a faster rate between domestic cattle (Bos taurus) and humans (Homo sapiens) than other genes and whether positive selection is responsible. Using a large data set, we identified groups of genes based on secretion and expression patterns and compared them for the rate of nonsynonymous (dN) and synonymous (dS) substitutions per site and the number of radical (Dr) and conservative (Dc) amino acid substitutions. We found evidence of rapid evolution in genes with narrow expression, especially for those expressed in the liver and mammary gland and for genes coding for secreted proteins. We compared common human polymorphism data with human-cattle divergence and found that genes with high evolutionary rates in human-cattle divergence also had a large number of common human polymorphisms. This argues against positive selection causing rapid divergence in these groups of genes. In most cases dN/dS ratios were lower in human-cattle divergence than in common human polymorphism presumably due to differences in the effectiveness of purifying selection between long-term divergence and short-term polymorphism.

Gene expression profiling of the endophytic fungus Neotyphodium lolii in association with its host plant perennial ryegrass

Endophytes of the Neotyphodium/Epichloë complex are filamentous fungi that typically form mutualistic associations with temperate grasses. The endophytes systemically colonise the intercellular spaces of their grass hosts and confer several biotic and abiotic attributes, but can also cause mammalian toxicoses. These symbioses are therefore of significant agricultural importance, and furthermore, the symbioses represent models to understand how such symbioses are established and maintained. To gain a greater understanding of the Neotyphodium lolii-perennial ryegrass (Lolium perenne) symbiosis, we have generated, sequenced and analysed four in planta expressed sequence tag libraries, enriched for genes differentially expressed during symbiosis via suppression subtractive hybridisation. Subtracted libraries were largely comprised of perennial ryegrass sequences, and comparative functional profiling of endophyte-infected ryegrass libraries with endophyte-free ryegrass libraries revealed downregulation of carbohydrate metabolism and photosynthesis during symbiosis, the latter confirming observations made in previous studies. Functional categories up regulated in the plant host in association with endophyte infection included cellular protein transport and protein synthesis and turn over.We also identified 24 N. lolii transcripts expressed during symbiosis, some of which were homologous to demonstrated pathogenicity/virulence genes, and others with proven roles in endophyte secondary metabolism. This study offers insights into biological processes underlying the N. lolii-perennial ryegrass symbiosis, and provides a list of novel candidate genes from both symbionts, which will form the basis for future investigations.