Association of TNF-alpha-857C with inflammatory bowel disease in the Australian population

BACKGROUND: It is now well established that susceptibility to inflammatory bowel disease is in part genetic, with one localization on chromosome 6 (IBD3) having been replicated in a number of populations. A candidate in that region, TNF-alpha, contains polymorphisms in the promoter region that appear to be associated with disease. METHODS: More than 600 individuals from 170 multiplex IBD families were genotyped for four polymorphisms in the TNF-alpha gene and analysed for association. RESULTS AND CONCLUSION: A strong association was observed between transmission of the -857 C allele and disease. This effect was strongest in those families in which the NOD2 risk alleles are also segregating, supporting the existence of an interaction between IBD3 and IBD1 on chromosome 16.     

Genetics of inflammatory bowel disease： The role of the HLA complex

The human leucocyte antigen (HLA) complex on chromosome 6p21.3 is the most extensively studied genetic region in Inflammatory bowel disease (IBD). Consistent evidence of linkage to IBD3 (6p21.1-23), an area which encompasses the HLA complex, has been demonstrated for both Crohn's disease and ulcerative colitis, and a number of replicated associations with disease susceptibility and phenotype have recently emerged. However, despite these efforts the HLA susceptibility gene (s) for IBD remain elusive, a consequence of strong linkage disequilibrium, extensive polymorphism and high gene density across this region. This article reviews current knowledge of the role of HLA complex genes in IBD susceptibility and phenotype, and discusses the factors currently limiting the translation of this knowledge to clinical practice.     

Genetic analyses of chromosome 12 loci in Crohn's disease

BACKGROUND AND AIMS: Inflammatory bowel disease (IBD) includes ulcerative colitis and Crohn's disease, both of which are multifactorial diseases involving the interaction of genetic and environmental factors. A region on chromosome 12 centred around the marker locus D12S83 has previously been associated with IBD predisposition. The aim of the study was to investigate this genetic region in an independent panel of European families affected by Crohn's disease. METHODS: A sample of 95 families with two or more affected relatives and 75 simplex nuclear families were genotyped for 19 microsatellite loci located on chromosome 12. A search for linkage and linkage disequilibrium was performed using non-parametric two point and multipoint analyses with the Analyze and Genehunter packages. RESULTS: No evidence of linkage or linkage disequilibrium was observed for any of the marker loci, including D12S83 (p=0.35 for the two point linkage test). Multipoint linkage analysis also failed to reveal positive linkage on chromosome 12. Power calculations allowed us to reject the hypothesis that the genetic region of chromosome 12 centred on D12S83 contains a susceptibility locus with a relative risk (lambda(s)) equal to or greater than 2.0 in these families. CONCLUSION: Failure to detect linkage or linkage disequilibrium in these families suggests that the chromosome 12 locus previously reported to be associated with genetic predisposition to IBD does not play a role in all European family samples. This observation is compatible with heterogeneity in the genetic basis of susceptibility to the disease and/or exposure to various environmental factors among Caucasian families.     

Linkage and association analysis of candidate genes in rheumatoid arthritis

OBJECTIVES: To test for linkage and association to rheumatoid arthritis (RA) in multiplex families for polymorphic markers in candidate gene loci. Loci including the cytokine cluster on 5q31.1 and IL10, both previously investigated in RA, were included along with several other genes including ICAM-1, cMYC, the cytokine cluster on 17q11.2 and IL1RA. METHODS: One hundred eighty-five multiplex RA families were genotyped for 11 microsatellite markers close to candidate genes. Markers showing evidence of linkage and/or association to RA were tested in a further cohort of families (n = 99). RESULTS: A single microsatellite marker in the GSTM4 gene showed some evidence of linkage, LOD 1.6 (p = 0.006). However, there was no evidence of excess allele sharing in the second cohort of families tested. There was also evidence of association to RA, using the transmission disequilibrium test for a dinucleotide repeat in the IRF gene in the cytokine cluster on 5q31.1; this was not replicated in a second cohort of families. CONCLUSION: Our results do not provide evidence of a role for these genes in RA susceptibility.     

Fine mapping of the chromosome 3p susceptibility locus in inflammatory bowel disease

BACKGROUND AND AIMS: Genetic predisposition for inflammatory bowel disease (IBD) has been demonstrated by epidemiological and genetic linkage studies. Genetic linkage of IBD to chromosome 3 has been observed previously. A high density analysis of chromosome 3p was performed to confirm prior linkages and elucidate potential genetic associations. METHODS: Forty three microsatellite markers on chromosome 3 were genotyped in 353 affected sibling pairs of North European Caucasian extraction (average marker density 2 cM in the linkage interval). Marker order was defined by genetic and radiation hybrid techniques. RESULTS: The maximum single point logarithm of odds (LOD) score was observed for Crohn's disease at D3S3591. Peak multipoint LOD scores of 1.65 and 1.40 for the IBD phenotype were observed near D3S1304 (distal 3p) and near D3S1283 in the linkage region previously reported. Crohn's disease contributed predominantly to the linkage. The transmission disequilibrium test showed significant evidence of association (p=0.009) between allele 4 of D3S1076 and the IBD phenotype (51 transmitted v 28 non-transmitted). Two known polymorphisms in the CCR2 and CCR5 genes were analysed, neither of which showed significant association with IBD. Additional haplotype associations were observed in the vicinity of D3S1076. CONCLUSIONS: This study provides confirmatory linkage evidence for an IBD susceptibility locus on chromosome 3p and suggests that CCR2 and CCR5 are unlikely to be major susceptibility loci for IBD. The association findings in this region warrant further investigation.     

The IBD1 locus for susceptibility to Crohn's disease has a greater impact in Ashkenazi Jews with early onset disease

OBJECTIVE: Recent studies have suggested that a susceptibility gene located on chromosome 16 and designated IBD1 may contribute to the development of Crohn's disease (CD). However, these findings were observed in predominantly non-Jewish populations; in the three studies where Ashkenazi Jews were included for analysis, the results have been widely divergent. Because Ashkenazi Jews are known to have a higher incidence of the disease than non-Jews, we sought to determine whether this previously reported linkage could be extended to the Ashkenazi population. In addition, we examined whether Ashkenazi Jewish patients with an early age of onset (< or = 21 yr) showed greater evidence of linkage to this locus. METHODS: Linkage analysis for the IBD1 region was performed on 123 Ashkenazi Jewish CD patients distributed among 53 families. Only patients with four Jewish grandparents were considered to be Jewish. Of the 123 Ashkenazi Jewish patients, 75 (61%) had an age of onset < or = 21 yr. RESULTS: Ashkenazi Jews showed only modest evidence of linkage (nonparametric linkage 1.63, p = 0.05) to the IBD1 locus. However, when the Ashkenazi population was subdivided on the basis of age of onset, there was a striking increase in linkage in families where affected individuals had an age of onset < or = 21 yr (nonparametric linkage 3.02, p = 0.002). In contrast, there was no evidence of linkage in the Jewish families where all affected individuals had an age of onset > 21 yr. CONCLUSIONS: The IBD1 gene plays a greater role in conferring susceptibility to CD in Jews with early onset disease than in Jews with late onset disease.     

The IBD international genetics consortium provides further evidence for linkage to IBD4 and shows gene-environment interaction

BACKGROUND AND AIMS: The inflammatory bowel diseases (IBDs) Crohn's disease (CD) and ulcerative colitis are complex disorders with an important genetic determinant. One gene associated with CD has been identified: NOD2/CARD15. Two independent genome-wide scans found significant evidence (logarithm of odds [LOD] 3.6) and suggestive evidence (LOD 2.8) for linkage on locus 14q11-12, also known as the IBD4 locus. To further characterize this locus, we assessed gene-environment interaction (IBD4 x smoking) and phenotypic heterogeneity in a large cohort of IBD-affected sibling pairs as part of an ongoing international collaborative effort. PATIENTS AND METHODS: A total of 733 IBD families, comprising 892 affected sibling pairs, were genotyped for microsatellites D14S261, D14S283, D14S972, and D14S275, spanning the IBD4 locus. Information on gender, ethnicity, age at onset, smoking at diagnosis, extraintestinal manifestations, and disease location was available. RESULTS: A significant distortion in the mean allele sharing (MAS) between affected siblings was observed for CD patients only at each of the four markers (54.6%, 52.8%, 50.4%, and 53.3%, respectively). Maximum linkage for CD was observed at marker D14S261 (multipoint nonparametric linkage score 2.36; P 相似文献   

Evidence for inflammatory bowel disease of a susceptibility locus on the X chromosome

BACKGROUND & AIMS: The technique of genomewide scanning has been applied successfully in inflammatory bowel disease (IBD). A number of putative susceptibility loci have been identified through genomewide searches including replicated regions of linkage on chromosomes 12, 16, 6 (the HLA region), and 14. We have investigated the contribution of the X chromosome in 145 Belgian affected relative pairs. METHODS: In the first stage of the study, 79 (68 CD, 11 mixed) sibling pairs were genotyped at 12 microsatellite markers covering the X chromosome. In the second stage, 10 additional markers in the X-pericentromeric region were studied in the families involved in stage 1 together with 62 additional families (52 sibling pairs, 14 second-degree relative pairs). RESULTS: In the first stage, evidence for linkage was found over a 30-cM pericentromeric region spanning dXs991, dXs990, and dXs8096 (multipoint maximum LOD score in the CD subgroup, 2.5; P = 0.0003). The remainder of the X chromosome was excluded (exclusion under LOD-2) for a locus with lambda(s) = 2. Fine mapping in the second stage confirmed linkage, and narrowed and shifted the linked region to Xq21.3 around dXs1203 (nonparametric linkage [NPL], 2.90; P = 0.0017). The NPL-1 interval around the linkage peak comprises 19.7 cM. CONCLUSIONS: These data provide suggestive evidence for the presence and chromosomal location of an X-linked susceptibility gene in IBD.     

The genetics of inflammatory bowel disease

The inflammatory bowel diseases (IBD) comprise complex genetic disorders, with multiple contributing genes. Linkage studies have implicated several genomic regions as likely containing IBD susceptibility genes, with some observed uniquely in Crohn's disease (CD) or ulcerative colitis (UC), and others common to both disorders. The best replicated linkage region, IBD1, on chromosome 16q contains the CD susceptibility gene, NOD2/CARD15. NOD2/CARD15 is expressed in peripheral blood monocytes and is structurally related to the plant R proteins, which mediate host resistance to microbial pathogens. Three major coding region polymorphisms within NOD2/CARD15 have been highly associated with CD among patients of European descent. Having one copy of the risk alleles confers a 2-4-fold risk for developing CD, whereas double-dose carriage increases the risk 20-40-fold. All 3 major CD variants exhibit a deficit in NF-kappaB activation in response to bacterial components. Carriage of NOD2/CARD15 risk alleles is associated with ileal location, earlier disease onset, and stricturing phenotype. Other IBD genomic regions include IBD2 on chromosome 12q (observed more in UC), and IBD3, containing the major histocompatibility complex region. A short genomic region has been associated with CD on chromosome 5q, but the precise contributing gene is as yet unidentified. The characterization of additional IBD susceptibility genes could potentially lead to the identification of novel therapeutic agents for IBD, make possible a molecular reclassification of disease, and increase understanding of the contribution of environmental factors (notably, tobacco and the intestinal microbial milieu) to intestinal inflammation.     

European genetic study on rheumatoid arthritis: is there a linkage of the interleukin-1 (IL-1), IL-10 or IL-4 genes to RA?

The genetic predisposition for rheumatoid arthritis (RA) is only partly explained by the HLA locus and most genetic factors involved in the susceptibility (and/or severity) of the disease await further identification. The first European genome scan in RA families provided suggestive evidence for linkage with a region (3.1/3q13) on chromosome 3, but many other potential RA susceptibility genes have yet to be analysed. AIMS: To perform a linkage analysis with microsatellite markers located in the vicinity of the interleukin-1 (IL-1) gene superfamily, the IL-10 gene and the IL-4 gene cluster which might be considered putative candidate loci for RA. METHODS: 107 Caucasoid European RA sibpairs from 90 nuclear families were genotyped for markers flanking the genes for the IL-1 superfamily, IL-10 and the IL-4 gene cluster. Linkage analysis based on the identity by descent (IBD) in affected siblings was analysed with the program SIBPALNA. Affected sibpairs were stratified according to the identity by state (IBS) for three markers in the HLA region (DRB1 oligotyping, D6S276 and TNFa microsatellites) and to the presence/absence of erosive disease on X-ray examination. RESULTS: Analysis of the whole family set showed an excess of allele sharing for markers of the IL-1 gene cluster (IBD 60%; P = 0.012) but not for IL-10 or IL-4. After stratification, the evidence of linkage to IL-1 was restricted to HLA concordant sibpairs (n = 32; IBD 70%; P = 0.006). Some evidence of linkage to IL-10 was also observed in HLA concordant sibpairs (IBD 66%; P = 0.03) and in sibpairs with erosive disease (n = 61; IBD 62%; P = 0.02). CONCLUSIONS: We found suggestive evidence of linkage of RA to the IL-1 locus. The increased linkage to IL-1 and IL-10 in HLA-identical sibs suggests a possible interaction between these cytokines and the HLA loci. Moreover IL-10 could interact with HLA factors in predisposing to erosive disease. These results need to be tested in additional families for consistency and replication.     

Genome wide scan in a Flemish inflammatory bowel disease population: support for the IBD4 locus, population heterogeneity, and epistasis

BACKGROUND AND AIMS: Genome wide scans in inflammatory bowel disease (IBD) have indicated various susceptibility regions with replication of 16cen (IBD1), 12q (IBD2), 6p (IBD3), 14q11 (IBD4), and 3p21. As no linkage was previously found on IBD regions 3, 7, 12, and 16 in Flemish IBD families, a genome wide scan was performed to detect other susceptibility regions in this population. METHODS: A cohort of 149 IBD affected relative pairs, all recruited from the Northern Flemish part of Belgium, were genotyped using microsatellite markers at 12 cM intervals, and analysed by Genehunter non-parametric linkage software. All families were further genotyped for the three main Crohn's disease associated variants in the NOD2/CARD15 gene. RESULTS: Nominal evidence for linkage was observed on chromosomes 1 (D1S197: multipoint non-parametric linkage (NPL) score 2.57, p = 0.004; and at D1S305-D1S252: NPL 2.97, p = 0.001), 4q (D4S406: NPL 1.95, p = 0.03), 6q16 (D6S314: NPL 2.44, p = 0.007), 10p12 (D10S197: NPL 2.05, p = 0.02), 11q22 (D11S35-D11S927: NPL 1.95, p = 0.02) 14q11-12 (D14S80: NPL 2.41, p = 0.008), 20p12 (D20S192: NPL 2.7, p = 0.003), and Xq (DXS990: NPL 1.70, p = 0.04). A total of 51.4% of patients carried at least one NOD2/CARD15 variant. Furthermore, epistasis was observed between susceptibility regions 6q/10p and 20p/10p. CONCLUSION: Genome scanning in a Flemish IBD population found nominal evidence for linkage on 1p, 4q, 10p12, and 14q11, overlapping with other genome scan results, with linkage on 14q11-12 supporting the IBD4 locus. The results further show that epistasis is contributing to the complex model of IBD and indicate that population heterogeneity is not to be underestimated. Finally, NOD2/CARD15 is clearly implicated in the Flemish IBD population.     

Update on the genetics of inflammatory bowel disease

Crohn’s disease and ulcerative colitis are related genetic disorders. Epidemiologic studies suggest that both disorders are caused by a complex interplay of genetic and environmental factors. Genetic linkage studies identify the general chromosomal locations of disease susceptibility genes, and a number of genetic linkages have been reported in inflammatory bowel disease (IBD). Most notable among these linkage regions has been the linkage in the pericentromeric region of chromosome 16, IBD1, among families multiply affected with Crohn’s disease. Recent studies have established that at least three coding region variants in the Nod2 gene are responsible for the linkage findings here, and Nod2 therefore represents the first definitively established gene contributing to the pathogenesis of IBD. The implications of these findings for advancing our understanding of Crohn’s disease are discussed.     

Using a genome-wide scan and meta-analysis to identify a novel IBD locus and confirm previously identified IBD loci

Seven loci that potentially confer susceptibility to inflammatory bowel disease (IBD) or one of its subtypes have been identified to date; however, most are unconfirmed, and the complete set of loci contributing to disease susceptibility has not yet been determined. The authors aim to identify loci contributing to disease susceptibility in an IBD population from Canada and to compare their results in a systematic manner with those of previously published IBD data sets. The authors performed genome-wide linkage analysis on 63 IBD families from Nova Scotia, Canada. They then undertook a meta-analysis to combine the results of their study with those of the four previously published IBD genome-wide scans with complete data reported. Their genome-wide scan identified three regions of suggestive linkage to IBD: 11p, and The locus on chromosome 11p has not been previously reported. Meta-analysis of multiple scans revealed linked regions corresponding to the, and loci. Meta-analysis of linkage data is a powerful approach for identifying and confirming common susceptibility loci and specifically shows that, and are the major, common IBD susceptibility loci in the populations studied thus far.     

Differences in Risk of Crohn's Disease in Offspring of Mothers and Fathers with Inflammatory Bowel Disease

Objective: To determine whether there are any unusual patterns of transmission of susceptibility to inflammatory bowel disease (IBD) within multiplex families. Methods : Individuals with IBD were recruited for genome-wide screening of susceptibility genes. The extent of familial aggregation and blood relationships in multiplex families were determined by questionnaires given to participants followed up by confirmation of disease diagnosis by participants' physicians. Results : Of 135 families identified in which both a parent and a child had IBD, 93 involved transmission of susceptibility to disease from mother to child versus 42 examples of transmission from father to child ( p = 0.00001, exact two-tailed binomial test). This distortion in transmission on the basis of the sex of the parent was observed only among non-Jewish pairs with Crohn's disease (CD), in which, of 33 parent-child pairs with CD, disease susceptibility was transmitted from the mother 28 times ( p = 0.00007). Conclusion : Susceptibility to CD in a subset of patients may involve a gene that is imprinted.     

Inflammatory bowel disease is linked to 19p13 and associated with ICAM-1

Genome-wide scans have implicated several susceptibility loci, but linkage of 19p13 (IBD6) to Crohn's disease (CD) has not been fully replicated. We report a replication study of IBD6 in a UK Caucasian population. Two hundred eighty-four affected sibling pairs from 234 families were used for the linkage study. Linkage between IBD6 linkage and CD was replicated (LOD score = 1.59). Two candidate genes (DDXL and ICAM-1) within the IBD6 locus were examined in a case/control study with a total of 228 CD and 243 ulcerative colitis (UC) patients and 407 healthy controls. No association to either UC or CD was found in three novel intronic single nucleotide polymorphisms (SNPs) in DDXL. For ICAM-1, a significant association was found between K469 homozygosity and CD overall (39.9% vs 29.4%; Pc = 0.0096) and between E469 and fistulating disease (21.8% vs 10.0%, Pc = 0.030). In the UC group, limited disease extent was associated with homozygosity of the G241 allele (82.7% vs 64.7%, Pc = 0.0040). These data support linkage for CD at 19p13 and suggest that the amino acid polymorphisms in ICAM-1 may be associated with IBD.     

The genetics of inflammatory bowel disease

Great progress in the understanding of the molecular genetics of inflammatory bowel disease (IBD) has been made over the last 10 years. Strong epidemiological evidence, based initially on concordance data in twin/family studies, led to the application of genome-wide linkage analysis involving multiply affected families and the identification of a number of susceptibility loci. Further characterization of the IBD1 locus on chromosome 16 led to the discovery of the NOD2/CARD15 gene as the first susceptibility gene in Crohn's disease for 2001. This landmark finding has led to a redirection of basic research in IBD with interest focused principally on regulation of the innate immune response and mucosal barrier function. Within the last year, the use of genome-wide association studies has provided new insights into primary pathogenetic mechanisms; several new genes such as the Interleukin-23 receptor (IL23R) and ATG16L1 (autophagy-related 16-like 1) genes are strongly implicated. Overall, these studies promise to change our fundamental understanding of IBD pathophysiology and to have implications for clinical practice.     

Inflammatory bowel disease gene hunting by linkage analysis: rationale, methodology, and present status of the field

Observed inflammatory bowel disease (IBD) familial clustering and increased monozygotic twin concordance has led to the hypothesis that genetic loci containing IBD susceptibility genes can be identified by whole genome linkage mapping approaches. Methodology including collecting carefully phenotyped multiplex pedigrees, genotyping using highly informative microsatellite markers and linkage analysis by non-parametric allele sharing methods has been established. Eleven published genome wide screens (GWS) have studied more than 1,200 multiplex IBD pedigrees. Two-thirds of affected relative pairs were Crohn's disease (CD), 20% ulcerative colitis (UC) and the remaining were mixed. Seven loci (IBDI-7) on chromosomes 16q, 12, 6p, 14q, 5q, 19, and 1p have been identified with genome wide significant and independently replicated linkage. Risk alleles/haplotypes have been defined for the IBD1 (CARD15/NOD2), IBD3 (HLA) and IBD5 (5q cytokine cluster) loci. There has been evidence for a second chromosome 16 locus (IBD8) independent of NOD2 that overlaps IBD1 on the pericentromeric p-arm. Several other regions show great promise for containing additional IBD loci, particularly chromosome 3p with genome wide evidence in one study at 3p26 and more centromeric evidence in several other studies, and chromosomes 2q, 3q, 4q, 7, 11p, and Xp each with suggestive evidence of linkage in one and additional evidence in two or more studies. Single GWSs and fine mapping studies containing very large sets of pedigrees and in particular, more UC pedigrees, and the use of creative analytic and disease stratification schemes are required to identify, establish and refine weaker IBD loci.     

A genome-wide search identifies potential new susceptibility loci for Crohn's disease

Chronic inflammatory bowel disease (IBD) presents as two major clinical forms, Crohn's disease (CD) and ulcerative colitis (UC). Genetic epidemiological studies and animal models suggest that inherited factors play significant roles in the susceptibility to both forms of IBD. From four genome-wide scans, putative susceptibility loci on chromosome 16 (IBD1 for CD), and on chromosomes 1, 3, 4, 6, 7, 10, and 12 for IBD, have been identified. Several other groups, including ours, have confirmed linkage to the loci on chromosomes 12 and 16. The aim of this study is to identify other potential susceptibility loci for CD with a genome-wide search approach. In our sample of 222 individuals from 46 families (20 Jewish and 26 non-Jewish), with a total of 65 sibpairs diagnosed with CD, we observed a novel locus with suggestive linkage [multipoint logarithm of the odds score (Mlod) > 2] at chromosome 14q11.2 (Mlod = 2.8, p = 0.0002). In addition, suggestive linkage was observed in our Jewish families at chromosome 17q21-q23 (Mlod = 2.1, p = 0.01) and chromosome 5q33-q35 (Mlod = 2.2, p = 0.0003). The syntenic regions of the latter locus are mapped within two putative loci on mouse chromosomes 11 and 18, which were identified in a mouse IBD model induced by dextran sulfate sodium (29). Our preliminary results provide potential evidence for several susceptibility loci contributing to the risk of CD. The observation of man-mouse synteny may accelerate the identification of CD susceptibility gene(s) on human chromosome 5.     

Association between K469E allele of intercellular adhesion molecule 1 gene and inflammatory bowel disease in a Japanese population

BACKGROUND AND AIMS: The genetic contribution to inflammatory bowel disease (IBD) is under investigation. Recent evidence indicates a significant linkage between a locus on chromosome 19p13 and IBD. We investigated the association between an intercellular adhesion molecule 1 gene (ICAM-1) polymorphism located on chromosome 19p13 and IBD in a Japanese population. METHODS: We compared 207 Japanese patients who had IBD (79 with Crohn's disease (CD); 128 with ulcerative colitis (UC)) with 103 unrelated Japanese controls. We determined R241G and K469E polymorphisms of the ICAM-1 gene using polymerase chain reaction (PCR) techniques. RESULTS: Both frequency and carriage rate of the K469 allele were significantly higher in IBD patients than in controls (allelic frequency, p(c)=0.0026; carriage rate, p(c)=0.0034; odds ratio 2.59; 95% confidence interval 1.42-4.68). Furthermore, the frequency of the K469 allele was significantly increased in both CD and UC. Subgroup analysis demonstrated that both K469 allelic frequency and K469 carriage rate were significantly higher in patients with the small bowel and colon type of CD and entire colitis compared with healthy controls. CONCLUSIONS: We identified an overall association between IBD and ICAM-1 K469 in a Japanese population. Further studies of this chromosome region are required to elucidate the gene responsible for IBD.