[A toddler with nightly vomiting and pain in the abdomen]. / Een kleuter met nachtelijk braken en buikpijn.

A 4-year-old boy was referred to the emergency department with four days of nightly vomiting after ingestion of a marble. Abdominal X-ray showed the marble in the antrum of the stomach. The marble was successfully removed by endoscopy. X-rays detect 86% of all glass objects and should therefore be considered as diagnostic option by ingestion of a marble.

Toll-like receptors and microbial exposure: gene-gene and gene-environment interaction in the development of atopy.

Environmental and genetic factors contribute to atopy development. High microbial exposure may confer a protective effect on atopy. Toll-like receptors (TLRs) bind microbial products and are important in activating the immune system. To assess whether interactions between microbial exposures and genes encoding TLRs (and related genes) result in atopy, genes, environmental factors and gene-environment interactions of 66 single-nucleotide polymorphisms (SNPs) of 12 genes (TLR 1-6, 9 and 10, CD14, MD2, lipopolysaccharide-binding protein (LBP) and Dectin-1), and six proxy parameters of microbial exposure (sibship size, pets (three different parameters), day-care and intrauterine and childhood tobacco smoke exposure) were analysed for association with atopic phenotypes in 3,062 Dutch children (the Allergenic study). The presence of two or more older siblings increased the risk of developing high total immunoglobulin (Ig)E levels at different ages. This risk increased further in children aged 1-2 yrs carrying the minor allele of TLR6 SNP rs1039559. Furthermore, novel two- and three-factor gene-gene and gene-environment interactions were found (e.g. between sibship size, day-care and LBP SNP rs2232596). Larger sibship size is associated with increased total IgE levels. Furthermore, complex two- and three-factor interactions exist between genes and the environment. The TLRs and related genes interact with proxy parameters of high microbial exposure in atopy development.

TLR-related pathway analysis: novel gene-gene interactions in the development of asthma and atopy.

BACKGROUND: The toll-like receptor (TLR)-related pathway is important in host defence and may be crucial in the development of asthma and atopy. Numerous studies have shown associations of TLR-related pathway genes with asthma and atopy phenotypes. So far it has not been investigated whether gene-gene interactions in this pathway contribute to atopy and asthma development. METHODS: One hundred and sixty-nine haplotype tagging single nucleotide polymorphisms (SNPs) of 29 genes (i.e. membrane and intracellular receptors, TLR4 or lipopolysaccharide-binding/facilitating proteins, adaptors, interleukin-1 receptor associated kinases, kinases, chaperone molecules, transcription factors and inhibitors) were analysed for single- and multilocus associations with atopy [total and specific immunglobulin E (IgE) at 1-2 and 6-8 years] and asthma (6-8 years). A total of 3062 Dutch children from the birth cohorts PIAMA, PREVASC and KOALA (Allergenic study) were investigated. Chi-squared test, logistic regression and the data mining approach multifactor dimensionality reduction method (MDR) were used in analysis. RESULTS: Several genes in the TLR-related pathway were associated with atopy and/or asthma [e.g. IL1RL1, BPI, NOD1, NOD2 and MAP3K7IP1]. Multiple, single associations were found with the phenotypes under study. MDR analysis showed novel, significant gene-gene interactions in association with atopy and asthma phenotypes (e.g. IL1RL1 and TLR4 with sIgE to indoor allergens and IRAK1, NOD1 and MAP3K7IP1 with asthma). Interestingly, gene-gene interactions were identified with SNPs that did not have an effect on their own. CONCLUSION: Our unbiased approach provided suggestive evidence for interaction between several TLR-related pathway genes important in atopy and/or asthma development and pointed to novel genes.

Interaction of T-cell and antigen presenting cell co-stimulatory genes in childhood IgE.

It is likely that multiple genes contribute to immunoglobulin (Ig)E production. Co-stimulatory molecules are crucial for the cross-talk between antigen presenting cells and T-lymphocytes which drives the IgE response. We evaluated gene-gene interactions of haplotype tagging polymorphisms in a pathway of 24 co-stimulatory genes in relation to serum IgE levels. We assessed this at ages 1-2 yrs and 6-8 yrs in 3,062 Dutch children from a pooled data set of three birth cohorts: PIAMA (Prevention and Incidence Asthma and Mite Allergy), PREVASC (Prevention of Asthma in Children) and KOALA (Child, parents and health: lifestyle and genetic constitution). Single- and multi-locus associations with serum IgE levels (3rd versus 1st tertile) were evaluated by Chi-squared tests and the multifactor dimensionality reduction (MDR) method in the following co-stimulatory genes: VTCN1, TNFRSF4, TNFRSF18, TNFRSF14, TNFSF18, TNFSF4, CD28, CTLA4, ICOS, PDCD1, BTLA, CD80, CD86, HLA-G, CD274, PDCD1LG2, CD276, LILRA4, LILRB1, LILRB2, LILRB4, CD40, ICOSLG, and CD40LG. We found multiple statistically significant single-locus ((S)) and multi-locus ((M)) associations for the genes VTCN1(SM), TNFSF18(SM), TNFSF4(S), CD28(S), CTLA4(M), ICOS(S), BTLA(M), CD80(M), CD86(SM), CD274(SM), PDCD1LG2(M), LILRA4(SM), LILRB4(M), and CD40(SM) with serum IgE. Two-locus interactions of CD86 with VTCN1 and CD274 with LILRA4 were confirmed by logistic regression. In conclusion, serum IgE levels are regulated by multiple gene-gene interaction effects in the co-stimulatory pathway. We suggest using research strategies that model multiple gene-gene interactions in genetic studies.

X-chromosome Forkhead Box P3 polymorphisms associate with atopy in girls in three Dutch birth cohorts.

BACKGROUND: The Forkhead Box P3 (FOXP3) gene, located on the X-chromosome, encodes a transcription factor that directs T cells toward a regulatory phenotype. Regulatory T cells may suppress development of atopy. We evaluated whether single-nucleotide polymorphisms (SNPs) of FOXP3 are associated with atopy development in childhood. METHODS: Seven SNPs in FOXP3 were genotyped in 3062 children (51% boys) participating in the Allergenic study, which consists of three Dutch birth cohorts (PIAMA, PREVASC and KOALA). Association of FOXP3 SNPs with total serum IgE and sensitisation (presence of specific serum IgE to egg, milk, and indoor, i.e. house-dust mite, cat, and/or dog allergens) was investigated at ages 1, 2, 4, and 8. Analysis of variance and logistic regression were performed, stratified for gender. RESULTS: Our most consistent finding was observed for sensitisation to egg and indoor allergens. In girls, five FOXP3 SNPs (rs5906761, rs2294021, rs2294019, rs6609857 and rs3761548) were significantly associated with sensitisation to egg at ages 1 and 2 and with sensitisation to indoor allergens at age 2 (P < 0.05), but not at 4 and 8, a finding that was observed across the three cohorts. Rs5906761 and rs2294021 were associated with remission of sensitisation to food allergens in boys, as tested in the PIAMA cohort. CONCLUSION: This is the first study showing across three cohorts that X-chromosomal FOXP3 genotypes may contribute to development of sensitisation against egg and indoor allergens in girls in early childhood. In addition, an association with remission of sensitisation to food allergens existed in boys only.

Interleukin 13, CD14, pet and tobacco smoke influence atopy in three Dutch cohorts: the allergenic study.

Studying gene-environment interactions may elucidate the complex origins of atopic diseases but requires large study populations. Pooling data from several cohort studies may help but may also obscure findings. Gene-environment interactions in atopy development were studied and the benefits of pooling data were evaluated. Haplotype-tagging polymorphisms in the genes interleukin (IL)13 and CD14 were genotyped in 3,062 children from the following birth cohorts: the Prevention and Incidence of Asthma and Mite Allergy (PIAMA) study; the Prevention of Asthma in Children (PREVASC) study; and the Child, Parent, Health, Focus on Lifestyle and Predisposition (KOALA) study, and tested for association with total and specific immunoglobulin (Ig)E and interaction with tobacco smoke and pet exposure at ages 1, 2, 4 and 8 yrs by analysis of variance, Chi-squared tests and regression analyses. At all ages, in IL13, minor alleles of rs1295685 and rs20541 were significantly associated with elevated IgE levels in pooled analyses. In CD14, the rs2569190-TT and rs2569191-CC genotypes associated with lower IgE and decreased risk of sensitisation at 4 and 8 yrs in children exposed to pets, with an opposite effect in nonexposed children. Findings for IL13 and CD14 were comparable in separate cohorts. The present study indicates that atopy is importantly influenced by interleukin 13 at age 1-8 yrs and by CD14 in interaction with pet exposure at ages 4 and 8 yrs. Additionally, pooled data improved effect estimates and genetic effects could be detected in interaction with important environmental factors.

Phenotype definition, age, and gender in the genetics of asthma and atopy.

When studying genetics of complex diseases it is important to have a clearly described and objective phenotype. When drawing conclusions in association studies, age and gender of the population should be considered. Until we know what causes phenotypic differences between males and females and between children and adults, we should try to study longitudinal cohorts with phenotype assessment at different time points and stratify our analyses for gender. To acquire sufficient power for these types of analyses, international collaboration may be the only way to elucidate the intricate, gene-environmental interactions in atopy and asthma in an age- and gender-dependent manor.