Association of CD14 promoter polymorphisms and soluble CD14 levels in mite allergen sensitization of children in Taiwan

CD14 is responsible for environmental lipopolysaccharide recognition and is a positional candidate gene for allergy. We hypothesized that genetic polymorphisms in the promoter region of the CD14 gene may be associated with Dermatophagoides pteronysinnus (Der p) allergen sensitization in children. Three single nucleotide polymorphisms (SNPs) of the CD14 promoter region, C(–159)T, A(–1,145)G, and G(–1,359)T were genotyped, and analyzed in 240 randomized case–control school-age children in Taiwan. Serum concentrations of IgE and soluble CD14 (sCD14) were also assayed. We found a significant inverse correlation of sCD14 and total serum IgE levels in our study population. Moreover, sCD14 binds Der p allergen in vitro in a dose-dependent manner. The distribution of three SNPs genotypes was similar in asthmatic children and the control group. However, there was a significant difference in the distribution of genotype CD14 G(–1,359)T, but not C(–159)T, between mite-sensitive and non-sensitive children. Haplotype analysis showed strong linkage disequilibrium among these three SNPs in the CD14 promoter region. Carriers of the CD14–159C/–1,145A/–1,359T haplotype had the highest IgE and lowest sCD14 levels as compared to other haplotypes. Our results support the hypothesis that CD14 gene variants may play an important role in influencing allergen sensitization of children in Taiwan.     

用染色体候选区域限定策略对诏安地区人群哮喘易感性的初

目的 对福建诏安地区哮喘感基因进行研究,以获得相关位点的资料,确定哮喘易感性与该区域的连锁关系。方法 用ＰＣＲ／ＲｓａＩ酶解检测位于染色体１１ｑ１３区的β链ＩｇＥ高亲和力受体基因（ＦｃεＲＩ－β）非编码区的两个多态性位点;用同位素掺入的ＰＣＲ法扩增位于染色体５ｑ３１－３３区的Ｄ５Ｓ４３６和Ｄ５Ｓ３９３多态性标记,对３２个哮喘家系,共１９２份样品进行分析。结果 ＦｃεＲＩ－β基因第２内含子区ＲｓａＩ     

Fine mapping of an IgE-controlling gene on chromosome 2q: Analysis of CTLA4 and CD28

BACKGROUND: Several genomic regions have been identified that might contain genes contributing to the development of asthma and atopy. These include chromosome 2q33, where we have observed evidence for linkage for variation in total serum IgE levels in a Dutch asthma population. Two candidate genes, CTLA4 and CD28, important homeostatic regulators of T-cell activation and subsequent IgE production, map within this candidate region. OBJECTIVE: We sought to fine-map the chromosome 2q33 region and evaluate CTLA4 and CD28 as candidate genes for the regulation of total serum IgE levels and related phenotypes. METHODS: The coding regions of CTLA4 and CD28 were resequenced in 96 individuals; 4 novel SNPs in CTLA4 and 10 in CD28 were identified. Polymorphisms in both genes were analyzed in 200 asthmatic probands and their spouses (n = 201). RESULTS: Subsequent fine- mapping in this region has resulted in an increased log of the odds (lod) score (1.96 to 3.16) for total serum IgE levels. For CTLA4, the +49 A/G single nucleotide polymorphism (SNP) in exon 1 and the 3 ' untranslated region microsatellite were significantly associated with total serum IgE levels (P =.0005 and.006, respectively). For the combined +49 A/G and 3 'untranslated region genotypes, individuals homozygous for the risk allele for both polymorphisms (AA and 86/86) had the highest total serum IgE values (87.1 IU/mL), whereas those individuals with the GG and XX/XX genotypes (anything but the 86-bp allele) had the lowest IgE values (29.3 IU/mL). Significant association was also observed for the CTLA4 -1147 C/T SNP with bronchial hyperresponsiveness (BHR) and asthma (P =.008 and.012, respectively), but not for allergy-related phenotypes. Promoter luciferase assays examining the -1147 polymorphism suggested that the T allele, which was associated with increased BHR susceptibility, was expressed at half the level of the C allele. Individuals with the risk genotypes for both BHR (-1147 CT or TT) and elevated IgE levels (+49 AA) were 4.5 times more likely to have asthma than individuals with both nonrisk genotypes (P =.0009). No significant associations were observed for SNPs in CD28. CONCLUSION: These data suggest that the costimulatory pathway, specifically CTLA4, is important in the development of atopy and asthma.     

Evaluation of the CD14 C-159 T polymorphism in the German Multicenter Allergy Study cohort

BACKGROUND: Multiple genetic studies have shown linkage of atopy-related phenotypes to chromosome 5q31. In this region several candidate genes for atopy are localized such as the Th2 cytokines IL-4, IL-5 and IL-13, but also CD14, a receptor for LPS. Recently, a functional CD14 promoter polymorphism was related to total and specific IgE responsiveness. OBJECTIVE: The aim of our study was to evaluate the role of this single nucleotide polymorphism (SNP) in a large German birth cohort. METHODS: Atopy-related phenotypes were longitudinally carefully evaluated in over 800 children from birth to the age of 10 years. Yearly visits included standardized interviews, physical examinations and determination of total and specific IgE antibodies. Pulmonary function tests and histamine provocations were performed at the age of seven. Eight-hundred and seventy-two children of the Multicenter Allergy Study (MAS) cohort were genotyped using melting curve and restriction digest analyses. RESULTS: CD14-159 allele frequencies were consistent with previous reports, however, no association of the SNP with asthma, atopic dermatitis, allergic rhinitis, total or specific IgE levels could be observed. CONCLUSION: The CD14-159 SNP might not play a major role in the development of atopy in German children.     

Linkage between bronchial responsiveness to methacholine and gene markers of IL-4 cytokine gene cluster and T-cell receptor α/δ gene complex in Korean nuclear families

BACKGROUND: Several candidate genes have been reported to be linked to intermediate phenotypes of asthma in Caucasian populations. OBJECTIVE: To evaluate linkage between phenotypes of asthma and gene markers of high affinity IgE receptor-beta gene (D11S97), IL-4 cytokine gene cluster (IL-4R1), and T-cell receptor alpha/delta gene complex (D14S50) in Korean nuclear families. METHODS: Nuclear families (127 probands and their 130 siblings) for the linkage analysis were ascertained through asthmatic children. Linkages between total serum IgE response, skin responses to common aeroallergens, and bronchial responsiveness to methacholine were performed using a sib-pair approach. RESULTS: The square difference of the slope of the dose-response curve (DRS) between sib-pairs with two IL-4R1 identical alleles was smaller than with one or with neither IL-4R1 identical allele (P = 0.004). As for D14S50, the differences of DRS between sib-pairs with two identical alleles and with one identical allele were smaller than with neither identical alleles (P = 0.01). As for D11S97, no significant differences were observed among the groups with identical alleles of two, one or zero. With regard to total serum IgE levels, no significant linkage was found between this phenotype and the above three gene markers. As for skin responses to common aeroallergens, significant evidence was obtained to establish a linkage between this phenotype and the marker IL-4R1 (P = 0.01). However, no significant linkage was found between this phenotype and the markers D11S97 and D14S50. CONCLUSION: The expression of bronchial responsiveness to methacholine may be influenced by genetic factors in the IL-4 cytokine gene cluster and/or T-cell receptor alpha/delta gene complex, but the genetic influence of the FcepsilonRI-beta gene may be minimal in the expression of bronchial responsiveness in Korean nuclear families.     

Chromosome 7p linkage and GPR154 gene association in Italian families with allergic asthma

BACKGROUND: Several genome scans have reported linkage of markers on chromosome 7p with asthma and related phenotypes in different populations. A fine mapping in Finnish and French-Canadian populations has associated the GPR154 gene (also known as G-protein-coupled receptor for asthma susceptibility, GPRA) with elevated IgE or asthma. OBJECTIVE: To confirm chromosome 7p linkage and candidate gene association in Italian families with atopic asthma. METHODS: In a two-phase approach, we first performed a linkage analysis of chromosome 7, and then a family-based association study on the GPR154 gene for allergic asthma phenotypes in the Italian population. RESULTS: The screening of 117 families with 19 microsatellite markers showed potential linkage for elevated IgE (P<0.002 at 22 cM from p-ter), asthma (P<0.005 at 44 cM), or atopy (P<0.005 at 54 cM). In the second phase of the present study, candidate gene GPR154, which is located in the phase one-linked region, was investigated in 211 families with seven single nucleotide polymorphisms (SNPs) that tag most haplotype variability, by the pedigree disequilibrium test. Elevated IgE levels were associated with two GPR154 gene SNPs (SNP 546333, P=0.0046; rs740 347, P=0.006), and with haplotypes in the global test (P=0.013). Haplotype analysis performed in nuclear families having at least 1 asthmatic parent showed a significant association with asthma (P=0.0173), atopy (P=0.0058), SPT (P=0.0025), and bronchial hyper reactivity (P=0.0163). CONCLUSION: These results support a susceptibility locus for asthma and related phenotypes on chromosome 7, and are in agreement with recent reports suggesting that a common susceptibility factor for atopic manifestations in asthma is likely conferred by the locus containing the GPR154 gene.     

Linkage and association of atopic asthma to markers on chromosome 13 in the Japanese population.

Chromosome 13 contains several candidate genes for asthma and atopy, and markers on this chromosome have been shown to be linked to phenotypes of atopy or asthma in two genome-wide searches. We conducted a linkage study for atopic asthma using markers spanning the whole of chromosome 13 in Japanese families ascertained through asthmatic children and examined associations of atopic asthma with markers where linkage was suggested. Data were analysed using MAPMAKER/SIBS for the multipoint lod score (MLS) analysis and SIB-PAIR for the transmission dis-equilibrium test (TDT). Three peaks which exceeded a lod score of 1.0 were observed (MLS 2.4 between D13S175 and D13S217, MLS 2.0 between D13S153 and D13S156, and MLS 1.4 between D13S285 and D13S293). The global TDT for atopic asthma was significant for the marker D13S153 ( P = 0.0065) and the 96 bp allele of D13S153 was preferentially transmitted to atopic asthma-affected children ( P = 0.0009, Bonferroni correction 5% = 0. 0037, 1% = 0.00072). These findings indicate that genes on chromosome 13 may play an important role in the development of atopy or asthma across various populations.     

Toll-like receptors and CD14 genes polymorphisms and susceptibility to asthma in Tunisian children

Many studies have shown the implication of CD14 and toll-like receptors (TLRs) 2, 4 and 9 in the pathogenesis of asthma or atopy. To evaluate the association of CD14 and TLRs gene polymorphisms with asthma or atopy, 210 asthmatic children, 224 controls and 80 families were enrolled in this study. Six single nucleotide polymorphisms TLR2 (+2408 G-->A), TLR4 (+1196 C-->T), TLR4 (+896 A-->G), TLR9 (-1237 T-->C), TLR9 (-1486 T-->C) and CD14 (-159 C-->T) were genotyped using polymerase chain reaction followed by restriction fragment length polymorphism in the case-control and family study. The -1237C allele in TLR9 gene polymorphisms was associated with increased risk of asthma [odds ratio 1.53, 95% confidence interval (1.03-2.27)], although no statistically significant differences in allele or genotype frequencies of four other TLRs polymorphisms were evident between the asthmatic and control groups. The CD14 -159 C allele was found to be significantly higher in the asthmatic group when compared with controls (P=0.0006<0.05). Transmission disequilibrium test of 80 asthmatic families showed significant transmission of the -159 C allele in the CD14 gene to asthma-affected offspring. It was concluded that TLR9 and CD14 gene polymorphisms may contribute to an inherited predisposition to asthma in Tunisian children.     

Linkage between severe atopy and chromosome 11q13 in Japanese families

Atopy, characterised by allergic asthma and rhinitis, is due to increased IgE responses to common aeroallergens. An Oxford group has described maternal inheritance of atopy, where there is significant linkage between IgE responsiveness and a VNTR marker D11S97 and a CA microsatellite within a candidate gene, the high affinity IgE receptor β subunit(FcεRIβ), on chromosome 11q. Attempts at independent replication have produced conflicting results. We therefore recruited 270 atopic asthmatic probands in a Japanese community population for genetic linkage analysis. Four families, each with more than 15 meioses and a clear phenotype for atopy, were selected for genetic analysis. Atopy was defined as presence of all of raised total IgE, positive RAST and skin tests to three or more aeroallergens; non-atopy, as absence of all these criteria. Linkage analysis showed a maximum two-point lod score of 9.35 for D11S97 and FcεRIβ under the assumption of unequal rates of maternal and paternal recombination. Two families showed close genetic linkage with FcεRIβ with a pattern of maternal inheritance. These results from a Japanese population provide further evidence for genetic linkage between severe atopy and chromosome 11q13 and the likelihood of genomic imprinting at the locus.     

Linkage Disequilibrium Pattern in Asthma Candidate Genes from 5q31‐q33 in the Singapore Chinese Population

Studies have shown linkage between microsatellite markers from the chromosome 5q31‐q33 region with asthma, atopy and total IgE levels in the Singapore Chinese population. However, subsequent case‐control studies failed to show association between the polymorphisms in the candidate genes from this region and asthma or related phenotypes. In this study, we investigated 20 asthma candidate genes from this region for all possible informative polymorphisms within our population, linkage disequilibrium (LD) structure and tagging SNP transferability from HapMap populations. We re‐sequenced these genes and identified 267 polymorphisms including 26 insertion‐deletions, four microsatellite markers and 237 single nucleotide polymorphisms. The region contained 17 distinct LD blocks with the largest within the serine peptidase inhibitor kazal type 5 (SPINK5) gene spanning 23 kb. Of the 267 polymorphisms identified, 40% are represented in HapMap Han Chinese from Beijing and 29% in Han Chinese from Denver. 72% of the polymorphisms can be represented by tagged SNPs from the HapMap Beijing Han Chinese population and are highly correlated in terms of minor allele frequencies and LD structure. Our data suggest that although the HapMap Han Chinese population from Beijing is very similar to the Singapore Chinese population, this similarity is insufficient to account for up to 28% of the polymorphisms in the local population.     

Chromosome 14 linkage analysis and mutation study of 2 serpin genes in allergic asthmatic families

BACKGROUND: Genome and chromosome screens reported DNA markers on chromosome 14 linked to allergic asthma or intermediate phenotypes in several populations. OBJECTIVE: We sought to perform a linkage study on chromosome 14 and a further association study on candidate genes mapped in the region found to be linked to allergic asthma or intermediate phenotypes. METHODS: The study consisted of a sample of 189 families (847 genotyped individuals) from a restricted geographic area in northeastern Italy. The subjects were characterized for the following phenotypes: allergic asthma, total serum IgE levels, skin prick test responses, and bronchial hyperresponsiveness (BHR) to methacholine. Genotyping was done with 14 DNA markers and 4 polymorphisms in the genes encoding alpha(1)-anti-trypsin and alpha(1)-antichymotrypsin (ACT). RESULTS: Multipoint analysis indicated a potential linkage of BHR with marker D14S617 (nonparametric linkage z score = 2.32, P =.01). Transmission disequilibrium of Thr -15Ala in the gene encoding ACT was observed with all the phenotypes investigated: allergic asthma, BHR, total IgE levels, or skin prick test responses (P =.041,.02,.0053, or.026, respectively). CONCLUSION: Chromosome 14 screening and transmission disequilibrium testing on the gene encoding ACT suggest that it or a closely located gene may be involved in susceptibility to allergic asthma in the Italian population.     

Screening of the FcεRI-β-Gene in a Swiss Population of Asthmatic Children: No Association with E237G and Identification of New Sequence Variations

Background: The gene of the beta subunit of the high affinity receptor for IgE (FcεRI-β) encoded on chromosome 11q13 has recently been identified as a candidate gene for asthma and atopy. Two coding variations, E237G and I181L have been described as being associated with asthma and atopy. Our aim was to investigate a Swiss population of atopic and asthmatic children for variations in this gene.Methods: We screened all 7 exons of the FcεRI-β- gene in 224 atopic/asthmatic, 68 relatives and 159 control subjects using exon amplification by PCR and single strand conformation polymorphism (SSCP) analysis followed by fluorescence based DNA sequencing.Results: The sequence variant E237G was found in 3.7% in atopics and in 2.6% in the control population. None of the samples carried the I181L mutation. In addition, we characterised nine novel mutations (1 nonsense mutation, 2 missense mutations, mutation, 2 silent mutations, 4 intronic mutations).Conclusions: Our results suggest that the E237G does not have a primary effect on the development of atopy and asthma, and thus excludes the FcεRI-β locus from being a candidate gene directly involved in these diseases.     

Polymorphisms in the novel gene acyloxyacyl hydroxylase (AOAH) are associated with asthma and associated phenotypes

BACKGROUND: The gene encoding acyloxyacyl hydroxylase (AOAH), an enzyme that hydrolyzes secondary fatty acyl chains of LPS, is localized on chromosome 7p14-p12, where evidence for linkage to total IgE (tIgE) concentrations and asthma has been previously reported. OBJECTIVE: We hypothesized that variants in AOAH are associated with asthma and related phenotypes. Because both AOAH and soluble CD14 respond to LPS, we tested for gene-gene interaction. METHODS: We investigated the association between 28 single nucleotide polymorphisms throughout the AOAH gene and asthma, concentrations of tIgE, the ratio of IL-13/IFN-gamma, and soluble CD14 levels among 125 African Caribbean, multiplex asthmatic pedigrees (n = 834). Real-time PCR was used to assess whether AOAH cDNA expression differed with AOAH genotype. RESULTS: Significant effects were observed for all 4 phenotypes and AOAH markers in 3 distinct regions (promoter, introns 1-6, and the intron 12/exon 13 boundary/intron 13 region) by means of single-marker and haplotype analyses, with the strongest evidence for a 2-single-nucleotide-polymorphism haplotype and log[tIgE] (P = .006). There was no difference in AOAH expression levels by AOAH genotype for any of the markers. Comparing genotypic distributions at both the AOAH marker rs2727831 and CD14(-260)C >T raises the possibility of gene-gene interaction (P = .006-.036). CONCLUSION: Our results indicate that polymorphisms in markers within the AOAH gene are associated with risk of asthma and associated quantitative traits (IgE and cytokine levels) among asthmatic subjects and their families in Barbados, and there is an interactive effect on tIgE and asthma concentrations between an AOAH marker and the functional CD14(-260)C >T polymorphism. CLINICAL IMPLICATIONS: AOAH is a novel innate immunity candidate gene associated with asthma and related phenotypes in an African ancestry population.     

Two CD14 promoter polymorphisms and atopic phenotypes in Czech patients with IgE-mediated allergy

BACKGROUND: Immunoglobulin E (IgE)-mediated allergy belongs to common chronic disorders resulting from an interaction between both genetic and environmental factors. The gene encoding CD14 is a positional candidate gene for allergic diseases as it is localized on chromosome 5q31.1, a region that is linked to asthma and bronchial hyperresponsiveness. Recently, several polymorphisms in the promoter region of this gene have been associated with atopic phenotypes in various populations. METHODS: We investigated relationship among atopic phenotypes and two polymorphisms [C(-159)T and G(-1359)T] in the promoter of the CD14 gene in the Czech population. Polymerase chain reaction with restriction fragment length polymorphism analyses was used to determine the CD14 genotypes in subjects with IgE-mediated allergic diseases (n = 562) and random controls (n = 320). RESULTS: The CD14 allele or genotype distributions were similar in patients and control group. However, the frequency of the C allele of the C(-159)T polymorphism was higher in patients with positive skin prick tests for moulds than in patients without reactivity to this antigen (P < 0.002, Pcorr<0.01). In addition, we found that patients with homozygous genotype (GG) of the G(-1359)T polymorphism had marginally lower percentage of positive skin prick tests compared with the other genotypes (P < 0.029, Pcorr > 0.05). CONCLUSIONS: Our study supports the idea that CD14 gene variants may act as disease modifiers of IgE-mediated allergic diseases.     

Genetic susceptibility to asthma and atopy among Chinese in Singapore--linkage to markers on chromosome 5q31-33

BACKGROUND: Asthma and atopy are complex genetic traits, influenced by the interaction of multiple genes and environmental factors. Linkage of these traits to chromosome 5q31-33 has been shown in other populations, but has not been well studied in the Chinese. We studied linkage between asthma and atopy with markers on chromosome 5q31-33 in the Singapore Chinese. This region contains many candidate genes, including the cytokine gene cluster. METHODS: We recruited 88 Chinese families with at least two affected offspring, totaling 373 subjects, with 125 and 119 sib-pairs for atopy and asthma, respectively. All individuals were genotyped with 19 polymorphic microsatellite markers spanning a distance of 41 cM along chromosome 5q31-33. Affected sib-pair and multipoint linkage analysis was performed. RESULTS: There was evidence for linkage of the asthma and atopy phenotypes with three markers, D5S2110, D5S2011, and D5S412 (P values of 0.001 to 0.00001). Multipoint analysis further substantiated this (nonparametric linkage scores of 1.8-2.9). These findings suggest that susceptibility genes for asthma and atopy are found in this region in the Chinese. CONCLUSION: This study has shown linkage of atopy and asthma to chromosome 5q31-33 in a heterogeneous Chinese population. These findings further substantiate the notion that chromosome 5q31-33 contains "universally" important susceptibility genes for these traits.     

Mapping of gene loci in the Q13–Q15 region of chromosome 12

The gene loci CDK4, GLI, CHOP and MDM2 have been mapped to the q13–q15 region of chromosome 12. Using fluorescencein situ hybridization onto simultaneously DAPI-banded metaphase chromosomes and interphase nuclei, we have more precisely mapped and ordered these loci, together with a number of Genethon microsatellite markers. GLI and CHOP localize to 12q13.3–14.1, CDK4 to 12q14 and MDM2 to 12q14.3–q15, and the gene order is cen-GLI/CHOP-CDK4-MDM2. The Genethon microsatellites D12S80 and D12S83 flank MDM2.     

The effect of polymorphisms at the CD14 promoter and the TLR4 gene on asthma phenotypes in Turkish children with asthma

BACKGROUND: Endotoxin, with its potential to enhance type 1 immunity, is a significant player in the hygiene hypothesis. The combined effects of the genetic variants of various molecules in the endotoxin response pathway on asthma related phenotypes are largely unknown. OBJECTIVE: To investigate the effects of the genetic variants of CD14 and TLR4 genes on asthma phenotypes in a large number of asthmatic children. METHODS: 613 asthmatic children were genotyped at the CD14-C159T, TLR4-A896G and TLR4-C1196T loci. IgE, eosinophil numbers and FEV1 were compared in 327 children who were not on any controller medications and were symptom free. Multivariate logistic regression was used to determine the factors associated with total IgE. RESULTS: Among children with atopic asthma, total IgE levels were significantly different among the three genotypes in the co-dominant model [CC: 435 kU/l (interquartile range: 146-820); CT: 361 (140-710); TT 204 (98-435), P = 0.035]. TT genotype was significantly and independently associated with lower IgE levels (OR: 0.5 95%; CI = 0.28-0.90, P = 0.021). Both TLR4-A896G and TLR4-C1196T polymorphisms were more frequent in the mild asthma group with atopy (P = 0.032, 0.018, respectively). The combined effects of the genetic variants in CD14 and TLR4 genes did not improve the observed associations. CONCLUSION: Our study demonstrates that the CD14-C159T promoter variant influences total IgE levels and also indicates that the T allele has a more profound effect on total IgE in children with atopic asthma. Polymorphisms in the TLR4 gene may be associated with milder forms of disease in atopic asthmatics in the population studied.     

(CCTTT)n repeat polymorphism in the NOS2 gene promoter is associated with atopy.

BACKGROUND: Several studies have shown that nitric oxide (NO) plays a role in the regulation of the T(H)1/T(H)2 balance, indicating the potential for NO to contribute to the development of atopy and several other allergic diseases, including bronchial asthma. NO synthase 2 (NOS2) is critically involved in the synthesis of NO during several inflammatory states, and the gene encoding NOS2 is located at chromosome 17q11.2-q12, where 2 genome scans have identified a candidate locus for atopy and asthma. OBJECTIVE: The 14-repeat allele of the (CCTTT)(n) repeat polymorphism in the NOS2 promoter region is a powerful enhancer of promoter activity in reporter constructs in vitro. We tested whether this potentially functional allele in the NOS2 gene influences the development of atopy and asthma. METHODS: We studied a total of 497 unrelated Japanese subjects (141 nonatopic healthy controls, 102 atopic healthy controls, 56 nonatopic asthmatic subjects, and 198 atopic asthmatic subjects). The odds ratio (OR) was calculated for atopy and asthma in carriers of the 14-repeat allele through use of logistic regression models. Atopy was defined as a positive specific IgE level to at least 1 of 10 common inhaled allergens. RESULTS: The 14-repeat allele was inversely associated with atopy (OR = 0.42, P < .01). The association remained significant when the model was controlled for asthmatic status (OR = 0.36, P < .01). This allele, however, was associated neither with the development of asthma nor with total serum IgE levels. CONCLUSION: Our findings suggest that the (CCTTT)(n) repeat polymorphism in the promoter of the NOS2 gene that affects promoter activity is a risk factor for the development of atopy, and this genetic effect seems independent of asthma.     

Analysis of chromosome 6 deletions in lymphoid malignancies provides evidence for a region of minimal deletion within a 2-megabase segment of 6q21

Fluorescence in situ hybridization has been used to define deletion breakpoints within chromosome bands 6q16–21 incases of lymphoid malignancy. Previous evidence suggested that the region might contain a tumour-suppressor gene. Six yeast artificial chromosome probes, each selected using a single marker, were localized to 6q16–21 and the following order was confirmed; D6S330–D6S283–D6S301–D6S447–D6S246–FYN. Of 32 cases of lymphoid malignancy, 30 showed deletion of D6S246 and, in the two cases in which D6S246 was retained, the adjacent marker, D6S447, was deleted. These observation simply that a region of minimal deletion is located within a 2-megabase segment of 6q21, between D6S447 and D6S246, providing a candidate region for the location of a tumour-suppressor gene.This revised version was published online in November 2005 with corrections to the Cover Date.