Association of FANCC polymorphisms with FEV1 decline in aspirin exacerbated respiratory disease

Aspirin exacerbated respiratory disease (AERD) is a clinical condition characterized by severe decline in forced expiratory volume in one second (FEV1) following the ingestion of non-steroidal anti-inflammatory drugs (NSAIDs), including aspirin. The exacerbated inflammatory response in Fancc-deficient mice has been reported to be associated with hemopoietic responses that are also related to AERD pathogenesis. To investigate associations of FANCC polymorphisms with AERD and related phenotypes, this study genotyped 25 common single nucleotide polymorphisms (SNPs) in a total of 592 Korean asthmatics including 163 AERD and 429 aspirin-tolerant asthma (ATA) subjects. Logistic analysis revealed that genetic polymorphisms of the FANCC gene might not be directly related to AERD development and nasal polyposis (P?>?0.05). However, the FEV1 decline by aspirin provocation showed significant associations with FANCC polymorphisms (P?=?0.006?C0.04) and a haplotype (unique to rs4647416G?>?A, P?=?0.01 under co-dominant, P?=?0.006 under recessive model). In silico analysis showed that the ??A?? allele of rs4647376C?>?A, which was more prevalent in AERD than in ATA, could act as a potential branch point (BP) site for alternative splicing (BP score?=?4.16). Although replications in independent cohorts and further functional evaluations are still needed, our preliminary findings suggest that FANCC polymorphisms might be associated with the obstructive symptoms in allergic diseases.     

Genetic analysis between FGD6 and aspirin exacerbated respiratory disease in a Korean population

The human FYVE, RhoGEF and PH domain containing 6 (FGD6) gene regulates mechanisms that are implicated in airway bronchospasm, and therefore, may be a risk factor for aspirin exacerbated respiratory disease (AERD). This study aims to investigate the association between FGD6 variations and AERD in a Korean asthma cohort. A total of 34 single nucleotide polymorphisms (SNPs) were selected for genotyping based on previously reported polymorphisms in the HapMap database. Genotyping was carried out using TaqMan assay and nine major haplotypes from two haplotype blocks were obtained in 163 AERD cases and 429 aspirin-tolerant asthma (ATA) controls. Genotype frequency distributions of FGD6 polymorphisms and haplotypes were analyzed using logistic and regression models. Findings from logistic and regression analyses revealed a lack of association of FGD6 genetic variations with AERD and fall rate of FEV₁ (P > 0.05 in co-dominant, dominant and recessive models). This preliminary report provides evidences that variations in the FGD6 gene do not influence the risk of AERD and its relevant phenotype in a Korean population. This report may contribute to the etiology of aspirin hypersensitivity in Korean asthma patients.     

Lack of association of HLA-DRA polymorphisms with aspirin exacerbated respiratory disease in a Korean population

The human HLA class II histocompatibility antigen, DR alpha chain (HLA-DRA) is a member of the MHC class II gene family that activates T cells allowing secretion in various cytokines to immune responses. Thus, we explored whether the genetic variations in HLA-DRA gene can influence susceptibility for aspirin exacerbated respiratory disease (AERD). To carry out the investigation, 22 single nucleotide polymorphisms (SNPs) in HLA-DRA were genotyped in 592 Korean asthma patients. Logistic and regression analyseis wereas used to evaluate the P-values for associations of HLA-DRA polymorphisms with AERD and a relevant phenotype, the fall rate of forced expiratory volume in the 1^st second (FEV₁). Logistic analyses revealed that two variants, rs6911777 and HLA_DRA_BL1_ht3 were initially associated with AERD via dominant and recessive models (P = 0.05 and 0.01, respectively), however, the signals did not reach the threshold of significance after multiple corrections. Furthermore, we observed that fall rate of FEV1 by aspirin provocation was marginally different between AERD cases and aspirin-tolerant asthma (ATA) controls (mean = 24.63 vs 3.54, respectively). This study provides result of first association analysis between the variants of HLA-DRA and the risk of AERD, and conclusions derived from the study do not support significant roles of polymorphisms in HLA-DRA with AERD.     

The SNP rs3128965 of HLA-DPB1 as a Genetic Marker of the AERD Phenotype

Background

Two common clinical syndromes of acetylsalicylic acid (aspirin) hypersensitivity, aspirin-exacerbated respiratory disease (AERD) and aspirin-exacerbated cutaneous disease (AECD), were subjected to a genome-wide association study to identify strong genetic markers for aspirin hypersensitivity in a Korean population.

Methods

A comparison of SNP genotype frequencies on an Affymetrix Genome-Wide Human SNP array of 179 AERD patients and 1989 healthy normal control subjects (NC) revealed SNPs on chromosome 6 that were associated with AERD, but not AECD. To validate the association, we enrolled a second cohort comprising AERD (n = 264), NC (n = 238) and disease-control (aspirin tolerant asthma; ATA, n = 387) groups.

Results

The minor genotype frequency (AG or AA) of a particular SNP, rs3128965, in the HLA-DPB1 region was higher in the AERD group compared to the ATA or NC group (P = 0.001, P = 0.002, in a co-dominant analysis model, respectively). Comparison of rs3128965 alleles with the clinical features of asthmatics revealed that patients harboring the A allele had increased bronchial hyperresponsiveness to inhaled aspirin and methacholine, and higher 15-HETE levels, than those without the A allele (P = 0.039, 0.037, and 0.004, respectively).

Conclusions

This implies the potential of rs3128965 as a genetic marker for diagnosis and prediction of the AERD phenotype.     

Genome-wide association study of aspirin-exacerbated respiratory disease in a Korean population

Aspirin-exacerbated respiratory disease (AERD) is a nonallergic clinical syndrome characterized by a severe decline in forced expiratory volume in one second (FEV1) following the ingestion of non-steroidal anti-inflammatory drugs (NSAIDs) such as aspirin. The effects of genetic variants have not fully explained all of the observed individual differences to an aspirin challenge despite previous attempts to identify AERD-related genes. In the present study, we performed genome-wide association study (GWAS) and targeted association study in Korean asthmatics to identify new genetic factors associated with AERD. A total of 685 asthmatic patients without AERD and 117 subjects with AERD were used for the GWAS of the first stage, and 996 asthmatics without AERD and 142 subjects with AERD were used for a follow-up study. A total of 702 SNPs were genotyped using the GoldenGate assay with the VeraCode microbead. GWAS revealed the top-ranked variants in 3′ regions of the HLA-DPB1 gene. To investigate the detailed genetic effects of an associated region with the risk of AERD, a follow-up targeted association study with the 702 single nucleotide polymorphisms (SNPs) of 14 genes was performed on 802 Korean subjects. In a case–control analysis, HLA-DPB1 rs1042151 (Met105Val) shows the most significant association with the susceptibility of AERD (p = 5.11 × 10^?7; OR = 2.40). Moreover, rs1042151 also shows a gene dose for the percent decline of FEV1 after an aspirin challenge (p = 2.82 × 10^?7). Our findings show that the HLA-DPB1 gene polymorphism may be the most susceptible genetic factor for the risk of AERD in Korean asthmatics and confirm the importance of HLA-DPB1 in the genetic etiology of AERD.     

Genome-wide and follow-up studies identify CEP68 gene variants associated with risk of aspirin-intolerant asthma

Aspirin-intolerant asthma (AIA) is a rare condition that is characterized by the development of bronchoconstriction in asthmatic patients after ingestion of non-steroidal anti-inflammatory drugs including aspirin. However, the underlying mechanisms of AIA occurrence are still not fully understood. To identify the genetic variations associated with aspirin intolerance in asthmatics, the first stage of genome-wide association study with 109,365 single nucleotide polymorphisms (SNPs) was undertaken in a Korean AIA (n = 80) cohort and aspirin-tolerant asthma (ATA, n = 100) subjects as controls. For the second stage of follow-up study, 150 common SNPs from 11 candidate genes were genotyped in 163 AIA patients including intermediate AIA (AIA-I) subjects and 429 ATA controls. Among 11 candidate genes, multivariate logistic analyses showed that SNPs of CEP68 gene showed the most significant association with aspirin intolerance (P values of co-dominant for CEP68, 6.0×10⁻⁵ to 4.0×10⁻⁵). All seven SNPs of the CEP68 gene showed linkage disequilibrium (LD), and the haplotype of CEP68_ht4 (T-G-A-A-A-C-G) showed a highly significant association with aspirin intolerance (OR  = 2.63; 95% CI  = 1.64–4.21; P = 6.0×10⁻⁵). Moreover, the nonsynonymous CEP68 rs7572857G>A variant that replaces glycine with serine showed a higher decline of forced expiratory volume in 1s (FEV₁) by aspirin provocation than other variants (P = 3.0×10⁻⁵). Our findings imply that CEP68 could be a susceptible gene for aspirin intolerance in asthmatics, suggesting that the nonsynonymous Gly74Ser could affect the polarity of the protein structure.     

Lack of association between IRAK2 genetic variants and aspirin exacerbated respiratory disease

Asthma is a global health problem which threatens approximately 300 million patients worldwide. Among them, up to 20 % of the asthma patients are classified as aspirin exacerbated respiratory disease (AERD). Interleukin-1 receptor associated kinase (IRAK2) is associated with necrosis factor kappa B (NF-кB) pathway via interleukin-1 (IL-1) signaling. NF-кB pathway is known to be involved in asthma development, and several interleukin and IRAK family members have also been reported to be associated with asthma or AERD. Since IRAK2 plays an important role in the asthma etiology, we hypothesized that the genetic variants of IRAK2 may be associated with AERD. This study genotyped a total of 25 common single nucleotide polymorphisms (SNPs) in 163 AERD cases and 429 aspirin-tolerant asthma (ATA) controls. As a result, no significant association was found between the genetic variants of IRAK2 and AERD (P > 0.05). In further regression analysis for the forced expiratory volume in 1 s (FEV₁) decline, an important phenotype for diagnosing AERD, although one haplotype (BL1_ht3) showed a nominal association with FEV₁ decline (P = 0.04), the significance disappeared after correction for multiple testing (P > 0.05). Despite limitations in our study and need for replications, our results suggest that the genetic variants of IRAK2 might not be associated with AERD and the obstructive symptoms in asthma.     

Exonic Variants Associated with Development of Aspirin Exacerbated Respiratory Diseases

Aspirin-exacerbated respiratory disease (AERD) is one phenotype of asthma, often occurring in the form of a severe and sudden attack. Due to the time-consuming nature and difficulty of oral aspirin challenge (OAC) for AERD diagnosis, non-invasive biomarkers have been sought. The aim of this study was to identify AERD-associated exonic SNPs and examine the diagnostic potential of a combination of these candidate SNPs to predict AERD. DNA from 165 AERD patients, 397 subjects with aspirin-tolerant asthma (ATA), and 398 normal controls were subjected to an Exome BeadChip assay containing 240K SNPs. 1,023 models (2¹⁰-1) were generated from combinations of the top 10 SNPs, selected by the p-values in association with AERD. The area under the curve (AUC) of the receiver operating characteristic (ROC) curves was calculated for each model. SNP Function Portal and PolyPhen-2 were used to validate the functional significance of candidate SNPs. An exonic SNP, exm537513 in HLA-DPB1, showed the lowest p-value (p = 3.40×10⁻⁸) in its association with AERD risk. From the top 10 SNPs, a combination model of 7 SNPs (exm537513, exm83523, exm1884673, exm538564, exm2264237, exm396794, and exm791954) showed the best AUC of 0.75 (asymptotic p-value of 7.94×10⁻²¹), with 34% sensitivity and 93% specificity to discriminate AERD from ATA. Amino acid changes due to exm83523 in CHIA were predicted to be “probably damaging” to the structure and function of the protein, with a high score of ‘1’. A combination model of seven SNPs may provide a useful, non-invasive genetic marker combination for predicting AERD.     

Association analysis of ILVBL gene polymorphisms with aspirin-exacerbated respiratory disease in asthma

Background

We previously reported that the ILVBL gene on chromosome 19p13.1 was associated with the risk for aspirin-exacerbated respiratory disease (AERD) and the percent decline of forced expired volume in one second (FEV1) after an oral aspirin challenge test. In this study, we confirmed the association between polymorphisms and haplotypes of the ILVBL gene and the risk for AERD and its phenotype.

Methods

We recruited 141 AERD and 995 aspirin-tolerant asthmatic (ATA) subjects. All study subjects underwent an oral aspirin challenge (OAC). Nine single nucleotide polymorphisms (SNPs) with minor allele frequencies above 0.05, which were present in the region from 2 kb upstream to 0.5 kb downstream of ILVBL in Asian populations, were selected and genotyped.

Results

In an allelic association analysis, seven of nine SNPs were significantly associated with the risk for AERD after correction for multiple comparisons. In a codominant model, the five SNPs making up block2 (rs2240299, rs7507755, rs1468198, rs2074261, and rs13301) showed significant associations with the risk for AERD (corrected P?=?0.001–0.004, OR?=?0.59–0.64). Rs1468198 was also significantly associated with the percent decline in FEV1 in OAC tests after correction for multiple comparisons in the codominant model (corrected P?=?0.033), but the other four SNPs in hapblock2 were not.

Conclusion

To the best of our knowledge, this is the first report of an association between SNPs on ILVBL and AERD. SNPs on ILVBL could be promising genetic markers of this condition.

     

Elevation of Eosinophil-Derived Neurotoxin in Plasma of the Subjects with Aspirin-Exacerbated Respiratory Disease: A Possible Peripheral Blood Protein Biomarker

Aspirin-exacerbated respiratory disease (AERD) remains widely underdiagnosed in asthmatics, primarily due to insufficient awareness of the relationship between aspirin ingestion and asthma exacerbation. The identification of aspirin hypersensitivity is therefore essential to avoid serious aspirin complications. The goal of the study was to develop plasma biomarkers to predict AERD. We identified differentially expressed genes in peripheral blood mononuclear cells (PBMC) between subjects with AERD and those with aspirin-tolerant asthma (ATA). The genes were matched with the secreted protein database (http://spd.cbi.pku.edu.cn/) to select candidate proteins in the plasma. Plasma levels of the candidate proteins were then measured in AERD (n = 40) and ATA (n = 40) subjects using an enzyme-linked immunosorbent assay (ELISA). Target genes were validated as AERD biomarkers using an ROC curve analysis. From 175 differentially expressed genes (p-value <0.0001) that were queried to the secreted protein database, 11 secreted proteins were retrieved. The gene expression patterns were predicted as elevated for 7 genes and decreased for 4 genes in AERD as compared with ATA subjects. Among these genes, significantly higher levels of plasma eosinophil-derived neurotoxin (RNASE2) were observed in AERD as compared with ATA subjects (70(14.62∼311.92) µg/ml vs. 12(2.55∼272.84) µg/ml, p-value <0.0003). Based on the ROC curve analysis, the AUC was 0.74 (p-value = 0.0001, asymptotic 95% confidence interval [lower bound: 0.62, upper bound: 0.83]) with 95% sensitivity, 60% specificity, and a cut-off value of 27.15 µg/ml. Eosinophil-derived neurotoxin represents a novel biomarker to distinguish AERD from ATA.     

A possible association of EMID2 polymorphisms with aspirin hypersensitivity in asthma

Aspirin-intolerant asthma (AIA) is an asthma phenotype characterized by the development of bronchoconstriction following ingestion of aspirin. Despite the well-defined pathological trigger, the underlying mechanisms of AIA are still unclear. With the biophysical characteristics of the human EMI domain-containing protein 2 (EMID2) gene in relation to the extracellular matrix deposition and epithelial-mesenchymal transition as pivotal characteristics of airway remodeling in asthma, we hypothesized that genetic polymorphisms of EMID2 might affect the development of AIA. In this study, the allelic associations of 49 single-nucleotide polymorphisms (SNPs) of the human EMID2 gene were evaluated from 163 AIA patients and 429 aspirin-tolerant asthma (ATA) subjects as controls in a Korean population. Logistic analysis showed that five SNPs (P?=?0.01-0.04, but P (corr)?>?0.05) and EMID2_BL2_ht2 haplotype (unique to the minor alleles of rs4727494 and rs13233066; P?=?0.02; P (corr)?=?0.02) were significantly associated with AIA. More interestingly, regression analysis of the decline of forced expiratory volume in one second (FEV(1)) by aspirin provocation revealed that 10 SNPs (P?=?0.003-0.04) and four relevant haplotypes (P?=?0.002-0.02) were significantly associated with the fall rate of FEV(1) by aspirin provocation, indicating that genetic polymorphisms of EMID2 could cause meaningful deficits in the upper and lower airways among AIA patients. These findings provide evidence that EMID2 may be a susceptible genetic factor for aspirin hypersensitivity among asthmatics in Korean population.     

Genetic polymorphisms in transforming growth factor beta-1 (TGFB1) and childhood asthma and atopy

Transforming growth factor beta-1 (TGFB1) may influence asthma by modulating allergic airway inflammation and airway remodeling. The role of single nucleotide polymorphisms (SNPs) of TGFB1 in asthma remains inconclusive. We examined TGFB1 SNPs in relation to asthma risk and degree of atopy among 546 case-parent triads, consisting of asthmatics aged 4–17 years and their parents in Mexico City. Atopy to 24 aeroallergens was determined by skin prick tests. We genotyped five TGFB1 SNPs, including two known functional SNPs [C-509T (rs1800469), T869C (rs1982073)] and three others (rs7258445, rs1800472, rs8179181), using TaqMan and Masscode assays. We analyzed the data using log-linear and polytomous logistic methods. Three associated SNPs, including the two known functional SNPs, were statistically significantly related to asthma risk. Individuals carrying the T allele of C-509T had an increased risk of asthma [relative risk (RR) = 1.42, 95% confidence interval (CI) = 1.08–1.87 for one copy; RR (95%CI) = 1.95 (1.36–2.78) for two copies]. For T869C, the RRs (95%CI) were 1.47 (1.09–1.98) for one and 2.00 (1.38–2.90) for two copies of the C allele. Similar results were found for rs7258445. The haplotype containing all three risk alleles conferred an increased risk of asthma (RR = 1.48, 95% CI = 1.11–1.95 for one copy; RR = 1.77, 95% CI = 1.22–2.57 for two copies). These three SNPs were also related to the degree of atopy. This largest study to date of genetic variation in TGFB1 and asthma and atopy adds to increasing evidence for a role in these disorders.     

Fatty acid binding protein 1 is related with development of aspirin-exacerbated respiratory disease

Background

Aspirin-exacerbated respiratory disease (AERD) refers to the development of bronchoconstriction in asthmatics following the ingestion of aspirin. Although alterations in eicosanoid metabolites play a role in AERD, other immune or inflammatory mechanisms may be involved. We aimed to identify proteins that were differentially expressed in nasal polyps between patients with AERD and aspirin-tolerant asthma (ATA).

Methodology/Principal Findings

Two-dimensional electrophoresis was adopted for differential display proteomics. Proteins were identified by liquid chromatography-tandem mass spectrometry (LC-MS). Western blotting and immunohistochemical staining were performed to compare the amount of fatty acid-binding protein 1 (FABP1) in the nasal polyps of patients with AERD and ATA. Fifteen proteins were significantly up- (seven spots) or down-regulated in the nasal polyps of patients with AERD (n = 5) compared to those with ATA (n = 8). LC-MS revealed an increase in seven proteins expression and a decrease in eight proteins expression in patients with AERD compared to those with ATA (P = 0.003–0.045). FABP1-expression based on immunoblotting and immunohistochemical analysis was significantly higher in the nasal polyps of patients with AERD compared to that in patients with ATA. FABP1 was observed in epithelial, eosinophils, macrophages, and the smooth-muscle cells of blood vessels in the polyps.

Conclusions/Significance

Our results indicate that alterations in 15 proteins, including FABP1, may be related to the development of AERD.     

猪Toll样受体4基因SNPs功能分析

Toll样受体4(Toll-like receptor 4,TLR4)在机体的免疫反应中发挥重要作用,该基因突变会影响受体的信号转导能力和机体的疾病抗性/易感性。文章在前期工作的基础上,进一步分析c.611 T>A(p.Leu204His)、c.1027C>A(p.Gln343Lys)和c.1605 G>T(p.Leu535Phe)3个错义突变对猪TLR4功能的影响。利用RT-PCR方法克隆猪TLR4基因全长编码区并引入定点突变;利用真核表达、双荧光素酶报告系统和Western blotting方法在瞬时转染的PK-15细胞内研究3个单核苷酸多态(Single nucleotide polymorphisms,SNPs)对猪TLR4配体识别和信号转导能力的影响;同时,利用创造酶切位点PCR-RFLP方法分析对TLR4活性有显著影响的点突变在民猪、大白、长白和中国东北野猪4个群体中的分布。结果,成功获得了民猪TLR4基因的全长编码区和3个单碱基变异体,构建了不同等位基因的真核表达载体,在PK-15细胞内确定了c.1605 G>T变异导致TLR4向下游传递信号的能力显著降低(P<0.01),该SNP只存在于民猪和野猪中且频率较高。猪TLR4基因c.1605 G>T变异影响Toll样受体的信号传递,可能和机体的疾病抗性/易感性有关。     

中国老年心脑血管疾病患者阿司匹林抵抗与环氧化酶-1单体型关联分析

目的:旨在研究老年心脑血管病患者阿司匹林抵抗与阿司匹林作用靶点环氧化酶-1(COX-1)基因单体型的关联性。方法:入选北京地区服用阿司匹林的老年汉族心脑血管疾病患者431例,通过花生四烯酸诱导光比浊法,筛选出阿司匹林抵抗患者59例作为病例组,372例阿司匹林不抵抗者作为对照组,使用美国Sequenom系统SNP分型技术鉴定了COX-1基因6个常见单核苷酸多态性位点(SNP)与阿司匹林抵抗的关联性。6个SNP分别是:rs1888943(8759C/T)、rs1330344(1676A/G)、rs3842787(exon 2,50C/T,p.Pro17Leu)、rs5787(exon 4,323G/A,p.Arg108Gln)、rs5789(exon7,709C/A,p.Leu237Met)和rs5794(exon10,1330G/A,p.Val481Ile)。结果:突变COX-1单体型CGCGCC,在病例组频率为0.48(57/118),对照组频率为0.39(286/742),显著高于对照组(P≤0.05)。结论:中国老年汉族心脑血管疾病患者阿司匹林抵抗与COX-1单体型相关联,突变COX-1单体型CGCGCC显著增加了阿司匹林抵抗的发病风险。     

Differential gene expression profile in PBMCs from subjects with AERD and ATA: a gene marker for AERD

Aspirin-exacerbated respiratory disease (AERD) is associated with severe asthma and aspirin can cause asthma to worsen, often in the form of a severe and sudden attack. The oral aspirin challenge is the gold standard to confirm the diagnosis of AERD, but it is time consuming and produces serious complications in some cases. Therefore, more efficient and practical method is needed to predict AERD patients. The aim of the present study was to identify AERD-related gene expression in peripheral blood mononuclear cells (PBMCs) and examine the diagnostic potential of these candidate gene(s) for predicting AERD. To do this, RNAs from 24 subjects with AERD and 18 subjects with aspirin-tolerant asthma (ATA) were subjected to microarray analysis of ~34,560 genes. In total, 10 genes were selected as candidate gene markers by applying p ≤ 0.001(t test) and ≥8-fold change, and to correct for multiple comparisons, the false discovery rate analyses were performed. By applying multiple logistic regression analysis, among possible 1,023 models (2¹⁰–1), a model consisting of CNKSR3, SPTBN2, and IMPACT was selected as candidate set, because this set showed the best AUC (0.98) with 88 % sensitivity and 89 % specificity. For validation, mRNA levels by real-time PCR on PBMCs from two population sets in a gene-chip study and another replication sample, 20 AERD, 20 ATA, and 8 normal controls, were significantly different between groups with 100 % sensitivity and 100 % specificity in each of the two population sets. However, IMPACT gene did not differentiate between AERD and normal controls. The set of the two genes (CNKSR3 and SPTBN2) showed the best AUC (0.96) with 88 % sensitivity and 94 % specificity in a gene-chip study sample. In addition, this set showed perfect discriminative power with AUC (1.0, 100 % sensitivity and 100 % specificity) in each of the two population sets: the gene-chip samples and the replication samples. It also showed perfect discrimination for AERD from NC (AUC: 1.0) and ATA from NC (AUC: 1.0). In conclusion, we developed the two gene markers (CNKSR3 and SPTBN2) of PBMC which differentiate between AERD and ATA with a perfect discriminative power. These gene markers may be an efficient and practical method for predicting AERD.     

Association between single-nucleotide polymorphisms in pre-miRNAs and the risk of asthma in a Chinese population

Single-nucleotide polymorphisms (SNPs) in pre-miRNAs may alter microRNA (miRNA) expression levels or processing and contribute to susceptibility to a wide range of diseases. We investigated the correlation between four SNPs (rs11614913, rs3746444, rs2910164, and rs229283) in pre-miRNAs and the risk of asthma in 220 asthma patients and 540 controls using polymerase chain reaction-restriction fragment length polymorphism methodology and DNA-sequencing. There were significant differences in the genotype and allelic distribution of rs2910164G/C and rs2292832C/T polymorphisms among cases and controls. The CC genotype and C allele of rs2910164G/C were significantly associated with a decreased risk of asthma (CC vs. GG, odds ratio [OR]?= 0.51, 95% confidence interval [CI]: 0.31-0.82; C vs. G, OR = 0.74, 95% CI: 0.59-0.93). Similarly, the TT genotype and T allele of rs2292832C/T were significantly associated with a decreased risk of asthma (TT vs. CC, OR = 0.56, 95% CI: 0.33-0.95; T vs. C, OR = 0.71, 95% CI: 0.53-0.95). However, no significant association between the other two polymorphisms (i.e., rs11614913C/T and rs3746444C/T) and the risk of asthma was observed. Our data indicate that rs2910164G/C and rs2292832C/T may play a role in the development of asthma.     

Association of GNLY Genetic Polymorphisms with Chronic Liver Disease in a Korean Population

Granulysin (GNLY) is found in cytotoxic granules of cytolytic T lymphocytes and natural killer (NK) cells, which are critical for hepatitis B virus (HBV) clearance. GNLY cytotoxicity plays an important role in the defense against viruses or intracellular bacteria. We hypothesized that genetic variation in the GNLY gene could affect the resistance of hosts against HBV infection. We compared the distribution frequencies of GNLY polymorphisms between an HBV-induced chronic liver disease (CLD) group and a spontaneous recovery (SR) control group to determine whether GNLY polymorphisms play a role in HBV clearance. A total of 117 patients in the SR group and 230 patients in the CLD group were enrolled. Samples derived from complex infections, including hepatitis C and human immunodeficiency virus, and those associated with insufficient clinical information (10 samples in SR and 24 samples in CLD) were excluded from the study. The final analysis included 107 SR and 206 CLD samples. DNA was extracted from peripheral blood, and GNLY genotypes were determined by the GoldenGate(?) method. The genotype distribution of the single-nucleotide polymorphisms (SNPs) rs2886767 (C>T), rs1561285 (G>C), and rs11127 (T>C) were significantly different between the SR and CLD groups in a recessive model (p<0.015). These three SNPs were in a complete linkage disequilibrium (LD) block. Diplotype distributions of haplotype (HT) 1 (C-G-T) and HT2 (T-C-C) were significantly different between the SR and CLD groups in a recessive model (p=0.025) and a dominant model (p=0.008). All p-values remained significant after multiple comparisons. GNLY polymorphism genotypes and diplotypes were associated with the chronicity of HBV. These data suggested that genetic variation of GNLY may be an important factor in HBV clearance through the CD8+ T or NK cell-mediated removal of HBV-infected cells from the host.     

Polymorphisms in recent GWA identified asthma genes CA10, SGK493, and CTNNA3 are associated with disease severity and treatment response in childhood asthma

Recent genome-wide association studies (GWAs) have identified several new genetic risk factors for asthma; however, their influence on disease behavior and treatment response is still unclear. The aim of our study was the association analysis of the most significant single nucleotide polymorphisms (SNPs) recently reported by GWAs in different phenotypes of childhood asthma and analysis of correlation between these SNPs and clinical parameters. We have genotyped 288 children with asthma and 276 healthy controls. We provided here first replication of bivariate associations between CA10 (p?=?0.001) and SGK493 (p?=?0.011) with asthma. In addition, we have identified new correlation between SNPs in CA10, SGK493, and CTNNA3 with asthma behavior and glucocorticoid treatment response. Asthma patients who carried G allele in SNP rs967676 in gene CA10 were associated with more pronounced airway obstruction, higher bronchial hyper-reactivity, and increased inflammation. Higher bronchial hyper-reactivity was also associated with C allele in SNP rs1440095 in gene SGK493 but only in nonatopic asthmatics. In addition, we found that patients who carried at least one T allele in SNP rs1786929 in CTNNA3 (p?=?0.022) and atopic patients who carried at least one G allele in SNP rs967676 in gene CA10 (p?=?0.034) had higher increase in pulmonary function after glucocorticoid therapy. Our results suggest genetic heterogeneity between atopic and nonatopic asthma. We provided further evidence that treatment response in childhood asthma is genetically predisposed, and we report here two novel SNPs in genes CA10 and CTNNA3 as potential pharmacogenetic biomarkers that could be used in personalized treatment in childhood asthma.     

Prostaglandin E2 receptors in asthma and in chronic rhinosinusitis/nasal polyps with and without aspirin hypersensitivity

Chronic rhinosinusitis with nasal polyps (CRSwNP) and asthma frequently coexist and are always present in patients with aspirin exacerbated respiratory disease (AERD). Although the pathogenic mechanisms of this condition are still unknown, AERD may be due, at least in part, to an imbalance in eicosanoid metabolism (increased production of cysteinyl leukotrienes (CysLTs) and reduced biosynthesis of prostaglandin (PG) E₂), possibly increasing and perpetuating the process of inflammation. PGE₂ results from the metabolism of arachidonic acid (AA) by cyclooxygenase (COX) enzymes, and seems to play a central role in homeostasis maintenance and inflammatory response modulation in airways. Therefore, the abnormal regulation of PGE₂ could contribute to the exacerbated processes observed in AERD. PGE₂ exerts its actions through four G-protein-coupled receptors designated E-prostanoid (EP) receptors EP1, EP2, EP3, and EP4. Altered PGE₂ production as well as differential EP receptor expression has been reported in both upper and lower airways of patients with AERD. Since the heterogeneity of these receptors is the key for the multiple biological effects of PGE₂ this review focuses on the studies available to elucidate the importance of these receptors in inflammatory airway diseases.

Electronic supplementary material

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