哮喘的分子遗传学研究进展

哮喘病和易感症的遣传学病因是复杂的,现可通过候选基因和易感位点筛选技术来进行研究。本文综述了哮喘易感基因的研究进展,同时讨论了哮喘遗传学研究对哮喘临床的应用前景。 Abstract:The genetics of asthma and atopy is complex,but can be approached by studies of both candidate genes and mapping of susceptibility loci.The progress in susceptibility genes for asthma and atopy is reviewed.New therapeutic approaches to asthma which are based on the study on asthma genetics for future are summarized.     

The CTLA-4 +49 A/G and ?318 C/T polymorphisms and susceptibility to asthma: a meta-analysis

The aim of this study was to explore whether cytotoxic T lymphocyte antigen-4 (CTLA-4) +49 A/G, and -318 C/T polymorphisms confer susceptibility to asthma. A meta-analysis was conducted on the associations between the CTLA-4 +49 A/G, and -318 C/T polymorphisms and asthma using; (1) allele contrast, (2) the recessive model, (3) the dominant model, and (4) the additive model. Eight studies on the CTLA-4 polymorphisms and asthma involving 2,330 patients with asthma and 1,743 control subjects were included in this meta-analysis. The meta-analysis revealed an association between asthma and the CTLA-4 +49 A/G polymorphism under the dominant model in Asians (OR = 0.758, 95 % CI = 0.599-0.958, p = 0.020). Stratification by age indicated an association between the CTLA-4 +49 GG+GA genotype and asthma in children (OR = 0.690, 95 % CI = 0.497-0.957, p = 0.026), but not in adults (OR = 0.837, 95 % CI = 0.598-1.172, p = 0.300). Furthermore, stratification by atopy status indicated an association between the CTLA-4 +49 G allele and atopic asthma (OR = 0.639, 95 % CI = 0.464-0.881, p = 0.006), but not non-atopic asthma (OR = 0.706, 95 % CI = 0.385-1.294, p = 0.266). There was no association between asthma and the CTLA-4 -318 C/T polymorphism for the whole population, or when stratified by ethnicity, age, or atopy status. This meta-analysis demonstrates that the CTLA-4 +49 A/G polymorphism confers susceptibility to asthma in Asians, children, patients with atopy status, but there was no association between the CTLA-4 -318 C/T polymorphism and asthma susceptibility.     

Variation in the interleukin 4-receptor alpha gene confers susceptibility to asthma and atopy in ethnically diverse populations

After a genomewide screen in the Hutterites was completed, the IL4RA gene was examined as the 16p-linked susceptibility locus for asthma and atopy. Seven known variants and one novel variant, representing all nonsynonymous substitutions in the mature protein, were examined in the Hutterites; on the basis of studies in the Hutterites, outbred white, black, and Hispanic families were genotyped for selected markers. All population samples showed evidence of association to atopy or to asthma (P values.039-.0044 for atopy and. 029-.0000061 for asthma), but the alleles or haplotypes showing the strongest evidence differed between the groups. Overall, these data suggest that the IL4RA gene is an atopy- and asthma-susceptibility locus but that variation outside the coding region of the gene influences susceptibility.     

Asthma: a major pediatric health issue

Asthma and associated phenotypes are complex traits most probably caused by an interaction of multiple disease susceptibility genes and environmental factors. Major achievements have occurred in identifying chromosomal regions and polymorphisms in candidate genes linked to or associated with asthma, atopic dermatitis, IgE levels and response to asthma therapy. The aims of this review are to explain the methodology of genetic studies of multifactorial diseases, to summarize chromosomal regions and polymorphisms in candidate genes linked to or associated with asthma and associated traits, to list genetic alterations that may alter response to asthma therapy, and to outline genetic factors that may render individuals more susceptible to asthma and atopy due to environmental changes.     

Interactions between genes and environmental factors in asthma and atopy: new developments

Asthma and associated phenotypes are complex traits most probably caused by an interaction of multiple disease susceptibility genes and environmental factors. Major achievements have occurred in identifying chromosomal regions and polymorphisms in candidate genes linked to or associated with asthma, atopic dermatitis, IgE levels and response to asthma therapy. The aims of this review are to explain the methodology of genetic studies of multifactorial diseases, to summarize chromosomal regions and polymorphisms in candidate genes linked to or associated with asthma and associated traits, to list genetic alterations that may alter response to asthma therapy, and to outline genetic factors that may render individuals more susceptible to asthma and atopy due to environmental changes.     

The association of the exon 4 variations of Tim-1 gene with allergic diseases in a Korean population

The family of T-cell immunoglobulin domain and mucin domain (TIM) proteins is identified to be expressed on T cells. A member of Tim family, TIM-1, is considered as a membrane protein that is associated with the development of Th2 biased immune responses and may be selectively expressed on Th2 cells. In the present study, we analyzed the association of allele and genotype frequencies between asthma or atopy patients and the controls without asthma and atopy using large sample size at 5383_5397del and 5509_5511delCAA variations of Tim-1 gene. Although the allele frequency of 5509_5511delCAA variation in asthma was not significantly different (P=0.085), the genotype of 5509_5511delCAA variation in asthma was significantly associated with the susceptibility to asthma (P=0.037). The genotype and allele frequencies of 5383_5397del variation in atopic dermatitis were significantly different from those in the non-asthmatic and non-atopic controls (P=0.005 and P=0.002, respectively). Our results strongly suggest that the 5383_5397del variation site of Tim-1 exon 4 might be associated with atopic dermatitis susceptibility.     

The gene encoding interleukin-13: a susceptibility locus for asthma and related traits

Asthma is a complex inflammatory disorder controlled by both genetic and environmental influences. Multiple genetic analyses have identified the T helper type 2 (Th2) cytokine gene cluster on chromosome 5q as a susceptibility locus for asthma. Recently, the Th2 cytokine interleukin-13 has been shown to be a critical mediator of the asthma phenotype in murine models. In this commentary we discuss several recent studies that have identified polymorphisms in the gene encoding interleukin-13. The consistent genetic associations of interleukin-13 with asthma and related traits across diverse ethnic populations in these studies provides strong support for the candidacy of this cytokine as a susceptibility locus for asthma and atopy on chromosome 5q31.     

Mapping and identifying genes for asthma and psoriasis

Susceptibility genes for complex diseases are characterized by reduced penetrance, caused by the influence of other genes, the environment or stochastic events. Recently, positional cloning efforts have yielded several candidate susceptibility genes in different complex disorders such as Crohn's disease and asthma. Within a genetic locus, however, the identification of the effector gene may pose further challenges and require functional studies. I review two examples of such challenges: the cloning of GPR154 (GPRA) and AAA1 on chromosome 7p14 at a susceptibility locus for atopy and asthma, and the study of HLA-Cw6, CCHCR1 (HCR) and CDSN on chromosome 6p21 at PSORS1, the major susceptibility locus for psoriasis. The susceptibility locus for atopy and asthma contains two genes and only one of them is protein coding. We studied its isoform-specific expression in bronchial biopsies and in a mouse model of ovalbumin-induced inflammation of bronchial epithelia. In the PSORS1 locus, strong linkage disequilibrium between genes has made it difficult to distinguish the effects of the three nearby genes. We engineered transgenic mice with either a HCR non-risk allele or the HCR*WWCC risk allele controlled by the cytokeratin-14 promoter. The results suggested that the overexpression of HCR in mouse skin was insufficient to induce a psoriasiform phenotype, but it appeared to induce allele-specific gene expression changes that were similar to those observed in psoriatic skin.     

Evidence for association and linkage between atopy, airway hyper-responsiveness, and the β subunit Glu237Gly variant of the high-affinity receptor for immunoglobulin E in the French-Canadian population

Following detection of linkage between atopy and chromosome 11q13 markers, association between this disorder and variants of the beta subunit of the high-affinity receptor for immunoglobulin E (FcepsilonRI-beta, a candidate gene for asthma-related conditions co-localizing within the same region) was reported in Australian, British and Japanese populations. Investigations in several other ethnic groups failed to replicate these observations. Due to the complexity of defining intermediate phenotypes related to asthma, detection of such associations may have been hampered by clinical misclassifications. To assess whether the FcepsilonRI-beta gene was involved in atopy and/or airway hyperresponsiveness (AHR) in the French-Canadian population, we conducted a case-control study in 200 subjects using strict criteria for asthma and related conditions. The Ile181Leu and Glu237Gly FcepsilonRI-beta sequence variants were tested exploiting two amplification refractory mutation systems. No association was detected between atopy or AHR and the Ile181Leu FcepsilonRI-beta variant. However, a strong association was observed between atopy and the Glu237Gly FcepsilonRI-beta variant (odds ratio=12.25). Four large Eastern Québec families (n=106 subjects) were also recruited to perform a genetic linkage study. We observed suggestive evidence of linkage between atopy and the Glu237Gly FcepsilonRI-beta variant (Zmax=2.30). This study is the first to detect the presence of an association between atopy and the Glu237Gly FcepsilonRI-beta variant in French-Canadians. Our data suggest that a susceptibility locus for atopy is located on chromosome 11q13 in this population.     

Early immune development, atopy and asthma: insights from ATS 2001, May 18-23, San Francisco

There is rising evidence that the initiation of atopy and asthma may occur in early life or even during fetal life. At the American Thoracic Society meeting 2001 in San Francisco, multiple reports addressed epidemiological and immunological factors and their influence on the early immune system, as well as the development of atopy and asthma. Epidemiologic studies presented at the meeting suggest a protective effect of farming and pet exposure. Early-life exposure to endotoxin, a cell wall component of Gram-negative bacteria which can be found in high levels in the presence of pets, may have a protective effect. Investigations of the mechanism of the early immune system indicate that mononuclear cord blood cells have the ability to mount a lymphoproliferative response to mitogens and allergens. Reports suggest, however, that the validity of Th1/Th2 paradigm may need to be scrutinized in early human immune responses, particularly regarding the assumption that the neonate immune system is Th2 skewed. The prospective longitudinal follow-up of these studies is promising to give further insight into risk and protective factors in the development in atopy and asthma.     

Asthma,atopy, and exercise: Sex differences in exercise-induced bronchoconstriction

Asthma is a chronic inflammatory lung disease affecting approximately 7.7% of the US population. Sex differences in the prevalence, incidence, and severity of asthma have been widely described throughout the lifespan, showing higher rates in boys than girls before puberty, but a reversed pattern in adults. Asthma is often associated with atopy, i.e. the tendency to develop allergic diseases, and can be worsened by environmental stimuli and/or exercise. While not exclusive to patients with asthma, exercise-induced bronchoconstriction (EIB) is a common complication of athletes and individuals who exercise regularly. Currently, there is limited research on sex differences in EIB and its relationship with atopy and asthma in men and women. In this minireview, we summarize the available literature on this topic. Overall, the collective knowledge supports the notion that physiological changes triggered during exercise affect males and females differently, suggesting an interaction among sex, exercise, sex hormones, and atopic status in the course of EIB pathophysiology. Understanding these differences is important to provide personalized management plans to men and women who exercise regularly and suffer from underlying asthma and/or atopy.     

Role of exhaled nitric oxide as a predictor of atopy

Background

The fractional exhaled nitric oxide (FeNO) is a quantitative, noninvasive and safe measure of airways inflammation that may complement the assessment of asthma. Elevations of FeNO have recently been found to correlate with allergic sensitization. Therefore, FeNO may be a useful predictor of atopy in the general population. We sought to determine the diagnostic accuracy of FeNO in predicting atopy in a population-based study.

Methods

We conducted a cross-sectional study in an age- and sex- stratified random sample of 13 to 15 year-olds in two communities in Peru. We asked participants about asthma symptoms, environmental exposures and sociodemographics, and underwent spirometry, assessment of FeNO and an allergy skin test. We used multivariable logistic regression to model the odds of atopy as a function of FeNO, and calculated area-under-the-curves (AUC) to determine the diagnostic accuracy of FeNO as a predictor of atopy.

Results

Of 1441 recruited participants, 1119 (83%) completed all evaluations. Mean FeNO was 17.6 ppb (SD=0.6) in atopics and 11.6 ppb (SD=0.8) in non-atopics (p<0.001). In multivariable analyses, a FeNO>20 ppb was associated with an increase in the odds of atopy in non-asthmatics (OR=5.3, 95% CI 3.3 to 8.5) and asthmatics (OR=16.2, 95% CI 3.4 to 77.5). A FeNO>20 ppb was the best predictor for atopy with an AUC of 68% (95% CI 64% to 69%). Stratified by asthma, the AUC was 65% (95% CI 61% to 69%) in non-asthmatics and 82% (95% CI 71% to 91%) in asthmatics.

Conclusions

FeNO had limited accuracy to identify atopy among the general population; however, it may be a useful indicator of atopic phenotype among asthmatics.     

The coming-of-age of the hygiene hypothesis

The hygiene hypothesis, as originally proposed, postulated an inverse relation between the incidence of infectious diseases in early life and the subsequent development of allergies and asthma. New evidence from epidemiological, biological and genetic studies has significantly enlarged the scope of the hypothesis. It now appears probable that environmental 'danger' signals regulate the pattern of immune responses in early life. Microbial burden in general, and not any single acute infectious illness, is the main source of these signals. The latter interact with a sensitive and complex receptor system, and genetic variations in this receptor system may be an important determinant of inherited susceptibility to asthma and allergies.     

The Environmental Genome Project: phase I and beyond

Human illness is caused by many interrelated factors including aging, inherited genetic predispositions, and a variety of environmental exposures. There is increasing awareness of the role of genetics as a factor that can dramatically alter susceptibility to all disease, especially environmentally induced chronic disease, such as cancer, asthma, diabetes, cardiovascular disease, and neurodegenerative disorders. In some cases, a genetic factor influences disease susceptibility in a small fraction of the population because it occurs at a low frequency or involves a relatively low-incidence disease; however, in other cases, a genetic factor increases susceptibility in a large number of individuals and involves a disease that occurs at high incidence, creating a large public health burden.     

Asthma: the importance of epithelial mesenchymal communication in pathogenesis. Inflammation and the airway epithelium in asthma

Asthma is a disorder of the airways in which Th-2-mediated inflammation is considered to provide the basis for altered structure and function that leads to bronchial hyper-responsiveness (BHR) and variable airflow obstruction. This linear progression underpinning asthma pathophysiology is questioned on the basis of observations on the pathology of the disease in early childhood, the independent genetic factors that influence atopy and BHR, incomplete responses to treatment with corticosteroids despite powerful anti-inflammatory effects and the recent disappointing results with targeted therapies that almost abolish eosinophilia in the blood and airways and yet produce little effect on the clinical outcomes of asthma. An alternative hypothesis is put forward in which atopy/airway inflammation and altered structure and function of the formed airway elements are parallel but interacting factors. For asthma to develop as a chronic disease, genetic and environmental factors that drive each of these components are required. Fundamental to this is the concept of aberrant signalling between the airway epithelium and underlying mesenchyme and persistent activation of the epithelial mesenchymal trophic unit.     

Interleukin-4 receptor alpha gene variants and allergic disease

The interleukin-4 (IL-4) signalling cascade has been identified as a pathway potentially important in the development of asthma. Genetic variants within this signalling pathway might contribute to the risk of developing asthma in a given individual. A number of polymorphisms have been described within the IL-4 receptor α (IL-4Rα) gene. In addition polymorphism occurs in the promoter for the IL-4 gene itself. This commentary accompanies a paper by C Oberet al describing the contribution of IL-4Rα polymorphism to susceptibility to asthma and atopy in the Hutterite population and other outbred populations collected during the collaborative studies on the genetics of asthma (CSGA) programme.     

Association between asthma-related phenotypes and the CC16 A38G polymorphism in an unselected population of young adult Danes

The gene for Clara cell 16-kDa (CC16) protein is a promising candidate for asthma susceptibility. The CC16 38A allele has been associated with decreased CC16 plasma levels and increased incidence of asthma in Australian children. To date these results have not been replicated in adults. Therefore, potential links between CC16 A38G, asthma and atopy were investigated in an unselected population of young adult Danes. Four hundred sixty-four Danes, aged 19–29 years, from Copenhagen participated in an asthma and allergy phenotype–genotype study. Genotyping was done by Sau96I restriction digestion of PCR products spanning the A38G polymorphism. Potential A38G genotype and asthma-related phenotype associations were investigated using regression analysis, adjusting for potential confounders where appropriate. Adults with the 38AA genotype had higher odds of current asthma (OR 3.2, P=0.013) and ever asthma (OR 2.2, P=0.045) compared with those with the 38GG genotype. Adjusting for atopy had minimal effect on this relationship. A positive linear trend was evident between the 38A allele and atopic dermatitis (OR 1.67, P=0.02). No associations were found between the A38G polymorphism and rhinitis, atopy, forced expiratory volume in 1 s (FEV₁), forced vital capacity (FVC), airway responsiveness (AR) to histamine or peripheral blood eosinophil level (PBEL). An atopy-independent association between CC16 38AA and asthma prevalence was identified, suggesting the CC16 38A allele predisposes to adult asthma independent of Th1/Th2 processes. This finding is consistent with previous studies in children, but is the first reported association between CC16 A38G and asthma in adults. CC16 38A also displayed a positive linear trend with atopic dermatitis.     

The distribution of HLA alleles among children with atopic asthma in Croatia

Allergic asthma is a multifactorial disease involving well known environmental factors and less identified genetic components. In several studies the HLA genes have been implicated in the development of asthma and atopy, but the importance of these associations remains unclear. The aim of the present study was to analyse the distribution of specificities at HLA class I loci (-A and -B) and HLA class II locus (-DRB1) in a group of 143 Croatian children with atopic asthma, regarding total serum IgE and specific IgE against common inhalant allergens, as well as their connection with different asthmatic phenotypes and to identify HLA genotype which increases the risk for atopy or asthma or which has a protective effect. As controls we used a group of 163 healthy unrelated individuals. HLA class I antigens were determined by serology, while DRB1 specificities were detected by polymerase-chain reaction amplification and hybridisation with sequence specific oligonucleotide probes method (PCR-SSOP). We found no significant correlation between any of the HLA-A antigens and asthma, atopy or associated atopic phenotypes. At HLA-B locus, HLA-B8 antigen was significantly increased among asthmatic patients (p = 0.002), patients with high total serum IgE (p = 0.002), as well as among patients sensitizated to Dermatophagoides pteronyssinus (Der p) (p = 0.014) and among patients sensitizated to Der p + Dactylis glomerata (Dact g) or Ambrosia elatior (Amb a) (p = 0.004). Among HLA-DRB1 specificities, HLA-DRB1 *01 showed positive correlation with asthma and atopy (p = 0.034), while HLA-DRB1*03 specificity was observed with significantly higher frequency among patients with total serum IgE > or = 400 KU/L (p = 0.048). HLA-DRB1*16 specificity was observed with significantly lower frequency among patients with asthma only in comparison to healthy controls (p = 0.027) and to patients with asthma and allergic rhinitis (p = 0.005). In conclusion, our data suggest that HLA specificities play a relevant role in predisposition to asthma, as well as in different clinical forms of atopic diseases. HLA-B8, HLA-DRB1*01 and HLA-DRB1*03 genotype increases the risk for atopic asthma and high serum IgE.     

Mimicking microbial 'education' of the immune system: a strategy to revert the epidemic trend of atopy and allergic asthma?

Deficient microbial stimulation of the immune system, caused by hygiene, may underly the atopy and allergic asthma epidemic we are currently experiencing. Consistent with this 'hygiene hypothesis', research on immunotherapy of allergic diseases also centres on bacteria-derived molecules (eg DNA immunostimulatory sequences) as adjuvants for allergen-specific type 1 immune responses. If we understood how certain microbes physiologically 'educate' our immune system to interact safely with environmental nonmicrobial antigens, we might be able to learn to mimic their beneficial actions. Programmed 'immunoeducation' would consist of safe administration, by the correct route, dose and timing, of those microbial stimuli that are necessary to 'train' the developing mucosal immune system and to maintain an appropriate homeostatic equilibrium between its components. Overall, this would result in a prevention of atopy that is not limited to certain specific allergens. Although such a strategy is far beyond our present potential, it may in principle revert the epidemic trend of atopy and allergic asthma without jeopardizing the fight against infectious diseases.     

A major susceptibility gene for asthma maps to chromosome 14q24

Asthma is a complex genetic disorder with a heterogeneous phenotype, largely attributed to the interactions among many genes and between these genes and the environment. Numerous loci and candidate genes have been reported to show linkage and association to asthma and atopy. Although some studies reporting these observations are compelling, no gene has been mapped that confers a sufficiently high risk of asthma to meet the stringent criteria for genomewide significance. Using 175 extended Icelandic families that included 596 patients with asthma, we performed a genomewide scan with 976 microsatellite markers. The families were identified by cross-matching a list of patients with asthma from the Department of Allergy/Pulmonary Medicine of the National University Hospital of Iceland with a genealogy database of the entire Icelandic nation. We detected linkage of asthma to chromosome 14q24, with an allele-sharing LOD score of 2.66. After we increased the marker density within the locus to an average of one microsatellite every 0.2 cM, the LOD score rose to 4.00. We designate this locus "asthma locus one" (AS1). Taken together, these results provide evidence of a novel susceptibility gene for asthma on chromosome 14q24.