Asthma: the interplay between viral infections and allergic diseases.

Respiratory viruses and allergens synergistically contribute to disease pathogenesis in asthma. Potential mechanisms underlying this clinically relevant association are the subject of intense investigation. This review summarizes current knowledge and recent advances in this area, with an emphasis on potential mechanisms involving immunoglobulin E, type I interferon antiviral responses, epithelial factors, and the role of dendritic cells and other antigen-presenting cells in linking viral and allergic inflammatory responses relevant to asthmatic disease.

Role of viruses in the development of atopic disease in pediatric patients.

The prevalence of atopic diseases continues to rise in modernized countries, without a clear explanation for this increase. One potential cause identified from epidemiologic studies of children is respiratory RNA viral infections leading to development of recurrent wheezing, asthma, and allergic sensitization. We review human epidemiologic data that both support and refute the role of viruses in this process. Exploring recent murine models, we document possible immunologic mechanisms that could translate a viral infection into atopic disease. We further discuss evidence for a post-viral "atopic cycle" that could explain the development of multiple allergen sensitization, and we explore available data to suggest a connection between viral infections of the gastrointestinal tract with the development of food allergy. Taken together, this review documents evidence to support the "viral hypothesis", and, in particular, the role of RNA viruses in the development of atopic disease.

99th Dahlem conference on infection, inflammation and chronic inflammatory disorders: the role of infections in allergy: atopic asthma as a paradigm.

Earlier iterations of the 'hygiene hypothesis', in which infections during childhood protect against allergic disease by stimulation of the T helper type 2 (Th2)-antagonistic Th1 immunity, have been supplanted progressively by a broader understanding of the complexities of the underlying cellular and molecular interactions. Most notably, it is now clear that whole certain types of microbial exposure, in particular from normal gastrointestinal flora, may provide key signals driving postnatal development of immune competence, including mechanisms responsible for natural resistance to allergic sensitization. Other types of infections can exert converse effects and promote allergic disease. We review below recent findings relating to both sides of this complex picture.

The role of viruses in the development and exacerbation of atopic disease.

OBJECTIVE: To examine data in support of the viral hypothesis of atopic disease. DATA SOURCES: We retrieved review articles and original research from MEDLINE, OVID, and PubMed (1950-June 2009) that addressed our topic of interest, using the terms respiratory virus, asthma, IgE, atopy, and viral-induced wheeze. STUDY SELECTION: Articles were selected for their relevance to viruses and their role in asthma. RESULTS: Much of the data in support of the viral role in asthma focuses on rhinovirus and respiratory syncytial virus. Epidemiologic studies have used factors such as day-care and family size as surrogates for infection in studies that support and negate the role of viruses in the development of asthma. A large volume of literature supports the theory that virus exacerbates preexisting asthma by setting off the inflammatory cascade. No mechanistic studies fully explain how viral infections can translate or exacerbate atopic disease. We provide information from our mouse model that suggests that dendritic cells, IgE, and FcepsilonRI are critical to the induction of atopy. Studies of patients taking antiviral agents (e.g., ribavirin or palvizumab) support the notion that interfering with respiratory viral infections may decrease the development of atopy. CONCLUSIONS: Many studies suggest strongly that viral infections may predispose patients to the development of asthma and other atopic diseases. Further, mechanistic studies are necessary to allow for the development of targeted therapeutics to prevent the translation of viral into atopic disease.

Interactions between innate antiviral and atopic immunoinflammatory pathways precipitate and sustain asthma exacerbations in children.

Severe asthma exacerbations in children requiring hospitalization are typically associated with viral infection and occur almost exclusively among atopics, but the significance of these comorbidities is unknown. We hypothesized that underlying interactions between immunoinflammatory pathways related to responses to aeroallergen and virus are involved, and that evidence of these interactions is detectable in circulating cells during exacerbations. To address this hypothesis we used a genomics-based approach involving profiling of PBMC subpopulations collected during exacerbation vs convalescence by microarray and flow cytometry. We demonstrate that circulating T cells manifest the postactivated "exhausted" phenotype during exacerbations, whereas monocyte/dendritic cell populations display up-regulated CCR2 expression accompanied by phenotypic changes that have strong potential for enhancing local inflammation after their recruitment to the atopic lung. Notably, up-regulation of FcepsilonR1, which is known to markedly amplify capacity for allergen uptake/presentation to Th2 effector cells via IgE-mediated allergen capture, and secondarily programming of IL-4/IL-13-dependent IL-13R(+) alternatively activated macrophages that have been demonstrated in experimental settings to be a potent source of autocrine IL-13 production. We additionally show that this disease-associated activation profile can be reproduced in vitro by cytokine exposure of atopic monocytes, and furthermore that IFN-alpha can exert both positive and negative roles in the process. Our findings suggest that respiratory viral infection in atopic children may initiate an atopy-dependent cascade that amplifies and sustains airway inflammation initiated by innate antiviral immunity via harnessing underlying atopy-associated mechanisms. These interactions may account for the unique susceptibility of atopics to severe viral-induced asthma exacerbations.

Bronchiolitis: age and previous wheezing episodes are linked to viral etiology and atopic characteristics.

BACKGROUND: : Diagnostic criteria for bronchiolitis are variable. OBJECTIVE: : To study how the risk factors for recurrent wheezing and asthma vary by different definitions of bronchiolitis. METHODS: : Viral etiology and atopic characteristics were studied in 259 hospitalized wheezing children (median age, 14 months; range, 0-36 months). The data were analyzed according to age (<6, <12, <24 and <36 months) and whether they had a history or no history of a previous wheezing episode. Sixteen viruses were detected by conventional and molecular methods. Atopic characteristics included the presence of eczema, specific and total IgE responses, blood eosinophil count, and modified asthma predictive index. RESULTS: : Evidence of respiratory virus infection was found in 93% of the cases and allergic sensitization in 26% of the cases. Rhinovirus infections and atopic characteristics (sensitization, blood eosinophil count, and modified asthma predictive index) increased by age and were significantly more common in children with recurrent wheezing episodes than in first-time wheezers in age categories of <24 and <36 months (P < 0.05 for all). CONCLUSIONS: : In children with bronchiolitis, 2 clinical factors, age and number of previous wheezing episodes, are linked to inflammatory (atopy-related factors) and virologic risk factors of asthma (rhinovirus-associated disease). According to current US and UK guidelines, bronchiolitis includes wheezing children <24 months of age. Our observations suggest that the clinical definition should include only children with their first episode of wheezing.

Specific IgE to allergens in cord blood is associated with maternal immunity to Toxoplasma gondii and rubella virus.

BACKGROUND: Various studies have found reduced prevalences of atopic sensitization and atopic diseases in children previously exposed to infections or living conditions with a high microbial burden, such as the farming environment. OBJECTIVE: We sought to determine the relationships of cord blood immunoglobulin E (IgE) with maternal health conditions before and during pregnancy. METHODS: Pregnant women living in rural areas in five European countries were recruited in the third trimester of pregnancy. Information on maternal health during pregnancy was collected from maternity records and by questionnaires (n = 497). Specific IgE for inhalant and food allergens was assessed in cord blood and peripheral blood samples of the mothers. RESULTS: Inverse associations of cord blood IgE to seasonal allergens with positive maternal records for Toxoplasma gondii (adjusted odds ratio = 0.37 [0.17-0.81]) and rubella virus (adjusted odds ratio = 0.35 [0.13-0.96]) were found. The previously described effect of prenatal farm exposure on IgE to seasonal allergens was partly confounded by a positive maternal record for T. gondii. The number of maternal siblings, maternal contact to cats during pregnancy or during her first year of life, predicted a positive maternal record for T. gondii. CONCLUSIONS: Maternal immunity to T. gondii and rubella may impact on atopic sensitization in the fetus. A positive T. gondii record explained the previously identified effect of prenatal farm exposure on IgE to seasonal allergens only to a minor extent.

Cytokine production from peripheral blood mononuclear cells of mite allergen-sensitized atopic adults stimulated with respiratory syncytial virus and mite allergen.

BACKGROUND: The interaction between viral respiratory tract infection and allergen sensitization in allergic asthma is unclear. Respiratory syncytial virus (RSV) has attracted attention as an important lower respiratory pathogen during childhood, while recent evidence indicates that RSV is also an important lower respiratory pathogen for adults. Immunity against RSV differs between children and adults. Several reports suggest that RSV infection in children results in a Th2-skewed immune response. The purpose of the present study was to determine the effects of RSV infection in adults who had previously been sensitized with a common aeroallergen. METHODS: Peripheral blood mononuclear cells (PBMCs) isolated from 9 mite-sensitized atopic subjects and 11 healthy nonatopic subjects were exposed to live or UV-inactivated RSV concomitant to incubation with or without mite allergen, and the subsequent production of cytokines - interleukin (IL)-5, interferon (IFN)-gamma, IL-10 and IL-12p70 - was measured. RESULTS: Mite allergen significantly increased IL-5 production in atopic PBMCs. RSV infection significantly increased IFN-gamma production from healthy and atopic PBMCs; the levels of IFN-gamma were significantly higher for atopic PBMCs. Live RSV infection significantly attenuated IL-5 production from mite allergen-stimulated atopic PBMCs. UV-inactivated RSV, but not live RSV, significantly enhanced allergen-specific IL-10 production in atopic PBMCs. IL-12 could not be detected in the present study. CONCLUSION: The present findings suggest that RSV infection did not simply enhance allergen-specific Th2-like response in atopic adults. Live RSV-induced IFN-gamma and RSV protein-induced IL-10 appear to play important roles in the regulation of allergic airway inflammation in atopic adults.

Distribution of HSV-1 IgG antibodies by two methods comparing in Turkish atopic children.

Herpes Simplex Virus Type 1 (HSV-1) is a ubiquitous pathogen. Other than known diseases, HSV-1 may have an important role in the pathogenesis of atopy by causing immortality of th2 cells. From June 1st to July 31st 2006, seventy five blood samples were collected from atopic children referred to the allergy clinic of the hospital. The bloods samples were used to detect HSV-1 IgG antibodies by Enzyme-Linked Immunosorbent Assay and Virus Neutralization Test. HSV-1 IgG antibody seroprevalence in atopic children was found high, 62.6% by Enzyme-Linked Immunosorbent Assay and 57.3% by Virus Neutralization Test. Thus Virus Neutralization Test sensitivity was 92.15% and specificity was 100% regarding to the Enzyme-Linked Immunosorbent Assay technic. Although Enzyme-Linked Immunosorbent Assay was more sensitive than Virus Neutralization Test, there was no significant difference between two technics (p > 0.05) in detecting HSV-1 IgG antibodies in serum.

Relationship of early childhood viral exposures to respiratory symptoms, onset of possible asthma and atopy in high risk children: the Canadian Asthma Primary Prevention Study.

The contribution of respiratory viral infections to the onset of asthma and atopy is controversial. In "high risk" children (n = 455) born into asthmatic/atopic families, we determined the relationship of exposures to common respiratory viruses and concomitant respiratory symptoms, and to subsequent possible asthma and atopy at ages 1 and 2 years. Frozen nasal specimens, obtained when children were 2 weeks, 4, 8, and 12 months old, underwent reverse transcription-polymerase chain reaction (RT-PCR) testing for parainfluenza virus (PIV), respiratory syncytial virus (RSV), and picornavirus (rhinovirus/enterovirus). Odds ratios of viral RT-PCR results to respiratory symptoms ("cold," rhinitis, cough, wheezing) and to possible asthma or atopy at 1 and 2 years of age were calculated. Positive viral RT-PCR was associated with increased odds of "cold" and cough; PIV and picornavirus were associated with rhinitis, and RSV was associated with wheezing. PIV was associated with increased odds of atopy at 1 year of age in the control group; PIV and RSV were associated with possible asthma at 2 years of age. We conclude that in high-risk children, viral exposures documented by RT-PCR are associated with respiratory symptoms, and exposures to PIV and RSV during the first year of life are associated with the initial onset of possible asthma.

Suppression of IFN-gamma production in atopic group at the acute phase of RSV infection.

Several studies have suggested that respiratory syncytial virus (RSV) bronchiolitis induced the change of cytokine production profile in childhood. We sought to determine whether the RSV-induced cytokine production was affected by the patient's atopic background. We quantified interferon-gamma (IFN-gamma) and interleukin (IL)-4 in the supernatant of peripheral blood mononuclear cells (PBMCs) cultured for 24 h and in the presence of phytohemaglutinin (PHA), IL-12, or IL-18, from 14 infants who were divided into two groups, those who are non-atopic and an atopic group. In RSV-infected infants with atopic diseases, IFN-gamma production from IL-12- or especially IL-18-stimulated PBMCs was subtotally suppressed in the acute phase, whereas in RSV-infected infants without atopic diseases IFN-gamma production was not suppressed on acute phase. The IFN-gamma suppression observed in the atopic group is not caused by the immaturity of an infant's immune system since reduced IFN-gamma production to RSV is not observed in the infants of non-atopic group. IFN-gamma suppression in regard to RSV infection might be caused by some genetic factor involved in the development of atopic disease such as IL-18 signal cascade.

Characterization of immune responses in gastric cancer patients: a possible impact of H. pylori to polarize a tumor-specific type 1 response?

Recently, we were able to show that Helicobacter pylori-positive gastric cancer (GC) patients have a significantly better survival after the complete resection of their tumor compared to H. pylori-negative GC patients. H. pylori is known to polarize an immune response towards a type 1 cytokine profile and tumor-specific type 1 cytokine responses are associated with protection from tumor challenge and T-cell-mediated tumor regression. Therefore, we hypothesized that the improved survival in H. pylori-positive patients may be secondary to the induction of a GC-specific type 1 T cell response. To characterize the anti-tumor immune response in GC patients we analyzed tumor-infiltrating lymphocytes (TIL) isolated from primary tumors. The CD3+ T cell population contained 50% CD4+ (range 0.4-81%) and 39% CD8+ cells (range 22-53%). The number of B cells (CD19+, P = 0.03) was significantly increased and the number of T cells (CD3+, P = 0.02) significantly decreased in intestinal compared to diffuse type of tumors. Four tumor cell lines were established from primary GCs and three from lymph node metastases. T cell cultures were established from isolated TIL from four H. pylori-positive and one H. pylori-negative GC patients and tested for tumor-specific cytokine secretion. Eight of ten T cell cultures derived from H. pylori-positive patients secreted both IFN-gamma and IL-5 after restimulation with autologous tumor cells. The only tumor-specific TIL line expressing a dominant IL-5 response was derived from an H. pylori-negative patient.

Evidence for the transmissibility of atopy: hypothesis.

The etiology of atopy is unknown. Its family distribution suggests transmissibility. Populations moving from countries with a low incidence to those with a high incidence increase to the higher rate. African and New Guinea village groups developed asthma with return of individuals who have acquired atopy in the city. Protection (and possibly immunity) develops with early exposure to child care or to affected older siblings. T helper (Th) type 2 clones driving specific allergies remain active even without further allergen exposure. Other IgE responses remain normal. Once boosted to completeness, the patterns of skin test results remain quite stable, possibly by the localization of abnormality maintained by immunity. An example of a virus causing the immortality of Th2 cells is herpes simplex virus type 1. It infects mouse or human Th2 cells and, although it does not multiply, causes immortality by increasing FAS-mediated apoptosis of T cells directed against the infected cells. Human T-cell leukemia virus 1 and probably others use similar ploys. Abnormal levels of FAS receptors and resistance to FAS apoptosis in nasal polyp lymphocytes and abnormal Th2 clones of atopy are interesting in this regard. The localizing role of a staphylococcal superantigen in atopic dermatitis, and possibly in autoimmunity in nonatopic eczema and intrinsic asthma, encourage the consideration of roles for microorganisms in localization and etiology. The epidemiology and characteristics of atopic disease support the plausibility of a viral hypothesis.

Cytokine production of RSV/PHA-stimulated tonsillar mononuclear cells: influences of age and atopy.

Links between immune responses to respiratory syncytial virus (RSV), age and atopic sensitisation are poorly understood. This study investigated the induction of target organ type-1, type-2 and proinflammatory cytokine responses to RSV and/or phytohaemagglutinin (PHA) in tonsillar mononuclear cells from children, in relation to age and atopic status. In comparison with the control medium, RSV induced production of the type-1 cytokines interferon (IFN)-gamma and interleukin (IL)-18, the pro-inflammatory cytokines IL-6, -8 and RANTES (regulated on activation, normal T-cell expressed and secreted), but not any of the type-2 cytokines IL-4, -5, -10 and -13. Induction of IL-6, -8 and RANTES, but not IFN-gamma or IL-18, were shown to be dependent on virus replication. PHA induced all except IL-12, -13, and -15. Induction of IFN-gamma, IL-6, -8, and RANTES was significantly increased in atopic children. Induction of both IFN-7 and IL-4 increased in parallel in relation to age, with no change in the IFN-gamma:IL-4 ratio. These data are compatible with the hypothesis that immature type-1 immunity during early childhood plays a role in both respiratory syncytial virus bronchiolitis and in its relationship with atopy.