Is deficiency of interferon gamma production by allergen triggered cord blood cells a predictor of atopic eczema?

Development of immunologic memory against tetanus toxoid and pertactin antigens from the diphtheria-tetanus-pertussis vaccine in atopic versus nonatopic children

BACKGROUND

Recent findings suggest that a hallmark of the atopic phenotype is reduced capacity to respond to vaccine antigens, as well as to environmental allergens, during infancy. This deficiency, which is most marked for the cytokine IFN-gamma, appears transient but can result in a long-lasting imbalance within T helper cell (T(H)) memory responses to allergens. Indirect evidence suggests that parallel effects may occur within immunologic memory responses against vaccine antigens in atopic children.

OBJECTIVE

Our purpose was to compare vaccine antigen-specific T(H) memory responses in atopic and nonatopic children.

METHODS

We analyzed specific serum IgG and cytokine responses to pertactin and tetanus antigens as well as to mitogen (PHA) and house dust mite (HDM) allergen in 25 HDM-sensitized atopic and 25 nonatopic 6-year-old children who were vaccinated and boosted with diphtheria-tetanus-pertussis (DTP) vaccine.

RESULTS

PBMCs from the atopic subjects produced higher levels of T(H)1 and T(H)2 cytokines to HDM allergen and PHA. Vaccine antibody titers were normal in the atopic subjects; vaccine-specific T(H)2 responses were rarely detectable, yet T(H)1 (IFN-gamma) responses, in particular against tetanus, were frequent and higher in the atopic subjects (121.5 [SE 64.3] vs 8.0 [3.5] pg/mL culture fluid, P =.04). Corresponding pertactin responses were comparable in both groups.

CONCLUSIONS

At the completion of the full primer-booster DTP vaccination regimen, levels of vaccine-specific immunity in atopic 6-year-old children are at least equivalent to their nonatopic counterparts, indicating that the transient atopy-associated deficiency in T(H)1 function in childhood can be successfully overcome by appropriate vaccination and boosting regimens.

Effects of maternal allergen-specific IgG in cord blood on early postnatal development of allergen-specific T-cell immunity

BACKGROUND

A wide body of epidemiologic evidence indicates that as yet unknown maternal factor(s) can influence susceptibility to allergic disease in the offspring. It is also well established that the induction of allergen-specific T-cell memory is frequently initiated in utero, and it is likely that maternal factors exert their influence during this period.

METHODS

This study examines the relationship between maternally derived allergen-specific IgG subclass antibodies and cellular immune responses (lymphoproliferation and cytokine production) against the same allergens in 49 subjects tested at birth and at 2 years of age. Polyclonal production of the Th1 cytokine IFN-gamma was also examined in the cord-blood samples.

RESULTS

At birth, there were positive correlations between both house-dust mite (HDM)- and ovalbumin (OVA)-specific IgG subclass levels in cord blood, maternal atopy, and the magnitude of perinatal lymphoproliferative responses to respective allergens. Inverse relationships were also observed between cord-blood IgG antibody titres and allergen-specific production of some Th2 cytokines. However, there were no consistent relationships between cord-blood allergen-specific IgG antibodies and subsequent immune responses to allergens when the same subjects were retested at 2 years of age. An inverse relationship was observed between maternal history of atopy and perinatal IFN-gamma production capacity.

CONCLUSIONS

Our results suggest that transplacental transfer of allergen-specific IgG antibody is unlikely to be a major mechanism for maternal regulation of allergen-specific immunity in infancy. An alternative possibility is that maternal effects may operate by influencing IFN-gamma production by T cells in the offspring.

Fetal and neonatal IL-13 production during pregnancy and at birth and subsequent development of atopic symptoms

BACKGROUND

Cytokine production at the materno-fetal interface may influence the development of atopy-predisposing immune responses. Because IL-13 possesses IL-4-like activity and may regulate the immune responses observed in atopy, it may contribute to the expression of the atopic phenotype initiated during intrauterine life.

OBJECTIVE

We sought to examine IL-13 expression by fetal and neonatal cells and the placenta.

METHODS

The production of IL-13 by neonatal and fetal T cells was examined by culturing the cells in the presence or absence of PHA. Production of IL-13 at term was considered in the context of the later development of atopic disease in the child. IL-13 expression in the placenta was assessed by using immunohistochemistry.

RESULTS

IL-13 immunoreactivity within the placenta was restricted to 16 to 27 weeks' gestation (6/6 positive vs 0/10 at >27 weeks' gestation). In contrast, spontaneous release of IL-13 by fetal mononuclear cells was first observed from 27 weeks' gestation but was undetectable after 37 weeks' gestation. PHA-stimulated mononuclear cells showed increased IL-13 levels in 80% of samples. Term babies (>37 weeks' gestation) with a parental history of atopy with atopic symptoms by 3 years of age produced significantly lower concentrations of PHA-induced IL-13 when compared with babies with no parental history of atopy (P =.034).

CONCLUSION

Thus babies at risk of atopic disease in infancy display defective IL-13 production at birth. This may represent an inherent immaturity in the development of T cell-cytokine responses in babies at genetic risk for atopy or could be a consequence of downregulation of responses by other factors. Normal pregnancy, irrespective of atopic status, is associated with the production of appreciable quantities of IL-13 initially by the placenta and subsequently by the fetus. The regulation of this production and its consequences for the mother and fetus remains to be elaborated.

Measurement of T-helper cytokines secreted by cord blood mononuclear cells in response to allergens

It has been proposed that in utero factors may predispose towards the development of childhood atopy. To test this hypothesis, it will be necessary to measure T-helper cell (Th) cytokines secreted by human cord blood mononuclear cells (CBMC) stimulated by allergens. However, to date, it has proven impossible to measure allergen-specific CBMC secretion of the key Th cytokine interleukin-4 (IL-4) using conventional sandwich ELISA techniques. We report for the first time the successful measurement of IL-4 secreted by CBMC stimulated by the allergens timothy grass pollen and house dust mite extract. The method is an adaptation of a novel cell-based ELISA (celELISA), which demonstrated an increased (up to 20-fold) sensitivity to detect IL-4. The method is simple, precise, is no more costly than a conventional ELISA, and can identify individuals in a general population whose CBMC exhibit different cytokine biases in response to allergens. The frequency distribution of IL-4 and interferon-gamma (IFN-gamma) CBMC responses to allergens in the general population approximates to a log-normal distribution, which will permit the application of linear regression techniques in the identification of in utero factors which influence Th bias.

Prenatal origins of allergic disease

The prevalence of asthma and related allergic disorders has increased considerably over the last 25 years. Because genetic stock has not changed, environmental factors must have influenced the phenotype. Infants who experience the development of allergy already have an altered immune response at birth. We have investigated the development of immune responses during gestation and the effect of maternal allergen exposure during pregnancy and infant exposure in the first month of life on the development of allergy and disease. There was higher specific peripheral blood mononuclear cell proliferation to house dust mite and birch pollen in the third trimester compared with the second trimester, with the first positive responses seen at 22 weeks gestation. Maternal exposure to birch pollen after 22 weeks resulted in higher infant peripheral blood mononuclear cell responses to birch pollen at birth. Infants born at term, with at least 1 atopic parent with asthma, who experienced the development of allergic symptoms and positive skin prick test by 1 year of age had raised proliferative responses to house dust mite at birth compared with those infants with no symptoms. In genetically predisposed individuals, antenatal factors including maternal and thereby fetal exposure to allergens and materno-placental-fetal immunologic interactions are active in determining whether an allergic predisposition is manifested as disease.

Culture conditions for the detection of allergen-specific T-cell reactivity in cord blood: influence of cell number

Raised T-cell proliferation of cord blood mononuclear cells (CBMC) in response to various ingestant and inhalant allergens has been reported in newborns, suggesting a prenatal allergen contact. In general, for in vitro proliferation assays a concentration of 50 x 10(3) or 100 x 10(3) cells/well are used. The aim of this study was to analyze whether cell concentration influences T-cell reactivity in cord blood cells and to study differences of T-cell reactivity triggered by inhalant and ingestant allergens. CBMC from 51 neonates (34 females: 22 with and 29 without a family history of allergy, i.e. FH+ or FH-) were incubated with interleukin-2 (IL-2), beta-lactoglobulin (beta-LG), ovalbumin (OVA), house dust mite allergen Dermatophagoides pteronyssinus (Der p 1), and timothy grass allergen Phleum pratense (Ph1 p 1) for 7 days. The cell concentration ranged from 6.25 x 10(3) to 100 x 10(3) cells/well. Proliferation was assessed by incorporation of [3H]-thymidine and was expressed as counts per minute (c.p.m.). In unstimulated cells, a decreasing cell concentration paralleled a steep drop of background activity. In response to IL-2, a decreasing cell concentration led to a slow decrease of c.p.m. The corresponding mean stimulation indices (SI) were 9, 32, 77, 47, and 21 for 100 x 10(3), 50 x 10(3), 25 x 10(3), 12.5 x 10(3), and 6.25 x 10(3) cells/well, respectively. In addition, the highest number of positive proliferative responses to specific allergens were obscured at lower cell concentrations. For beta-LG, the maximal number of positive responses were obtained between 25 x 10(3) (n = 44) and 12.5 x 10(3) (n = 46) cells/well, for OVA at 25 x 10(3) (n = 3) cells/well, for Der p 1 at 50 x 10(3) (n = 5) cells/well, and for Ph1 p 1 between 25 x 10(3) and 12.5 x 10(3) (n = 5) cells/well. Positive proliferation in at least one of the tested assays was observed in 100% of samples in response to beta-LG, in 22% in response to Ph1 p 1, and in 14% in response to OVA and Der p 1. T-cell reactivity did not differ between samples of newborns with or without a family history of atopy. Therefore, sensitivity of T-cell proliferation measurement is highly influenced by background proliferation of unstimulated cells. Hence, proliferation assays with lower cell numbers unmask T-cell reactivity in response to ingestant and inhalant allergens. We suggest the use of concentrations of 12.5 x 10(3)-50 x 10(3) cells/well in proliferation experiments.

Manchester Asthma and Allergy Study: low-allergen environment can be achieved and maintained during pregnancy and in early life

BACKGROUND

Early exposure to dust mite allergens may be critical for primary sensitization. Reducing exposure may offer a realistic chance for primary prevention of sensitization and asthma, but it is essential to implement measures that can achieve and maintain the low-allergen environment.

OBJECTIVE

Our purpose was to assess the effectiveness of mite allergen avoidance measures in achieving and maintaining a low-allergen environment during pregnancy and in the first year of life.

METHODS

The Manchester Asthma and Allergy Study is a prospective, prenatally randomized study that follows the development of asthma and atopy in a cohort of infants at high risk (both parents atopic) who are randomly allocated to full mite allergen avoidance or to a normal regimen. Avoidance measures comprise (1) mite-proof covers (mattress, pillow, and quilt) for parental bed, (2) high-filtration vacuum cleaner, (3) vinyl flooring in infant's bedroom, (4) new crib and portable crib mattresses encased in mite-proof material, (5) benzyl benzoate (Acarosan) applied on carpets and soft furniture, (6) bed linens washed in hot water weekly, and (7) washable soft toys. Dust samples from the parental bed, bedroom floor, living room floor, infant's mattress, and nursery floor were collected between the 10th and 14th weeks of pregnancy, immediately after birth, and then at age 6 months and 1 year, and Der p 1 levels were determined by mAb-based ELISA.

RESULTS

Recovered Der p 1 from maternal mattress was reduced by 97. 25% (95% confidence interval [CI] 95.25%-98.41%) during the second and third trimesters of pregnancy, with the effect persisting for 6 months (98% reduction, 95% CI 97.25%-99.1%) and 12 months (97.6% reduction, 95% CI 95.7%-98.6%) after the birth (active vs control, P <.000001). Total Der p 1 from bedroom floor in the active group was reduced by 53.7% (95% CI 25.7%-71.2%) in samples collected within 4 weeks of the child's birth, with the percentage reduction being 62. 8% (95% CI 39.3%-77.2%) at 6 months and 26.5% (95% CI -24% to 57.1%) at 1 year (active compared vs control, P <.007). Der p 1 levels in crib mattress and nursery floor in the active group were extremely low (crib mattresses geometric mean [95% CI] 2.3 ng [1.6-3.4] at birth, 6.8 ng [4.5-10] at age 6 months, and 15.6 ng [9.8-24.8] at age 1 year [active vs control, P =.001]; nursery 1 ng [0.9-1.1] at birth, 1.7 ng [1.2-2.5] at age 6 months, and 2 ng [1.3-3.5] at age 1 year [active vs control, P <.00001]). The total amount of allergen recovered at age 1 year was 29-fold (95% CI 15.1- to 56.7-fold) higher in the control group than in the active group.

CONCLUSIONS

The avoidance measures used in this study achieved and maintained a low mite allergen environment during pregnancy and in the first year of life in homes of infants at risk of atopy.

Low levels of interferon-gamma in nasal fluid accompany raised levels of T-helper 2 cytokines in children with ongoing allergic rhinitis

The T-helper 2 (Th2) cytokines interleukin-(IL-) 4, IL-5, IL-6, IL-10 and the Th1 cytokine IFN-gamma and their associations with eosinophil, eosinophil cationic protein (ECP) and immunoglobulin (Ig) E were studied in nasal lavage fluid from 60 school children with allergic seasonal rhinitis and 36 nonatopic healthy controls, before and during the pollen season. Eosinophil differential counts and IgE increased significantly in the patients during the pollen season. The eosinophil differential counts, ECP and IgE were all significantly higher during the season than in specimens simultaneously obtained from the nonatopic controls. Before season, the levels of ECP and IgE, but not eosinophils, were significantly higher in the patients than in the controls. During the season the nasal lavage fluid levels of IFN-gamma were significantly lower and the IL-4/IFN-gamma quotients significantly higher in the allergic than in the control children. In the allergic children, but not in the controls, the nasal fluid levels of the Th2 cytokines IL-4, IL-5 and IL-10 increased during the season, and together with IL-6, were correlated with the differential counts of eosinophils, and with the levels of ECP and IgE. These findings are compatible with the hypothesis that a deficient release of the Th1 cytokine IFN-gamma plays an important role in the pathogenesis of allergic inflammation. Regardless of whether the defective IFN-gamma secretion is primary or a consequence of suppression by other cytokines, it will in the atopic subjects enhance the release of Th2 cytokines, which in turn will facilitate the development of allergic inflammation.

Determination of T-cell subpopulations and intracellular cytokine production (interleukin-2, interleukin-4, and interferon-gamma) by cord blood T-lymphocytes of neonates from atopic and non-atopic parents

This report describes the results of a prospective study on immunological markers in cord blood for the prediction of allergic diseases in children. First we evaluated methodological aspects of the flow cytometric technique on cord blood cytokine measurements. Subsequently, the T-cell subsets and percentage of cytokine-producing cord blood T-helper (Th) and T-suppressor/cytotoxic lymphocytes of neonates from atopic and non-atopic parents were compared. A group of 33 healthy, full-term newborn infants of whom 23/33 were at risk for atopy (i.e. having at least one parent with one or more atopic symptoms and positive specific immunoglobulin E [IgE] to at least one common inhalant allergen) was studied. A flow cytometric technique was used to analyze cord blood T-cell subsets and to determine the percentage of interleukin (IL)-2-, IL-4-, and interferon-gamma (IFN-gamma)-producing cord blood Th and T-suppressor/cytotoxic lymphocytes following stimulation with phorbol 12-myristate 13-acetate (PMA) and ionomycin. The percentage of CD3 (T lymphocytes), CD3+ CD4+ (Th lymphocytes), CD3+ CD8+ (T-suppressor/cytotoxic lymphocytes), CD19+ (B lymphocytes), CD3+ CD4+ CD45RO+ (memory Th lymphocytes), and CD3+ CD4+ CD45RA+ (naive Th lymphocytes) cells was unrelated to parental atopic status. PMA stimulation augmented the percentage of IL-2- and IFN-gamma-producing Th and T-suppressor/cytotoxic lymphocytes, whereas the number of IL-4-producing T lymphocytes remained very low or undetectable. No differences in the percentage of TL-2-, IL-4- and IFN-gamma-producing Th and T-suppressor/cytotoxic lymphocytes were found between neonates from atopic and non-atopic parents. These results will be re-evaluated when the atopic status of the children at the age of 1 and 2 years can be assessed.

Dietary aspects of food allergy prevention in infants and children

Food allergy occurs in approximately 4% to 6% of children, has increased in prevalence during the past decade, and thus represents a major burden to our young. The natural history of food allergy documents that allergies to cow's milk, egg, and soy frequently remit whereas allergies to peanut, nuts, and fish typically persist to adulthood, although exceptions exist. Food allergen avoidance subsequent to sensitization and manifestation of symptoms appears to hasten tolerance; however, the immunologic mechanism responsible for tolerance to one food group and not another is poorly understood. Identification and characterization of allergens and determination of B- and T-cell epitopes has provided an opportunity to better define these mechanisms. Identifying and developing effective strategies to prevent food and other allergic diseases represents a high priority for medicine at this time because of the unbridled increase in the prevalence and morbidity attributed to them. Immunologic engineering holds the greatest promise for allergy prevention in the not too distant future, but environmental strategies that promote food avoidance provide an avenue for prevention at present. Such efforts rely actively on reducing the food allergenic load and exposure of atopy-prone infants and children.

Cord blood levels of immunoglobulin G subclass antibodies to food and inhalant allergens in relation to maternal atopy and the development of atopic disease during the first 8 years of life

BACKGROUND

Factors that either protect from or enhance the development of atopic disease appear to be acting early in life. The gestational environment, including maternal immune responses, such as transplacentally transferred immunoglobulin (Ig) G antibodies to allergens, may be of importance in this respect, since allergen-specific immunity has been demonstrated to develop in utero.

OBJECTIVE

To evaluate the relation between cord blood IgG subclass antibodies to allergens, maternal atopy and development of atopic disease in the children.

MATERIAL AND METHODS

The study group comprised a cohort of 96 children participating in a prospective study up to 8 years of age. Cord blood IgG subclass antibodies to ovalbumin, beta-lactoglobulin, Bet v 1 and cat dander were analysed by ELISA.

RESULTS

The levels of all IgG subclass antibodies to ovalbumin and rBet v 1 were higher in newborn infants with an atopic mother, as compared with babies with nonatopic mothers. IgG1 antibody levels to cat and IgG4 antibody levels to beta-lactoglobulin and cat were also higher in atopic than in nonatopic mothers, whereas the other subclass antibody levels to those allergens were similar. High levels of cord blood IgG antibodies to cat and birch, but not to the food allergens, were associated with less atopic symptoms in the children during the first 8 years of life. Moreover, children who developed IgE antibodies to cat had lower levels of IgG antibodies to that allergen at birth.

CONCLUSIONS

High levels of cord blood IgG subclass, especially IgG4, antibodies to food and inhalant allergens are associated with maternal atopy. High levels of IgG antibodies to inhalant, but not food, allergens are associated with less development of atopy in the children.

Pre-natal sensitization in humans

Allergy has a very strong hereditary component but even in identical twins, concordance for the development of allergic disease can be as low as 50%. This suggests that there is a very strong environmental influence on manifestations of sensitization. To what extent environment might have an influence on the ontogeny of sensitization antenatally has hitherto not been a focus of much research. However, circumstantial evidence suggests that this may be important.

Primary sensitization to inhalant allergens

The neonatal T-cell system is capable of responding to allergens at birth, indicating the occurrence of prenatal sensitization, and the cytokine profile of these responses is skewed towards the Th-2 type. This response is further modified by postnatal exposure to different types of allergens. In relation to inhalant allergen (employed by HDM) the low level fetal Th-2 responses in non-atopics appear to be down-regulated rapidly after birth, parallel to an increase in allergen-specific IFN-gamma production. In contrast, atopics appear to consolidate their initial Th-2 responses, and around the age of 6 exhibit a cytokine response profile similar to the adult pattern. A pre-existing deficiency in IFN-gamma production may be one of the key factors determining the postnatal persistence of Th-2 responses in atopics.

Primary sensitization in infants

OBJECTIVE

It has become increasingly clear that the mechanisms by which an allergic immune response is generated are complex and may begin even before a baby is born. Genetic, environmental, nutritional, and immunologic factors acting during pregnancy all play a role in determining whether or not a baby is born with a propensity to develop allergic sensitization and subsequent allergic disease. The objective of the research described in this article is to determine whether manipulation of any or all of these could lead to prevention of disease.

DATA SOURCES

The database used was Medline up to and including 1997. The Conference Proceedings of the XVth World Congress of Asthmology in Montpellier 1996 are quoted. Many of the research hypotheses are generated from work performed in our own laboratories.

STUDY SELECTION

The criteria used to select studies for review centered around a necessity for the data to have been collected in very early life with, if possible, a follow-up period to determine disease progression, or for the data to have been collected during pregnancy to elucidate primary mechanisms.

RESULTS

It has been shown that a fetus is able to mount a proliferative response to a common allergic trigger (beta-lactoglobulin, house dust mite, etc) as early as 22 weeks of pregnancy. Maternal exposure to allergens influences her own IgG production which modulates the allergen exposure of the fetus resulting in either primary sensitization of T cells or "tolerance" to the allergen. Atopic mothers create a more Th2-orientated environment for the developing fetus than non-atopic mothers.

CONCLUSIONS

Manipulation of the maternal immune response during pregnancy, either by altering her environment or controlling her allergic reactions, may be a method of preventing the development of allergic disease in infants.

Mononuclear cell reactivity to food allergens in neonates, children and adults

A model of antigen-specific T-cell proliferative responses based on reciprocal patterns of responses to dietary and inhalant allergens has been suggested, the former being frequent in infancy but rare in adults, whereas the latter are preserved and expand between infancy and adulthood. We have evaluated the age-related variations of mononuclear cell reactivity to food allergens. The cord blood mononuclear cells (CBMC) of 30 neonates without family history of atopy and the peripheral blood mononuclear cells (PBMC) of 20 healthy children and of 40 healthy adults were stimulated in vitro with beta-lactoglobulin (BLG) or ovalbumin (OVA) and the cultures were harvested after 7 days. Neonates, children and adults were compared for the percentages of positive responses and for the magnitude of response. Adult subjects showed significantly lower percentages of positive responses and reduced magnitude of response than those observed in neonates and children either in BLG or in OVA cultures. We have not observed a decrease of food allergen mononuclear cell reactivity between neonates and children for the frequency of positive responses. The magnitude of response of neonates was significantly lower than that of children in BLG cultures. Our results seem to confirm the loss of mononuclear cell reactivity to food allergens in adult age. However, other reports show conflicting data. We suggest that a rigorous standardization of the methodological steps of in vitro mononuclear cell stimulation with allergen is necessary.

Can we predict which wheezy infants will continue to wheeze?

Early intervention strategies in infant wheezing will be dependent on the ability to predict persistence of disease. We undertook a prospective longitudinal study to determine which factors might be predictive for the persistence of wheeze. We examined a group of 107 children 3 to 36 mo of age with at least one atopic parent. Children were recruited within 12 wk of first wheeze. Factors assessed included: personal atopy (IgE > 1 SD above age-related normal and/or eczema and/or positive skin tests); parental atopy; number of siblings; age at first wheeze; sex; serum-soluble IL-2R; proliferation of peripheral blood mononuclear cells (PBMC) to beta-lactoglobulin and to D. pteronyssinus; production of IFN-gamma on stimulation of PBMC with beta-lactoglobulin and with D. pteronyssinus. A positive clinical outcome (child requiring prophylactic antiasthma treatment after 1 yr) was observed in 53 (49.5%) children. Predictor variables were assessed by univariate and multivariate logistic regression. Wheeze was more likely to be persistent in older, atopic children with biparental atopy. The model offering best prediction of persistent wheeze with least risk of including asymptomatic subjects was age at presentation + sIL-2R. Trials of early intervention strategies using a logistic regression equation based on this model for patient recruitment can now be designed.

A retrospective study of the relationship between childhood asthma and respiratory infection during gestation

BACKGROUND

Wheeze in children has been found to be associated with prior antepartum haemorrhage and raised levels of IgE in cord blood, and acute wheezing episodes are intimately linked with respiratory viral infections.

OBJECTIVE

To assess the relationship between maternal presentation with respiratory tract infections in pregnancy and childhood asthma, taking into account factors which could affect presentation.

METHODS

This was a case-control study of 200 asthmatic children, 5-16-year-old, age-matched with one control, having no recorded history of wheeze. Data on respiratory tract infections, maternal wheeze, atopy and smoking was collected from primary care records. Deprivation score was assessed according to small residential areas and subjects were equally distributed between four general practices in Plymouth, UK.

RESULTS

Presentation with respiratory tract infections during pregnancy was significantly associated with childhood asthma (OR 1.69, 95% confidence interval 1.05-2.77, P = 0.03). The association was marginally stronger for infections in the first trimester (OR 2.30, 95% CI 1.05-5.41, P = 0.04) and for those with cough during pregnancy (OR 2.24, 95% CI 1.23-4.22, P = 0.007). The associations remained significant after allowing for the effect of the independent variables (gender, maternal smoking, maternal wheeze, allergic rhinitis, eczema, asthma treatment in pregnancy and deprivation [Townsend] score), using multiple logistic regression analysis (ORs and 95% CIs 1.91, 1.14-3.22; 2.32, 1.01-5.34 and 2.29, 1.17-4.48, respectively). There was also an association between numbers of presentations with respiratory infections and childhood asthma (test for trend, P = 0.02).

CONCLUSIONS

This study has shown an association between presentation with respiratory infection during gestation and childhood asthma. The results were not affected by the other independent variable factors studied and therefore provide some evidence to support the theory that respiratory viruses may be implicated in the aetiology of asthma.

Hypothesis: from epidermal barrier dysfunction to atopic disorders

The rôle of a genetically-impaired epidermal barrier as the primary cause of the rapid increase in prevalence of atopic dermatitis and respiratory atopy is proposed, based on available clinical and experimental data. The subsequently increased exposure to irritants and allergen postnatally in predisposed individuals would lead in a subset of these to a specific TH2 cell activation favouring the development of IgE responses to atopens. Other routes of sensitization are probably important, but skin offers a good target to implement prevention strategies, so far completely ignored in the prophylactic recommendations given to high-risk families. Candidate genes for skin-barrier impairment are possibly those associated with ichthyosis vulgaris and X-linked hypohidrotic ectodermal dysplasia.

Regulation of T-helper cell responses to inhalant allergen during early childhood

BACKGROUND

Recent evidence suggests that preschool children manifest patterns of allergen-specific skin prick test (SPT) reactivity and in vitro T-cell cytokine production which are similar to that of either atopic or nonatopic adults. However, published studies on this age group involve small sample sizes and a restricted number of cytokines, usually in response to polyclonal stimuli.

OBJECTIVE

To elucidate the relationship between in vivo and in vitro immune responses to a major inhalant allergen house dust mite (HDM) in preschoolers.

METHODS

Peripheral blood mononuclear cells (PBMCs) from matched groups of HDM-SPT+ and SPT- 6-year-olds (n = 30 and 29, respectively) tested for PBMC responses to HDM, and cytokine production measured at both the protein and mRNA levels. Immunoglobulin (Ig) E and IgG subclass antibody titres were determined in serum. Interrelationships between in vitro and in vivo HDM responses were examined via multivariate analyses.

RESULTS

SPT reactivity to HDM was associated with in vitro production by putative T cells of interleukin (IL) -4, IL-5, IL-9, IL-10, IL-13 and low level IFNgamma, and with production in vivo of IgE and (all) IgG subclass antibodies; HDM responses in the SPT- group were restricted mainly to IL-10 and IFNgamma and very low levels of IL-4; IL-6 production from non-T-cell sources was common. The cytokine most associated with positive SPT responses was IL-9; SPT weal diameter correlated positively with IL-4, IL-5 and IL-13 and negatively with IL-10.

CONCLUSION

Detailed analysis of cytokine responses in this very young age group have the potential to uncover subtle relationships between in vivo and in vitro allergen reactivity which may be less clear in adults, in whom T-cell response patterns are modified via chronic stimulation. The present findings which suggest potentially important roles for IL-9 and IL-10 in the early phase of allergic disease, may be one such example.

Prenatal factors and occurrence of rhinitis and eczema among offspring

BACKGROUND

It has recently been suggested that an atopic phenotype may already be programmed in utero. We examine here the association between prenatal factors and the subsequent development of allergic rhinitis and eczema among offspring.

METHODS

The analyses were based on 8088 children in a population-based prospective birth cohort started in northern Finland in 1985-6.

RESULTS

The prevalences of allergic rhinitis and allergic eczema by the age of 7 years among 8088 children were 3.3% and 6.7%, respectively. The results indicate that low parity, febrile infections in pregnancy, and the use of contraceptives before pregnancy increased the risk of allergic disorders among children. Bleeding in the first trimester and a greater weight gain during pregnancy appeared to be risk factors for rhinitis only. Children whose mothers experienced infections in the first trimester had ORs of 2.65 (95% CI 1.50-4.69) for rhinitis and 1.63 (95% CI 1.00-2.69) for eczema after adjustment for potential confounders.

CONCLUSIONS

Obstetric complications and infection in pregnancy may increase the risk of allergic disorders among the offspring.

Is childhood asthma an inflammatory disease?

There is now extensive evidence that asthma results from inflammation in large and small airways, and that the degree of inflammation reflects the clinical severity of the disease. Most of this evidence, however, has come from studies in adult patients. Evidence in children comes largely from indirect studies such as measurements of peripheral blood cells and inflammatory markers, rather than from direct bronchoscopic examination. Studies in adults show that inflammation in asthma is characterized by eosinophilia, epithelial damage, and bronchial hyperresponsiveness, and that activation of allergen-specific T cells plays an important role in orchestrating the inflammatory process. In children, indirect evidence of inflammation comes from the observation that anti-inflammatory agents such as inhaled corticosteroids improve symptoms and bronchial hyperresponsiveness, reduce the number of asthma exacerbations, and limit the progressive decline in lung function. Further evidence comes from measurements of nitric oxide and hydrogen peroxide (potential inflammatory markers) in exhaled air, and of inflammatory mediators in plasma and urine. As in adults, there is evidence that lymphocytes play an important role in orchestrating the inflammatory process. The immunologic profile appears to shift from a Th1-type cytokine profile to an allergen-related Th2-type profile prior to birth. Such a Th2 predominance constitutes a risk factor for the subsequent development of bronchial hyperresponsiveness and asthma in response to allergen.

Mechanisms of deficient interferon-gamma production in atopic diseases

BACKGROUND

The mechanisms responsible for an imbalanced cytokine response in atopic diseases are still not understood. While impaired interferon-gamma (IFN-gamma) production may be the result of a pathological T-cell/antigen-presenting cell (APC) interaction, evidence was provided that the T cell itself may have an intrinsic defect to produce IFN-gamma.

OBJECTIVE

To clarify whether impaired IFN-gamma production by T cells from patients with atopic dermatitis (AD) represents an intrinsic defect in producing IFN-gamma.

METHODS

Effector T cells were generated from CD4+ CD45RA+-naive precursors from patients with AD and healthy control individuals by activation with anti-CD3+ anti-CD28 MoAbs. Following restimulation, IFN-gamma production was measured by ELISA and flow cytometry.

RESULTS

IFN-gamma production by atopic T cells was decreased compared with healthy T cells. IL-12 present at priming or high doses of IL-2 during the culture period, even in the absence of IL-12, completely restored IFN-gamma production. Conversion of naive CD45RA+ to CD45R0+ effector cells did not differ between atopic and healthy donors' T cells.

CONCLUSION

Impaired IFN-gamma production by T cells from atopic individuals is not the result of an intrinsic, genetically fixed, defect to produce sufficient amounts of IFN-gamma. The data provides evidence that correction of an impaired TH1 response in AD may be successful at the precursor T cell level.

Allergen-stimulated expression of CD154 (CD40 ligand) on CD3+ lymphocytes in atopic, but not in nonatopic individuals. Modulation by bacterial lipopolysaccharide

The intention of this study was to mimic a naturally occurring stimulation by allergens and bacterial infection in order to determine whether specific allergen-induced, inflammatory responses may be changed or modified by bacterial products. Blood leukocytes from six atopic and six nonatopic individuals were examined for their surface expression of CD154, CD11a, and HLA-DR molecules and for secretion of IgE, eosinophil cationic protein (ECP), and the cytokines interleukin (IL)-4 and IL-5. Signals through CD154 are required for activation and proliferation of effector cells associated with the allergic, inflammatory response. HLA-DR and CD11a/CD18-mediated interactions are also involved in T- and B-cell functions. Birch-pollen (BP) allergens induced CD154 expression on CD3-positive lymphocytes only in atopic individuals. In nonatopics, the expression of CD154 could be induced only after exposure to BP and subsequent lipopolysaccharide (LPS) stimulation. Levels of CD154 expression were always higher in atopics than nonatopics. CD11a and HLA-DR expressions were upregulated, irrespective of atopic state, after BP and/or LPS stimulation. The increased secretion of IL-5 and total IgE in BP-supplemented cell cultures indicated that an allergic response had occurred. In conclusion, the results of this report do not support the hypothesis of a changed inflammatory response stimulated by the combined action of bacteria and allergens, as compared to allergen provocation alone.

Peripheral blood T lymphocytes from asthmatic patients are primed for enhanced expression of interleukin (IL)-4 and IL-5 mRNA: associations with lung function and serum IgE

BACKGROUND

The TH2-like cytokines interleukin (IL)-4 and IL-5 play a pivotal role in airway wall inflammation in asthma and these cytokines are increased in peripheral blood and bronchoalveolar lavage fluid from asthmatic patients. It is unclear why specifically TH2-like cytokines are increased in asthmatic patients. A possible explanation may be an impaired adenylyl cyclase activity, which has been observed in peripheral blood mononuclear cells of asthmatics.

OBJECTIVE

To assess interferon (IFN)-gamma, IL-4 and IL-5 mRNA expressions and their control by prostaglandin E2 (PGE2), which activates adenylyl cyclases, of peripheral T lymphocytes from patients with moderately severe asthma and healthy controls.

METHODS

Peripheral blood T lymphocytes from asthmatics and healthy controls were isolated and stimulated with antibodies against CD3 plus CD28 in the absence and presence of increasing concentrations of PGE2. IFN-gamma, IL-4 and IL-5 mRNA levels were detected by reverse transcription-polymerase chain reaction.

RESULTS

In contrast to IFN-gamma mRNA, IL-4 (P = 0.03, n = 8) and IL-5 (P < 0. 05, n = 5) mRNAs in the asthma group were significantly higher than in controls (n = 4). In addition, IL-5 showed a significant inverse correlation with forced expiratory volume (FEV1) (P < 0.04, n = 5), whereas IL-4 positively correlated with PC20adenosine-monophosphate (AMP) (P < 0.02, n = 8). Accumulation of mRNA for IFN-gamma, IL-4 and IL-5 mRNA were significantly diminished by 10-5 m PGE2 in both asthmatics and controls. In contrast, 10-6 m PGE2 significantly down-regulated IFN-gamma and IL-4 mRNAs (P < 0.05 for both IFN-gamma and IL-4, n = 4) in the control group, whereas this was not observed for IL-4 mRNA in the asthma group (n = 7).

CONCLUSIONS

Activated peripheral blood T lymphocytes from asthma patients display higher levels of IL-4 and IL-5 mRNA in vitro, which may be due to a diminished activity of adenylyl cyclase. A new observation is that higher IL-4 mRNA levels are associated with less severe AMP responsiveness, which might be due to a negative feedback loop of IL-4 production by mast cells.

PEDIATRIC ALLERGY

The current paradigm of allergy pathogenesis is that allergy develops in individuals with a genetic predisposition only after they are exposed to allergens (Fig. 1). This hypothesis implies that factors in the environment can determine the initiation of allergic sensitization and can potentially influence the clinical manifestations and severity of disease. Because the prevalence of atopic diseases such as allergic rhinitis, asthma, atopic dermatitis, and food allergy have increased worldwide in the past several decades, and there is no mechanism for changes in population genetics over this short period of time, changes in the human environment are most likely responsible for these trends. From this line of reasoning, it follows that if the factors responsible for the increasing prevalence can be identified, then there would be an opportunity to develop strategies to reverse these trends. It also would be helpful to identify infants who are at risk for developing allergy, so that preventive strategies could be used most effectively.

In this article, studies to determine the contributions of genetics and the environment to the development of allergic diseases in childhood are explored. In addition, progress in identifying risk factors for allergy and preventive therapies for those children at risk are also addressed.

Differentiation of human single-positive fetal thymocytes in vitro into IL-4- and/or IFN-gamma-producing CD4+ and CD8+ T cells

In this study we have investigated the capacity of human fetal thymocytes to differentiate in vitro into subsets of T cells with polarized Th1 or Th2 cytokine profiles. Stimulation of freshly isolated human fetal thymocytes with anti-CD3 mAb, cross-linked onto CD32,CD58,CD80-expressing mouse fibroblasts and subsequent culture in the presence of exogenous rIL-2 for 6 days, induced the production of both IL-4 and IFN-gamma, which was mainly produced by CD4+ single-positive (SP) and CD8+ SP cells respectively. Addition of rIL-4 during priming augmented IL-4 production in cultures of human fetal thymocytes, which was mainly due to an increased production of IL-4 by CD8SP cells. In contrast, addition of IL-4 to the cultures only slightly enhanced IL-4 production and had little effect on frequencies of IL-4-producing CD4SP cells. Both CD4SP and CD8SP cells produced IL-5, IL-10 and IL-13 at comparable levels, following priming in the presence of rIL-4. Priming in the presence of rIL-12 strongly enhanced the production of IFN-gamma in both CD4SP and CD8SP cells. No correlation between expression of CD27, CD30 and CD60, and a particular cytokine profile of differentiated thymocytes could be demonstrated. Together, these results demonstrate the full capacity of fetal human thymocytes to differentiate into cytokine-producing T cells in a priming milieu with appropriate stimulatory molecules and exogenous cytokines. In addition, CD4SP thymocytes rapidly differentiate into polarized Th2 cells following stimulation in vitro in the absence of exogenous rIL-4.

Intracellular interferon-gamma (IFN-gamma) production in normal children and children with atopic dermatitis

A reduction in the in vitro production of IFN-gamma has been consistently described in atopic dermatitis (AD). Whether this reduction is due to a decrease in the population of peripheral blood mononuclear cells (PBMC) producing IFN-gamma or reduced IFN-gamma production per cell, or a combination of both is not clear. We have examined the intracellular production of IFN-gamma in children with AD and in healthy non-atopic controls. As Staphylococcus aureus colonization is a feature of childhood AD, and is postulated to contribute to the cutaneous inflammation in atopic dermatitis, S. aureus and Staphylococcal enterotoxin B (SEB) were used to activate PBMC. Stimulated PBMC from subjects with AD had significantly fewer IFN-gamma-containing cells in response to SEB (P < 0.001) and S. aureus (P < 0.01) than normal non-atopic children. In addition, SEB-stimulated PBMC from children with AD had less IFN-gamma per cell than normal non-atopic children (P < 0.01). Reduction in the proportion of cells containing IFN-gamma was seen in CD4+, CD8+ and natural killer (NK) cells in PBMC from children with AD. Our findings indicate that reduced production of IFN-gamma observed in childhood AD is due to both a decrease in the number of IFN-gamma-producing cells and a reduced amount of IFN-gamma production per cell. Furthermore, we found that this defect was not confined to CD4+ T cells, suggesting a more generalized defect in IFN-gamma production in childhood AD.

IFN-gamma is only partially restored by co-stimulation with IL-12, IL-2, IL-15, IL-18 or engagement of CD28

BACKGROUND

Although it is well established that T cells derived from patients with atopic diseases produce low levels of interferon-gamma (IFN-gamma), the mechanisms responsible for this phenomenon are poorly understood.

OBJECTIVES

To elucidate whether IFN-gamma production may be restored by co-stimulatory molecules known to increase IFN-gamma production in vitro. Further, to investigate whether deficient IFN-gamma production is associated with disease activity.

METHODS

Purified peripheral T cells obtained from patients with severe atopic dermatitis (AD), individuals with a history but no symptoms of AD and healthy control subjects were activated with anti-CD3 MoAbs in the presence or absence of anti-CD28 MoAbs, interleukin (IL-) 12, IL-2, IL-15 or IL-18. IFN-gamma production was determined at the single cell level by flow cytometry, as well as by ELISA.

RESULTS

Activated T cells from patients with severe AD produced less IFN-gamma than T cells from healthy control individuals. IL-12 or engagement of CD28 enhanced IFN-gamma production in both healthy and atopic T cells. However, absolute values of IFN-gamma were still different. IL-2, IL-15 and IL-18 did not restore IFN-gamma production. T cells from individuals with a history of AD produced more IFN-gamma than those from subjects with severe AD, but less than T cells from healthy individuals. Atopic T cells expressed regular levels of CD3, CD28 and Stat4, the main signal transducer and activator of transcription for IL-12. IL-4, IL-10 and TGF-beta production by T cells were not different between healthy and atopic individuals.

CONCLUSION

IFN-gamma deficiency in atopic T cells is not due to a lack of responsiveness to CD28, IL-12, IL-2, IL-15 or IL-18. T cell-derived cytokines able to antagonize IFN-gamma do not contribute to decreased IFN-gamma production. The extent of IFN-gamma deficiency seems to be dependent on disease activity.

Development of allergen-specific T-cell memory in atopic and normal children

BACKGROUND

In the past 20-30 years, there has been an increase in prevalence of allergic respiratory diseases, particularly amongst children. This study is a prospective analysis of the postnatal maturation of T-helper cell (Th) responses to aeroallergens in atopic and non-atopic infants.

METHODS

We measured mononuclear-cell proliferative and cytokine responses to specific allergens and tetanus toxoid in blood samples from atopic and non-atopic infants every 6 months from birth to 2 years of age. Cytokine analyses of responses to housedust-mite allergen used ELISA and reverse-transcriptase PCR. We also measured responses to Fel d1 (cat allergen) and tetanus toxoid.

FINDINGS

Samples from 18 atopic and 13 non-atopic infants showed low-level Th2-skewed allergen-specific responses at birth, with little accompanying specific interferon-gamma production. Neonatal Th2 responses were lower in the atopic group than in the non-atopic group; the differences were significant for interleukin-4 (mRNA: beta-actin ratio 0.48 [SE 0.15] vs 0.15 [0.06], p=0.049), interleukin-6 (4750 [48] vs 1352 [51] pg/mL culture fluid, p=0.003), interleukin-10 (1162 [228] vs 485 [89], p=0.015), and interleukin-13 (7.1 [0.9] vs 0.9 [0.3], p=0.008). There was rapid suppression of Th2 responses during the first year of life in non-atopic children, but there was consolidation of responses in atopic children, associated with defective neonatal interferon-gamma production.

INTERPRETATION

The continuation of fetal allergen-specific Th2 responses during infancy is a defining feature of the inductive phase of atopic disease, and is associated with decreased capacity for production of the Th1 cytokine interferon y by atopic neonates. These findings provide a plausible mechanism for persistence of the fetal Th2 responses during early childhood in atopic individuals and subsequent expression of disease.

Is atopic dermatitis predictable?

Atopic dermatitis (AD) is a common skin disease which affects 10 to 20% of the population, usually with onset during infancy. The frequency of AD appears to have increased over the past three decades. Attempts to identify parameters predictive of the development of AD have been made by many investigators during the last decades. Although genetic factors remain unmodifiable, avoidance of relevant trigger factors could modify the development of AD. This paper reviews and discusses findings of the last several years and outlines recent advances in genetic studies of AD. In spite of decades of intensive research and newly developed technology, the parental history of AD appears to be the most valuable predictive parameter. However, the predictive capacity is not sufficient to recommend it as screening instrument. At this time, a perinatal screening with the objective of primary prevention of AD does not seem feasible.

Is allergy increasing?--early life influences

Data from epidemiological studies conducted in several countries worldwide have revealed that the prevalences of allergic conditions, including allergic rhinitis, asthma and eczema, have increased from the 1940s/50s to the 1990s. These allergic conditions involve specific IgE-mediated responses, and a few studies have demonstrated that IgE levels have increased in some communities over time in a manner similar to the incidences of allergic conditions. The predisposition for atopy appears to be determined in early life, and evidence indicates that events occurring in utero and in infancy can influence the future development of atopy. The intrauterine environment favours TH2 cell development and IgE production and could predispose to atopy. It can be hypothesized that dietary or other factors favouring TH2 proliferation might contribute to the development of atopic disease. Conversely, early infection has been found to have a negative association with the development of atopy, perhaps through promotion of a TH response; the reduction in infection in the very young as a consequence of modern healthcare may have contributed to the increase in atopic disease. Thus, it is a plausible hypothesis that changes in the conditions of the intrauterine environment and/or in infancy (for example, in nutrition and in rates of infection) may explain the observed increases in atopy and allergic conditions.

Reciprocal age-related patterns of allergen-specific T-cell immunity in normal vs. atopic infants

By adulthood there is almost universal immunological memory to aeroallergens, and the presence of allergic disease appears to be related to the nature of the underlying T-helper (Th) cell cytokine responses. The hypothesis of this study is that adult patterns of allergen specific Th-cell memory (Th-2 polarized in atopics vs. Th1 in non-atopics) can be determined in early infancy. Mononuclear cell cytokine responses to house-dust mite were measured at 6-monthly intervals from birth to 2 years of age, using ELISA (IL-10, IL-13, IFN-gamma) and sqRT/PCR (IL-4, IL-5, IL-9, IFN-gamma) in normal infants (n = 14) with no family history or allergic symptoms, and infants with a family history and definite atopy by 2 years (n = 16). Both normals and atopics showed low-level Th2 skewed allergen-specific responses at birth with little accompanying IFN-gamma. The Th2 responses to house-dust mite were higher in normal newborns, who then show a rapid downregulation of these responses in the first year of life. Atopic infants instead show a consolidation of their neonatal patterns of Th2 polarized allergen specific immunity. Earlier studies indicate that neonates at high risk of atopy display diminished capacity for production of the Th1 cytokine IFN-gamma. The present study suggests for the first time that neonates who subsequently develop atopy also initially have reduced capacity to mount Th2 responses. However, in contrast to non-atopics who selectively downregulate their fetal Th2 polarized allergen-specific responses, atopic children display age-associated upregulation of Th2 immunity.

Maternal programming in asthma and allergy

There has been increasing interest in the possibility that the mother has an important role to play in influencing the development of fetal and infant immune responses to allergens during gestation. This finding, by several groups, of specific immune responses of infants at birth to individual trigger factors associated with an underlying immaturity of cytokine production, is intriguing in the light of the development of subsequent allergic disease. The interactions between mother, placenta and fetus are now forming a focus for ongoing research and may be a potential target for intervention aimed at preventing allergic asthma.

Reduced interferon gamma production by antigen-stimulated cord blood mononuclear cells is a risk factor of allergic disorders--6-year follow-up study

BACKGROUND

It is not sufficient to predict 'high allergic risk newborns' on the basis of increased IgE concentrations of cord blood alone, because a raised cord blood IgE concentration is specific but not sensitive in the prediction of the development of allergic disorders. Warner et al. have reported that interferon gamma (IFN-gamma) production by allergen-triggered cord blood cells is a predictor of atopic eczema, based on the 1-year follow-up study.

OBJECTIVE

We examined whether IFN-gamma production by antigen-stimulated cord blood mononuclear cells (CBMCs) is a risk factor of allergic disorders, based on the 6-year follow-up study.

METHODS

The relationships among cord blood IgE concentrations, IFN-gamma and interleukin-2 (IL-2) productions by antigen-stimulated CBMCs, and the development of allergic disorders in 21 infants for 6 years were investigated.

RESULTS

Atopic dermatitis, atopic dermatitis and allergic rhinitis, or atopic dermatitis and bronchial asthma developed in seven of 21 subjects. The maximal IFN-gamma concentration in culture supernatants of ovalbumin (OA) or bovine serum albumin (BSA) stimulated CBMCs in infants who developed allergic disorders was significantly lower (P < 0.01) than that in infants who did not develop any allergic disorders. In contrast, the maximal IL-2 concentration in culture supernatants of OA- or BSA-stimulated CBMCs in infants who developed allergic disorders was not lower than in infants who did not develop any allergic disorders. Moreover, the IFN-gamma concentrations were negatively correlated with cord blood IgE concentrations.

CONCLUSION

Reduced IFN-gamma production by antigen-stimulated CBMCs is a risk factor of allergic disorders.