Genome-wide prediction of childhood asthma and related phenotypes in a longitudinal birth cohort.

BACKGROUND

Childhood wheezing and asthma vary greatly in clinical presentation and time course. The extent to which phenotypic variation reflects heterogeneity in disease pathways is unclear.

OBJECTIVE

We sought to assess the extent to which single nucleotide polymorphisms (SNPs) associated with childhood asthma in a genome-wide association study are predictive of asthma-related phenotypes.

METHODS

In 8365 children from a population-based birth cohort, the Avon Longitudinal Study of Parents and Children, allelic scores were derived based on between 10 and 215,443 SNPs ranked according to the inverse of the P value for their association with physician-diagnosed asthma in an independent genome-wide association study (6176 cases and 7111 control subjects). We assessed the predictive value of allelic scores for asthma-related outcomes at age 7 to 9 years (physician's diagnosis, longitudinal wheezing phenotypes, and measurements of pulmonary function, bronchial responsiveness, and atopy).

RESULTS

Scores based on the 46 highest-ranked SNPs were associated with the symptom-based phenotypes early onset persistent wheeze (P< 10(-11); area under the receiver operating characteristic curve [AUC], 0.59) and intermediate-onset wheeze (P< 10(-3); AUC, 0.58). Among lower-ranked SNPs (ranks, 21,545-46,416), there was evidence for associations with diagnosed asthma (P< 10(-4); AUC, 0.54) and atopy (P< 10(-5); AUC, 0.55). We found little evidence of associations with transient early wheezing, reduced pulmonary function, or nonasthma phenotypes.

CONCLUSION

The genetic origins of asthma are diverse, and some pathways are specific to wheezing syndromes, whereas others are shared with atopy and bronchial hyperresponsiveness. Our study also provides evidence of etiologic differences among wheezing syndromes.