Grandmaternal allergen exposure causes distinct epigenetic trajectories in offspring associated with airway hyperreactivity and inflammation

Abstract

ABSTRACTMaternal asthma increases childhood asthma risk through multiple mechanisms including epigenetic regulation of asthma-associated genes. DNA methylation is one form of epigenetic regulation that is both inherited and modified by environmental exposures throughout life. In this study, we tested whether grandmaternal house dust mite (HDM) allergen exposure altered airway physiology and inflammation, as well as DNA methylation in both airway epithelium and airway sensory neurons of second-generation offspring. Grandmaternal allergen exposure induced a limited number of epigenetic changes in offspring at baseline that were not associated with increased airway reactivity or inflammation. In contrast, grandmaternal allergen exposure significantly altered offspring’s response to HDM sensitization and challenge, inducing airway hyperreactivity to inhaled serotonin, increased airway inflammation, and potentiated DNA methylation. Gene sequences susceptible to methylation after allergen sensitization, and their corresponding biological processes and enriched pathways, were unique in offspring from HDM-exposed founders, indicating that grandmaternal allergen exposure established an epigenetic trajectory in offspring at birth that directed epigenetic and physiologic responses to subsequent allergen sensitization and challenge, contributing to inheritance of asthma risk.SUMMARYGrandmaternal allergen exposure establishes an intergenerational, tissue-specific epigenetic trajectory in offspring at birth, which uniquely directs responses to allergen sensitization and challenge later in life and contributes to inheritance of asthma risk.