Network Analysis Reveals Protein Modules Associated with Childhood Respiratory Diseases

Abstract

AbstractBackgroundThe first year of life is a period of rapid immune development that can impact health trajectories and the risk of developing respiratory-related diseases, such as asthma, recurrent infections, and eczema. However, the biology underlying subsequent disease development remains unknown.MethodsUsing weighted gene correlation network analysis (WGCNA), we derived modules of highly correlated immune-related proteins in plasma samples from children at age 1 year (N=294) from the Vitamin D Antenatal Asthma Reduction Trial (VDAART). We applied regression analyses to assess relationships between protein modules and development of childhood respiratory diseases up to age 6 years. We then characterized genomic, environmental, and metabolomic factors associated with modules.ResultsWGCNA identified four protein modules at age 1 year associated with incidence of childhood asthma and/or recurrent wheeze (Padjrange: 0.02-0.03), respiratory infections (Padjrange: 6.3×10-9-2.9×10-6), and eczema (Padj=0.01) by age 6 years; three modules were associated with at least one environmental exposure (Padjrange: 2.8×10-10-0.03) and disrupted metabolomic pathway(s) (Padjrange: 2.8×10-6-0.04). No genome-wide SNPs were identified as significant genetic risk factors for any protein module. Relationships between protein modules with clinical, environmental, and ‘omic factors were temporally sensitive and could not be recapitulated in protein profiles at age 6 years.ConclusionThese findings suggested protein profiles as early as age 1 year predicted development of respiratory-related diseases through age 6 and were associated with changes in pathways related to amino acid and energy metabolism. These may inform new strategies to identify vulnerable individuals based on immune protein profiling.