Litcius/Paper detail

Parent-of-origin effects propagate through networks to shape metabolic traits

Juan F Macias-Velasco, Celine L St Pierre, Jessica P Wayhart, Li Yin, Larry Spears, Mario A Miranda, Caryn Carson, Katsuhiko Funai, James M Cheverud, Clay F Semenkovich, Heather A Lawson

2022eLife19 citationsDOIOpen Access PDF

Abstract

Parent-of-origin effects are unexpectedly common in complex traits, including metabolic and neurological traits. Parent-of-origin effects can be modified by the environment, but the architecture of these gene-by-environmental effects on phenotypes remains to be unraveled. Previously, quantitative trait loci (QTL) showing context-specific parent-of-origin effects on metabolic traits were mapped in the F 16 generation of an advanced intercross between LG/J and SM/J inbred mice. However, these QTL were not enriched for known imprinted genes, suggesting another mechanism is needed to explain these parent-of-origin effects phenomena. We propose that non-imprinted genes can generate complex parent-of-origin effects on metabolic traits through interactions with imprinted genes. Here, we employ data from mouse populations at different levels of intercrossing (F 0 , F 1 , F 2 , F 16 ) of the LG/J and SM/J inbred mouse lines to test this hypothesis. Using multiple populations and incorporating genetic, genomic, and physiological data, we leverage orthogonal evidence to identify networks of genes through which parent-of-origin effects propagate. We identify a network comprised of three imprinted and six non-imprinted genes that show parent-of-origin effects. This epistatic network forms a nutritional responsive pathway and the genes comprising it jointly serve cellular functions associated with growth. We focus on two genes, Nnat and F2r , whose interaction associates with serum glucose levels across generations in high-fat-fed females. Single-cell RNAseq reveals that Nnat expression increases and F2r expression decreases in pre-adipocytes along an adipogenic trajectory, a result that is consistent with our observations in bulk white adipose tissue.

Topics & Concepts

Quantitative trait locusBiologyEpistasisGeneticsGenePhenotypeInbred strainGenetic architectureTraitGenomic imprintingComputational biologyGene expressionMetabolic networkGene regulatory networkAlleleLeverage (statistics)Candidate geneGene interactionExpression quantitative trait lociAdipogenesisMechanism (biology)MutantCrosstalkGene expression profilingEvolutionary biologyRegulation of gene expressionPhenotypic traitMetabolic pathwayAdipose tissueSystems biologyModel organismImprinting (psychology)Family-based QTL mappingIdentification (biology)Genetic Syndromes and ImprintingGenetic Associations and EpidemiologySingle-cell and spatial transcriptomics