Gene-Environment Interaction Affects Risk of Atopic Eczema: Population and In Vitro Studies

Marie Standl; Ashley Budu-Aggrey; Luke J Johnston; Martina S Elias; Helena Blakeway; Ben M Brumpton; John Henderson; Lavinia Paternoster; UK Translational Research Network in Dermatology; Sara J Brown; et al

doi:10.1111/all.16605

Gene-Environment Interaction Affects Risk of Atopic Eczema: Population and In Vitro Studies

Marie Standl, Ashley Budu-Aggrey, Luke J Johnston, Martina S Elias, Helena Blakeway, Ben M Brumpton, John Henderson, Lavinia Paternoster, UK Translational Research Network in Dermatology, Sara J Brown^*, et al

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

2 Citations (Scopus)

Abstract

Background:

Multiple environmental and genetic factors play a role in the pathogenesis of atopic eczema (AE). We aimed to investigate gene–environment interactions (G × E) to improve understanding of the pathophysiology.

Methods:

We analysed data from 16 European studies to test for interaction between the 24 most significant AE-associated loci identified from genome-wide association studies and 18 early-life environmental factors. We tested for replication using a further 10 studies and in vitro modeling to independently assess findings.

Results:

The discovery analysis (including 25,339 individuals) showed suggestive evidence for interaction (p < 0.05) between seven environmental factors (antibiotic use, cat ownership, dog ownership, breastfeeding, elder sibling, smoking and washing practices) and at least one established variant for AE, 14 interactions in total. In the replication analysis (254,532 individuals) dog exposure × rs10214237 (on chromosome 5p13.2 near IL7R) was nominally significant (OR_interaction = 0.91 [0.83–0.99] p = 0.025), with a risk effect of the T allele observed only in those not exposed to dogs. A similar interaction with rs10214237 was observed for siblings in the discovery analysis (OR_interaction= 0.84 [0.75–0.94] p = 0.003), but replication analysis was under-powered (OR_interaction = 1.09 [0.82–1.46]). rs10214237 homozygous risk genotype is associated with lower IL-7R expression in human keratinocytes, and dog exposure modelled in vitro showed a differential response according to rs10214237 genotype.

Conclusion:

Interaction analysis and functional assessment provide preliminary evidence that early-life dog exposure may modify the genetic effect of rs10214237 on AE via IL7R, supporting observational epidemiology showing a protective effect for dog ownership. The lack of evidence for other G × E studied here implies only weak effects are likely to occur.

Original language	English
Pages (from-to)	2201-2212
Number of pages	12
Journal	Allergy
Volume	80
Issue number	8
Early online date	4 Jun 2025
DOIs	https://doi.org/10.1111/all.16605
Publication status	Published - 1 Aug 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.

Keywords

Dermatitis, Atopic/epidemiology
Humans
Gene-Environment Interaction
Genome-Wide Association Study
Genetic Predisposition to Disease
Animals
Dogs
Risk Factors
Polymorphism, Single Nucleotide
Genotype

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Cite this

@article{342c7150b80e4bcea85fbcde28d766fd,

title = "Gene-Environment Interaction Affects Risk of Atopic Eczema: Population and In Vitro Studies",

abstract = "Background:Multiple environmental and genetic factors play a role in the pathogenesis of atopic eczema (AE). We aimed to investigate gene–environment interactions (G × E) to improve understanding of the pathophysiology. Methods:We analysed data from 16 European studies to test for interaction between the 24 most significant AE-associated loci identified from genome-wide association studies and 18 early-life environmental factors. We tested for replication using a further 10 studies and in vitro modeling to independently assess findings. Results:The discovery analysis (including 25,339 individuals) showed suggestive evidence for interaction (p < 0.05) between seven environmental factors (antibiotic use, cat ownership, dog ownership, breastfeeding, elder sibling, smoking and washing practices) and at least one established variant for AE, 14 interactions in total. In the replication analysis (254,532 individuals) dog exposure × rs10214237 (on chromosome 5p13.2 near IL7R) was nominally significant (ORinteraction = 0.91 [0.83–0.99] p = 0.025), with a risk effect of the T allele observed only in those not exposed to dogs. A similar interaction with rs10214237 was observed for siblings in the discovery analysis (ORinteraction = 0.84 [0.75–0.94] p = 0.003), but replication analysis was under-powered (ORinteraction = 1.09 [0.82–1.46]). rs10214237 homozygous risk genotype is associated with lower IL-7R expression in human keratinocytes, and dog exposure modelled in vitro showed a differential response according to rs10214237 genotype. Conclusion:Interaction analysis and functional assessment provide preliminary evidence that early-life dog exposure may modify the genetic effect of rs10214237 on AE via IL7R, supporting observational epidemiology showing a protective effect for dog ownership. The lack of evidence for other G × E studied here implies only weak effects are likely to occur.",

keywords = "Dermatitis, Atopic/epidemiology, Humans, Gene-Environment Interaction, Genome-Wide Association Study, Genetic Predisposition to Disease, Animals, Dogs, Risk Factors, Polymorphism, Single Nucleotide, Genotype",

author = "Marie Standl and Ashley Budu-Aggrey and Johnston, \{Luke J\} and Elias, \{Martina S\} and Helena Blakeway and Brumpton, \{Ben M\} and John Henderson and Lavinia Paternoster and \{UK Translational Research Network in Dermatology\} and Brown, \{Sara J\} and et al",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley \& Sons Ltd.",

year = "2025",

month = aug,

day = "1",

doi = "10.1111/all.16605",

language = "English",

volume = "80",

pages = "2201--2212",

journal = "Allergy",

issn = "0105-4538",

publisher = "Wiley-Blackwell",

number = "8",

}

TY - JOUR

T1 - Gene-Environment Interaction Affects Risk of Atopic Eczema

T2 - Population and In Vitro Studies

AU - Standl, Marie

AU - Budu-Aggrey, Ashley

AU - Johnston, Luke J

AU - Elias, Martina S

AU - Blakeway, Helena

AU - Brumpton, Ben M

AU - Henderson, John

AU - Paternoster, Lavinia

AU - UK Translational Research Network in Dermatology

AU - Brown, Sara J

AU - al , et

PY - 2025/8/1

Y1 - 2025/8/1

N2 - Background:Multiple environmental and genetic factors play a role in the pathogenesis of atopic eczema (AE). We aimed to investigate gene–environment interactions (G × E) to improve understanding of the pathophysiology. Methods:We analysed data from 16 European studies to test for interaction between the 24 most significant AE-associated loci identified from genome-wide association studies and 18 early-life environmental factors. We tested for replication using a further 10 studies and in vitro modeling to independently assess findings. Results:The discovery analysis (including 25,339 individuals) showed suggestive evidence for interaction (p < 0.05) between seven environmental factors (antibiotic use, cat ownership, dog ownership, breastfeeding, elder sibling, smoking and washing practices) and at least one established variant for AE, 14 interactions in total. In the replication analysis (254,532 individuals) dog exposure × rs10214237 (on chromosome 5p13.2 near IL7R) was nominally significant (ORinteraction = 0.91 [0.83–0.99] p = 0.025), with a risk effect of the T allele observed only in those not exposed to dogs. A similar interaction with rs10214237 was observed for siblings in the discovery analysis (ORinteraction = 0.84 [0.75–0.94] p = 0.003), but replication analysis was under-powered (ORinteraction = 1.09 [0.82–1.46]). rs10214237 homozygous risk genotype is associated with lower IL-7R expression in human keratinocytes, and dog exposure modelled in vitro showed a differential response according to rs10214237 genotype. Conclusion:Interaction analysis and functional assessment provide preliminary evidence that early-life dog exposure may modify the genetic effect of rs10214237 on AE via IL7R, supporting observational epidemiology showing a protective effect for dog ownership. The lack of evidence for other G × E studied here implies only weak effects are likely to occur.

AB - Background:Multiple environmental and genetic factors play a role in the pathogenesis of atopic eczema (AE). We aimed to investigate gene–environment interactions (G × E) to improve understanding of the pathophysiology. Methods:We analysed data from 16 European studies to test for interaction between the 24 most significant AE-associated loci identified from genome-wide association studies and 18 early-life environmental factors. We tested for replication using a further 10 studies and in vitro modeling to independently assess findings. Results:The discovery analysis (including 25,339 individuals) showed suggestive evidence for interaction (p < 0.05) between seven environmental factors (antibiotic use, cat ownership, dog ownership, breastfeeding, elder sibling, smoking and washing practices) and at least one established variant for AE, 14 interactions in total. In the replication analysis (254,532 individuals) dog exposure × rs10214237 (on chromosome 5p13.2 near IL7R) was nominally significant (ORinteraction = 0.91 [0.83–0.99] p = 0.025), with a risk effect of the T allele observed only in those not exposed to dogs. A similar interaction with rs10214237 was observed for siblings in the discovery analysis (ORinteraction = 0.84 [0.75–0.94] p = 0.003), but replication analysis was under-powered (ORinteraction = 1.09 [0.82–1.46]). rs10214237 homozygous risk genotype is associated with lower IL-7R expression in human keratinocytes, and dog exposure modelled in vitro showed a differential response according to rs10214237 genotype. Conclusion:Interaction analysis and functional assessment provide preliminary evidence that early-life dog exposure may modify the genetic effect of rs10214237 on AE via IL7R, supporting observational epidemiology showing a protective effect for dog ownership. The lack of evidence for other G × E studied here implies only weak effects are likely to occur.

KW - Dermatitis, Atopic/epidemiology

KW - Humans

KW - Gene-Environment Interaction

KW - Genome-Wide Association Study

KW - Genetic Predisposition to Disease

KW - Animals

KW - Dogs

KW - Risk Factors

KW - Polymorphism, Single Nucleotide

KW - Genotype

U2 - 10.1111/all.16605

DO - 10.1111/all.16605

M3 - Article (Academic Journal)

C2 - 40462597

SN - 0105-4538

VL - 80

SP - 2201

EP - 2212

JO - Allergy

JF - Allergy

IS - 8

ER -