Prenatal and infant acetaminophen exposure, antioxidant gene polymorphisms, and childhood asthma
Prenatal and infant acetaminophen exposure, antioxidant gene polymorphisms, and childhood asthma
Background: Prenatal and infant acetaminophen exposure has been associated with an increased risk of childhood asthma phenotypes. Demonstration of biologically plausible interactions between these exposures and maternal and child antioxidant gene polymorphisms would strengthen causal inference.
Objective: To explore potential interactions between prenatal and infant acetaminophen exposure and antioxidant genotypes on childhood asthma.
Methods: In the Avon Longitudinal Study of Parents and Children, we typed a functional nuclear erythroid 2 p45-related factor 2 (Nrf2) polymorphism and glutathione S-transferase (GST) M1, T1, and P1 polymorphisms. Effects of prenatal and infant acetaminophen exposure on asthma phenotypes at 7 years were stratified by genotype in >4000 mothers and >5000 children.
Results: Risk of asthma and wheezing associated with early gestation acetaminophen exposure was increased when maternal copies of the minor T allele of Nrf2 were present (P interactions, .02 and .04, respectively). Risk of asthma associated with late gestation exposure was higher when maternal GSTT1 genotype was present rather than absent (P interaction, .006), and risk of wheezing was increased when maternal GSTM1 was present (P interaction, .04). Although acetaminophen use in infancy was associated with an increased risk of atopy, child antioxidant genotype did not modify associations between infant acetaminophen use and asthma phenotypes. However, the increased risk of asthma and wheezing associated with late gestation acetaminophen exposure in the presence of maternal GSTM1 was further enhanced when GSTM1 was also present in the child.
Conclusion: Maternal antioxidant gene polymorphisms may modify the relation between prenatal acetaminophen exposure and childhood asthma, strengthening evidence for a causal association. In contrast, relations between infant acetaminophen use and asthma and atopy were not modified by child genotype and may be confounded by pre-existing wheeze or allergy.
asthma, acetaminophen, paracetamol, glutathione-s-transferase, nrf2, prenatal exposure, delayed effects, alsoac, pregnancy, birth cohort, genotype, gene-environment interaction
1141-1148.e7
Shaheen, Seif O.
42e3b3fc-c70c-49e7-8c88-64f2606129ec
Newson, Roger B.
92f05eed-70b8-46db-ab32-ce4932dea109
Ring, Susan M.
55bebe97-d035-43f3-84a6-b57c5ea4c6be
Rose-Zerilli, Matthew J.
08b3afa4-dbc2-4c0d-a852-2a9f33431199
Holloway, John W.
4bbd77e6-c095-445d-a36b-a50a72f6fe1a
Henderson, A. John
2053b8a0-1b2d-41f6-8b3f-1cf360c88c21
December 2011
Shaheen, Seif O.
42e3b3fc-c70c-49e7-8c88-64f2606129ec
Newson, Roger B.
92f05eed-70b8-46db-ab32-ce4932dea109
Ring, Susan M.
55bebe97-d035-43f3-84a6-b57c5ea4c6be
Rose-Zerilli, Matthew J.
08b3afa4-dbc2-4c0d-a852-2a9f33431199
Holloway, John W.
4bbd77e6-c095-445d-a36b-a50a72f6fe1a
Henderson, A. John
2053b8a0-1b2d-41f6-8b3f-1cf360c88c21
Shaheen, Seif O., Newson, Roger B., Ring, Susan M., Rose-Zerilli, Matthew J., Holloway, John W. and Henderson, A. John
(2011)
Prenatal and infant acetaminophen exposure, antioxidant gene polymorphisms, and childhood asthma.
Journal of Allergy and Clinical Immunology, 126 (6), .
(doi:10.1016/j.jaci.2010.08.047).
(PMID:21051083)
Abstract
Background: Prenatal and infant acetaminophen exposure has been associated with an increased risk of childhood asthma phenotypes. Demonstration of biologically plausible interactions between these exposures and maternal and child antioxidant gene polymorphisms would strengthen causal inference.
Objective: To explore potential interactions between prenatal and infant acetaminophen exposure and antioxidant genotypes on childhood asthma.
Methods: In the Avon Longitudinal Study of Parents and Children, we typed a functional nuclear erythroid 2 p45-related factor 2 (Nrf2) polymorphism and glutathione S-transferase (GST) M1, T1, and P1 polymorphisms. Effects of prenatal and infant acetaminophen exposure on asthma phenotypes at 7 years were stratified by genotype in >4000 mothers and >5000 children.
Results: Risk of asthma and wheezing associated with early gestation acetaminophen exposure was increased when maternal copies of the minor T allele of Nrf2 were present (P interactions, .02 and .04, respectively). Risk of asthma associated with late gestation exposure was higher when maternal GSTT1 genotype was present rather than absent (P interaction, .006), and risk of wheezing was increased when maternal GSTM1 was present (P interaction, .04). Although acetaminophen use in infancy was associated with an increased risk of atopy, child antioxidant genotype did not modify associations between infant acetaminophen use and asthma phenotypes. However, the increased risk of asthma and wheezing associated with late gestation acetaminophen exposure in the presence of maternal GSTM1 was further enhanced when GSTM1 was also present in the child.
Conclusion: Maternal antioxidant gene polymorphisms may modify the relation between prenatal acetaminophen exposure and childhood asthma, strengthening evidence for a causal association. In contrast, relations between infant acetaminophen use and asthma and atopy were not modified by child genotype and may be confounded by pre-existing wheeze or allergy.
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More information
Accepted/In Press date: 2 November 2010
Published date: December 2011
Keywords:
asthma, acetaminophen, paracetamol, glutathione-s-transferase, nrf2, prenatal exposure, delayed effects, alsoac, pregnancy, birth cohort, genotype, gene-environment interaction
Organisations:
Human Genetics, Infection Inflammation & Immunity
Identifiers
Local EPrints ID: 170761
URI: http://eprints.soton.ac.uk/id/eprint/170761
ISSN: 0091-6749
PURE UUID: bcdba214-6bb5-44f5-8c14-e82a09328aa0
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Date deposited: 11 Jan 2011 11:08
Last modified: 14 Mar 2024 02:56
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Contributors
Author:
Seif O. Shaheen
Author:
Roger B. Newson
Author:
Susan M. Ring
Author:
A. John Henderson
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