Using Cases and Parents to Study Multiplicative Gene-by-environment Interaction

Overview

Journal Am J Epidemiol

Publisher Oxford University Press

Specialty Public Health

Date 2009 Jun 2

PMID 19483188

Citations 12

Authors

Emily O Kistner

Min Shi

Clarice R Weinberg

Affiliations

Soon will be listed here.

Abstract

With case-parent triads, one can estimate genotype relative risks by measuring the apparent overtransmission of susceptibility genotypes from parents to affected offspring. Results obtained using such designs, properly analyzed, resist both bias due to population structure and bias due to self-selection. Most diseases are not purely genetic, and environmental cofactors can also be important. In this paper, the authors describe how a polytomous logistic regression method previously developed for studying genetic effects on a quantitative trait can be used with case-parent data to study multiplicative gene-by-environment interaction. The idea is that if the joint effect of exposure and genotype on risk is submultiplicative or supermultiplicative, then, conditional on the parental genotypes, inheritance of a susceptibility genotype by affected offspring will appear to have been influenced by the offspring's exposure level. The authors' approach tolerates exposure-complicated genetic population structure, and simulations suggest power and Type I error rates comparable to those of competitors. With this approach, one can estimate the usual interaction parameters under a much less stringent assumption than gene-environment independence in the source population. Incompletely genotyped triads can contribute through an expectation-maximization algorithm. To illustrate, the authors consider polymorphisms in detoxification pathway genes and maternal smoking in relation to the birth defect oral cleft.

Citing Articles

Innovative approach to identify multigenomic and environmental interactions associated with birth defects in family-based hybrid designs.

Lou X, Hou T, Liu S, Xu H, Lin F, Tang X Genet Epidemiol. 2020; 45(2):171-189.

PMID: 32996630 PMC: 8495752. DOI: 10.1002/gepi.22363.

Current Challenges and New Opportunities for Gene-Environment Interaction Studies of Complex Diseases.

McAllister K, Mechanic L, Amos C, Aschard H, Blair I, Chatterjee N Am J Epidemiol. 2017; 186(7):753-761.

PMID: 28978193 PMC: 5860428. DOI: 10.1093/aje/kwx227.

Analysis of Case-Parent Trios Using a Loglinear Model with Adjustment for Transmission Ratio Distortion.

Huang L, Infante-Rivard C, Labbe A Front Genet. 2016; 7:155.

PMID: 27630667 PMC: 5005337. DOI: 10.3389/fgene.2016.00155.

Testing Allele Transmission of an SNP Set Using a Family-Based Generalized Genetic Random Field Method.

Li M, Li J, He Z, Lu Q, Witte J, MacLeod S Genet Epidemiol. 2016; 40(4):341-51.

PMID: 27061818 PMC: 5061344. DOI: 10.1002/gepi.21970.

Allowing for population stratification in case-only studies of gene-environment interaction, using genomic control.

Yadav P, Freitag-Wolf S, Lieb W, Dempfle A, Krawczak M Hum Genet. 2015; 134(10):1117-25.

PMID: 26297539 DOI: 10.1007/s00439-015-1593-y.

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