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J Med Genet. Published Online First: 19 February 2008. doi:10.1136/jmg.2007.055137
Copyright © 2008 by the BMJ Publishing Group Ltd.
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*Gene*GEO Profiles
*HomoloGene*Nucleotide
*Protein*SNP
*UniGene

Original articles

The protective effect of farm animal exposure on childhood allergy is modified by NPSR1 polymorphisms

Sara Bruce 1*, Fredrik Nyberg 1, Erik Melén 1, Anna James 1, Ville Pulkkinen 2, Christina Orsmark-Pietras 1, Anna Bergström 1, Barbro Dahlén 1, Magnus Wickman 1, Erika von Mutius 3, Gert Doekes 4, Roger Lauener 5, Josef Riedler 6, Waltraud Eder 7, Marianne van Hage 1, Göran Pershagen 1, Annika Scheynius 1 and Juha Kere 8

1 Karolinska Institutet, Sweden
2 University of Helsinki, Finland
3 Ludwig Maximilians University Munich, Germany
4 University Utrecht, Netherlands
5 Zurich University, Switzerland
6 Children' s Hospital Schwarzach, Austria
7 Paracelsus Medical University, Austria
8 Karolinska Institute, Sweden

* To whom correspondence should be addressed. E-mail: sara.bruce{at}biosci.ki.se.

Accepted 23 January 2008


*   Abstract

Background Little is known about the asthma candidate gene neuropeptide S receptor 1 (NPSR1) in relation to environmental exposures, but recent evidences suggest its role as an effect modifier.

Objectives To explore the interaction between NPSR1 polymorphisms and environmental exposures related to farming lifestyle and to study the in vitro effects of lipopolysaccharide (LPS) stimulation on NPSR1 expression levels.

Methods We studied 3113 children from PARSIFAL, a European cross-sectional study on environmental/life-style factors and childhood allergy, partly focused on children brought up on a farm. Information on exposures and outcomes was primarily obtained from parental questionnaires. Seven tagging polymorphisms were analysed in a conserved haplotype block of NPSR1. Multivariate logistic regression was used to evaluate a multiplicative model of interaction. NPSR1 protein and messenger RNA (mRNA) levels in monocytes were measured after LPS-stimulation by fluorescence activated cell sorting (FACS) and quantitative real-time PCR.

Results A strong interaction was seen between current regular contact to farm animals and several NPSR1 polymorphisms, particularly rs323922 and rs324377 (P <0.005), with respect to allergic symptoms. Considering the timing of initiation of such current regular farm animal contact, significant interactions with these and two additional polymorphisms (SNP546333, rs740347) were revealed. In response to LPS, NPSR1-A protein levels in monocytes were up-regulated (P=0.002), as were NPSR1-A mRNA levels (P=0.02).

Conclusions The effect of farm animal contact on the development of allergic symptoms in children is modified by NPSR1 genetic background.

Keywords: NPSR1, allergy, farm animal, gene-environment interaction, monocyte






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