Do Variants in GSTs Modify the Association between Traffic Air Pollution and Asthma in Adolescence?

Gayan Bowatte,Adrian Lowe,Bircan Erbas,Michael Abramson,Jennifer Perret,Lyle Gurrin,Martine Dennekamp,Shyamali Dharmage,Melanie Matheson,Katrina Allen,Caroline Lodge,Jennie Hui,Guy Marks,Matthias Wjst

doi:10.3390/ijms17040485

Abstract

Polymorphisms in genes involved in the oxidative stress response may partially explain the documented heterogeneous associations between traffic-related air pollution (TRAP) exposure and asthma and allergies in children. We investigated whether the GSTT1, GSTM1 and GSTP1 gene polymorphisms modified the associations between TRAP exposure during the first year of life and asthma, wheeze and hay fever in adolescence. We used a birth cohort of 620 high risk infants from the Melbourne Atopy Cohort Study. TRAP exposure during the first year of life was defined as the cumulative length of major roads within 150 m of each participant’s residence during the first year of life. Wheeze, asthma and hay fever were measured at ages 12 (n = 370) and 18 (n = 434) years. The associations and interactions with glutathione S-transferases (GST s) were investigated using regression models. Overall, there was no relationship between TRAP exposure during the first year of life and current asthma, wheeze and hay fever at ages 12 or 18 years. However, in GSTT1 null carriers, every 100 m increase in cumulative lengths of major road exposure during the first year of life was associated with a 2.31-fold increased risk of wheeze and a 2.15-fold increased risk of asthma at 12 years. TRAP is associated with some respiratory outcomes in carriers of genetic polymorphisms in oxidative stress metabolism genes.

Highlights

Asthma and other allergic diseases including allergic rhinitis, eczema and food allergy cause a substantial burden of disease in childhood
We aimed to investigate the modifying effect of glutathione S-transferases (GST s)gene polymorphisms on the relationship between traffic-related air pollution (TRAP) exposure during the first year of life and the risks of asthma, wheeze and hay fever in adolescence using data from a high risk allergy birth cohort
Our findings suggest that the association between TRAP exposure during the first year of life and early adolescent current asthma and wheeze may be modified by GSTT1 and GSTM1 gene polymorphisms

Summary

Introduction

Asthma and other allergic diseases including allergic rhinitis, eczema and food allergy cause a substantial burden of disease in childhood. There is a general consensus on the link between exposure to traffic-related air pollution (TRAP) and increased risk of asthma [2] the reported findings are not completely concordant [4]. This heterogeneity may be partly explained by genetic variation between populations conferring differences in susceptibility to TRAP exposure [5,6]. Further investigations are required to explore the role of genetic variants on the association between TRAP exposure and asthma and allergic diseases [4]

Objectives

Methods

Results

Discussion

Conclusion