In the Wrong Place with the Wrong SNP: The Association between Stressful Neighborhoods and Cardiac Arrest within Beta-2-Adrenergic Receptor Variants.

Publication Type:

Journal Article


Epidemiology (Cambridge, Mass.), Volume 27, Issue 5, p.656-62 (2016)


BACKGROUND: Sudden cardiac arrest has been linked independently both to stressful neighborhood conditions and to polymorphisms in the ADRB2 gene. The ADRB2 gene mediates sympathetic activation in response to stress. Therefore, if neighborhood conditions cause cardiac arrest through the stress pathway, the ADRB2 variant may modify the association between neighborhood conditions such as socioeconomic deprivation and incidence of cardiac arrest. METHODS: The Cardiac Arrest Blood Study Repository is a population-based repository of specimens and other data from adult cardiac arrest patients residing in King County, Washington. Cases (n = 1,539) were 25- to 100-year-old individuals of European descent who experienced out-of-hospital cardiac arrest from 1988 to 2004. Interactions between neighborhood conditions and the ADRB2 genotype on cardiac arrest risk were assessed in a case-only study design. Gene-environment independence was assessed in blood samples obtained from King County residents initially contacted by random-digit dialing. RESULTS: Fewer than 4% of study subjects resided in socioeconomically deprived neighborhoods. Nonetheless, the case-only analysis indicated the presence of supra-multiplicative interaction of socioeconomic deprivation and the homozygous Gln27Glu variant [Case-only odds ratio (OR): 1.8 (95% confidence interval [CI]: 1.0, 2.9)]. Interactions between population density and the homozygous Gln27Glu variant were weaker [Case-only OR: 1.2, (95% CI: 0.97, 1.5)]. CONCLUSIONS: Findings support a supra-multiplicative interaction between the Gln27Glu ADRB2 variant and socioeconomic deprivation among individuals of European descent. This result is consistent with the hypothesis that the elevation in cardiac arrest risk associated with socioeconomic deprivation operates through the stress pathway.