TY - JOUR
T1 - Inherent and benzo[a]pyrene-induced differential aryl hydrocarbon receptor signaling greatly affects life span, atherosclerosis, cardiac gene expression, and body and heart growth in mice
AU - Kerley-Hamilton, Joanna S.
AU - Trask, Heidi W.
AU - Ridley, Christian J.A.
AU - Dufour, Eric
AU - Lesseur, Corina
AU - Ringelberg, Carol S.
AU - Moodie, Karen L.
AU - Shipman, Samantha L.
AU - Korc, Murray
AU - Gui, Jiang
AU - Shworak, Nicholas W.
AU - Tomlinson, Craig R.
N1 - Funding Information:
The National Institutes of Health (NIH)/National Institute of Environmental Health Sciences (NIEHS) award R21ES013827, NIH/National Center for Research Resources (NCRR) Centers of Biomedical Research Excellence (COBRE) award RR028309, Norris Cotton Cancer Center Prouty award P30CA023108, NIH/National Cancer Institute (NCI) R25 CA134286 Training Program for Quantitative Population Sciences in Cancer (JSK-H) and a grant from the Dartmouth Hitchcock Foundation.
PY - 2012/4
Y1 - 2012/4
N2 - Little is known of the environmental factors that initiate and promote disease. The aryl hydrocarbon receptor (AHR) is a key regulator of xenobiotic metabolism and plays a major role in gene/environment interactions. The AHR has also been demonstrated to carry out critical functions in development and disease. A qualitative investigation into the contribution by the AHR when stimulated to different levels of activity was undertaken to determine whether AHR-regulated gene/environment interactions are an underlying cause of cardiovascular disease. We used two congenic mouse models differing at the Ahr gene, which encodes AHRs with a 10-fold difference in signaling potencies. Benzo[a]pyrene (BaP), a pervasive environmental toxicant, atherogen, and potent agonist for the AHR, was used as the environmental agent for AHR activation. We tested the hypothesis that activation of the AHR of different signaling potencies by BaP would have differential effects on the physiology and pathology of the mouse cardiovascular system. We found that differential AHR signaling from an exposure to BaP caused lethality in mice with the low-affinity AHR, altered the growth rates of the body and several organs, induced atherosclerosis to a greater extent in mice with the high-affinity AHR, and had a huge impact on gene expression of the aorta. Our studies also demonstrated an endogenous role for AHR signaling in regulating heart size. We report a gene/environment interaction linking differential AHR signaling in the mouse to altered aorta gene expression profiles, changes in body and organ growth rates, and atherosclerosis.
AB - Little is known of the environmental factors that initiate and promote disease. The aryl hydrocarbon receptor (AHR) is a key regulator of xenobiotic metabolism and plays a major role in gene/environment interactions. The AHR has also been demonstrated to carry out critical functions in development and disease. A qualitative investigation into the contribution by the AHR when stimulated to different levels of activity was undertaken to determine whether AHR-regulated gene/environment interactions are an underlying cause of cardiovascular disease. We used two congenic mouse models differing at the Ahr gene, which encodes AHRs with a 10-fold difference in signaling potencies. Benzo[a]pyrene (BaP), a pervasive environmental toxicant, atherogen, and potent agonist for the AHR, was used as the environmental agent for AHR activation. We tested the hypothesis that activation of the AHR of different signaling potencies by BaP would have differential effects on the physiology and pathology of the mouse cardiovascular system. We found that differential AHR signaling from an exposure to BaP caused lethality in mice with the low-affinity AHR, altered the growth rates of the body and several organs, induced atherosclerosis to a greater extent in mice with the high-affinity AHR, and had a huge impact on gene expression of the aorta. Our studies also demonstrated an endogenous role for AHR signaling in regulating heart size. We report a gene/environment interaction linking differential AHR signaling in the mouse to altered aorta gene expression profiles, changes in body and organ growth rates, and atherosclerosis.
KW - Aryl hydrocarbon receptor
KW - Atherosclerosis
KW - Benzo[a]pyrene
KW - Body and organ growth
KW - Gene/environment interactions
KW - Western diet
UR - http://www.scopus.com/inward/record.url?scp=84859097555&partnerID=8YFLogxK
U2 - 10.1093/toxsci/kfs002
DO - 10.1093/toxsci/kfs002
M3 - Article
C2 - 22228805
AN - SCOPUS:84859097555
SN - 1096-6080
VL - 126
SP - 391
EP - 404
JO - Toxicological Sciences
JF - Toxicological Sciences
IS - 2
ER -