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Joseph L. Mailman School of Public Health of Columbia University, Division of Environmental Health Sciences, New York, New York 10032 [R. M. W., F. P. P., R. M. S.]; College of Medicine, Jagiellonian University, Krakow, Poland [W. J.]; Environmental and Occupational Health Sciences Institute, Piscataway, New Jersey 08854 [S. G.]; and National Institute of Environmental Health Sciences, Research Triangle Park, North Carolina 27709 [D. A. B.]
Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous environmental
pollutants; a number are carcinogenic. Metabolic polymorphisms may
modulate susceptibility to PAH-induced DNA damage and carcinogenesis.
This study investigates the relationship between PAH-DNA adduct levels
(in maternal and newborn WBCs) and two polymorphisms: (a)
an MspI RFLP in the 3' noncoding region of cytochrome
P4501A1 (CYP1A1); and (b) an A
G
transition in nucleotide 313 of glutathione S-transferase
P1 (GSTP1), resulting in an ile105val substitution.
CYP1A1 catalyzes the bioactivation of PAH; the CYP1A1 MspI
RFLP has been associated with cancer of the lung. GSTP1 catalyzes the
detoxification of PAH; the val allele has greater catalytic
efficiency toward PAH diol epoxides. The study involves 160 mothers and
their newborns from Poland. Regression models controlled for maternal
smoking and other confounders. No association was seen between maternal
adduct levels and either polymorphism, separately or combined. However,
adduct levels were higher among newborns with the CYP1A1
MspI restriction site (heterozygotes and homozygotes combined)
compared with newborns lacking the restriction site (P = 0.06). Adducts were higher among GSTP1 ile/val and
ile/ile newborns compared with GSTP1 val/val
newborns (P = 0.08). Adduct levels were 4-fold higher
among GSTP1 ile/ile newborns having the CYP1A1
restriction site compared with GSTP1 val/val newborns who
lacked the CYP1A1 restriction site (P =
0.04). This study demonstrates a significant combined effect of
phase I and phase II polymorphisms on DNA damage from PAHs in
fetal tissues. It illustrates the importance of considering
interindividual variation in assessing risks of transplacental exposure
to PAHs.
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