Carcinogenesis, Vol 18, 1039-1044, Copyright © 1997 by Oxford University Press
LB Fay, CD Leaf, E Gremaud, JM Aeschlimann, C Steen, DE Shuker and RJ Turesky
The urinary excretion of the DNA alkylation product, 3-methyladenine (3-
MeAde), was measured in human volunteers who were on controlled diets and
consumed fresh fish, or frozen-stored fish that contained 50-fold higher
levels of dimethylamine (DMA), with or without ingested nitrate. DMA
potentially could react with nitrosating agents in the diet or within the
body, and produce the potent carcinogen N- nitrosodimethylamine (NDMA),
which can then react with DNA to form several adducts including 3-MeAde.
Our findings show that there was no increase in urinary levels of 3-MeAde
after consumption of fish preserved by frozen storage relative to levels
after consumption of fresh fish. Furthermore, consumption of 225 mg sodium
nitrate (equal to the nitrate content in a large glass of beet juice) at 1
h prior to consumption of the frozen-stored fish did not increase urinary
3-MeAde levels as would be expected if nitrate enhanced endogenous
nitrosation of DMA. In contrast, urinary excretion of 3-MeAde from a
volunteer who was a moderate cigarette smoker (11 cigarettes per day) was
approximately 3- to 8-fold higher than dietary 3-MeAde intake. These
findings indicate that consumption of high levels of DMA in fish does not
result in detectable levels of NDMA formation and genetic damage as
measured by the urinary biomarker 3-MeAde.
ARTICLES
Urinary excretion of 3-methyladenine after consumption of fish containing high levels of dimethylamine
Nestle Research Center, Nestec Ltd, Lausanne, Switzerland.
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