In vitro and in vivo formation of 7-(2'-carboxyethyl)guanine from the liver carcinogen 1-nitroso-5,6-dihydrouracil and its reactions with water and methanol.

Base-catalyzed hydrolysis of the potent liver carcinogen 1-nitroso-5,6-dihydrouracil [(NDHU) CAS: 16813-36-8] afforded 3-hydroxypropionic acid and acrylic acid in 72 and 6% yield, respectively. The base-catalyzed methanolysis of NDHU gave quantitative yields of 3-methoxypropionic acid and methyl carbamate. These results indicate that base-catalyzed NDHU decomposition produces a 2-carboxyethyl carbonium-ion-type intermediate. When 3H-labeled NDHU was reacted at pH 8 with DNA and RNA, 7-(2'-carboxyethyl)guanine (CEG) was detected in the hydrolysate and was identified by its cochromatography with authentic CEG in five (for DNA) or three (for RNA) systems and by a reverse isotope-dilution procedure. Radioactively labeled CEG (identified as before) and five other labeled chromatographic fractions were present in liver DNA and RNA hydrolysates after [3H]NDHU was gavaged into MRC Wistar rats. These fractions persisted in the liver DNA for various times up to 33 days after the gavage. The CEG fraction was 94% of the radioactivity in DNA reacted in vitro, but it reached only 21% of the radioactivity in the liver DNA. The results are related to a study on single-strand breaks produced by NDHU in rat liver DNA.