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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been suggested that formaldehyde hydrazone, a condensation product of hydrazine with formaldehyde, plays an important role in hydrazine-promoted DNA methylation in vivo. The present study demonstrated by spin-trapping experiments with 5,5-dimethyl-1-pyrroline-N-oxide and tert-nitrosobutane that catalase-mediated oxidation of formaldehyde hydrazone generates methyl radicals. Both the use of two spin-traps and parallel studies of oxygen consumption were important for excluding possible artefacts of spin-trapping experiments with tert-nitrosobutane. Hydrazine was also oxidized by catalase but only hydroxyl radicals were detected. Metabolic activation of formaldehyde hydrazone to methyl radicals may be of importance in regard to hydrazine-mediated toxicity and carcinogenicity.
Carcinogenesis 1991 Jul
PMID:Formation of methyl radicals during the catalase-mediated oxidation of formaldehyde hydrazone. 164 16

Hydrazine is acutely neurotoxic, hepatotoxic and nephrotoxic; it is also carcinogenic to liver and lung in rodents. Administration of hydrazine results in formation of 7-methylguanine and O6-methylguanine in target organ DNA of rats, mice, hamsters and guinea-pigs. It has been suggested that hydrazine reacts with endogenous formaldehyde to form a condensation product which could be metabolized to a methylating agent. Solutions of 0.50 mM hydrazine and formaldehyde have, upon mixing, NMR spectra (300 MHz) consistent with the formation of formaldehyde hydrazone but not other possible condensation products such as tetraformyltriazine or formaldehyde azine. These same solutions evidencing hydrazone formation, when incubated in an in vitro system containing post-mitochondrial (S9), microsomal, cytosolic or mitochondrial cell fractions, resulted in the methylation of DNA guanine; S9 was the most active fraction. Neither the P-450 monooxygenase nor flavin monooxygenase systems appeared to be important in hydrazine/formaldehyde-induced methylation of DNA. However, sodium azide, cyanamide and carbon monoxide all inhibited S9-supported DNA methylation. Bovine liver catalase, a heme-containing cytochrome, readily transformed hydrazine/formaldehyde to a methylating agent. The data support formation of formaldehyde hydrazone as the condensation product of hydrazine and formaldehyde which is rapidly transformed in various liver cell fractions, perhaps by catalase and/or catalase-like enzymes, to a methylating agent.
Carcinogenesis 1988 Jan
PMID:Role of formaldehyde hydrazone and catalase in hydrazine-induced methylation of DNA guanine. 333 49

Administration of the hepatotoxin and carcinogen, inorganic hydrazine, to rodents results in the formation of 7-methylguanine and O6-methylguanine in liver DNA; co-administration of [methyl-14C]methionine or [14C]formate with the hydrazine labels the methylguanines, suggesting involvement of the 1-carbon pool in the methylation process. The present study investigates the proposal that the methylation mechanism involves reaction of hydrazine with endogenous formaldehyde to yield formaldehyde hydrazone, which could be metabolized to the potent methylating agent diazomethane. Hamsters were pretreated with methanol, ethanol or cyanamide to alter the endogenous hepatic aldehyde levels prior to administration of hydrazine. Formaldehyde levels were refractory to the pretreatments; hepatic acetaldehyde levels were increased, but hydrazine administration under such conditions did not result in the formation of ethylated guanines in DNA. Methanol and ethanol inhibited hydrazine-induced methylation of DNA. Hydrazine incubated with liver S9 fraction and calf thymus DNA induced the formation of 7-methylguanine and O6-methylguanine when formaldehyde was present in the incubation system; substitution of formaldehyde with acetaldehyde in the incubation medium did not result in any detectable alkylation of DNA. Both liver microsomal and cytosolic fractions demonstrated heat-labile activity in supporting the hydrazine-induced methylation process. Tetraformyltrisazine, or a similar reaction product of hydrazine and formaldehyde, may be a more important intermediate than formaldehyde hydrazone in the hydrazine-induced methylation of DNA.
Carcinogenesis 1986 Mar
PMID:The role of formaldehyde in hydrazine-induced methylation of liver DNA guanine. 394 26

Hydrazine, which is toxic and carcinogenic to rodent liver, has been shown to react with endogenous formaldehyde in the liver to form formaldehyde hydrazone (CH2 = N-NH2), an alkylating intermediate that methylates DNA guanine at the N7- and O6-positions. Studies were conducted to investigate the role of chronic hydrazine-induced hepatotoxicity on DNA maintenance methylation (formation of 5-methyldeoxycytosine) and the development of liver cancer. Male Syrian golden hamsters were given hydrazine sulfate (0, 170, 340 and 510 mg/l) in drinking water for 21 months (average dose 0, 4.2, 6.7 and 9.8 mg/kg body wt hydrazine as the free base). Hepatotoxicity was evaluated histologically, and regenerative DNA synthesis and maintenance methylation were measured as the incorporation of [methyl-14C]thymidine into DNA and the methyl moiety of [methyl-3H]methionine into 5-methyldeoxycytosine in DNA, respectively. Methylguanines were detected in liver DNA at the first observation time of 6 months of treatment; levels of these aberrant bases decreased or became undetectable at 14 months, and increased in a dose-related manner for the remainder of the study. DNA adducts persisted in the highest dose group throughout the study, repeating the results of a similar study previously reported by this laboratory (Bosan et al., Carcinogenesis, 8, 439-444, 1987). Linear regression analysis of thymidine and methionine methyl moiety incorporation into liver DNA suggested impairment of maintenance methylation of DNA (5-methyldeoxycytosine) in the middle and high exposure animals. Hepatic adenomas and hepatocellular carcinomas developed in a dose-related manner and were highly correlated to decreased uptake of radiolabel from methionine into DNA 5-methylcytosine. These results are part of a continuing study on alteration of maintenance methylation during hydrazine induction of liver cancer.
Carcinogenesis 1996 Dec
PMID:Methylation status of DNA cytosine during the course of induction of liver cancer in hamsters by hydrazine sulfate. 900 9