Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lifetime tests were done in NZR inbred rats of dimethylnitramine (DMNO) by addition to the drinking water (average dose 1.83 g/kg body weight) and in NZO mice by repeated subcutaneous injection from birth to 7 months of age followed by administration in drinking water (total average dose 4.72 g/kg body weight). Rats developed hepatocellular carcinomas (85%), some of which metastasized. Mice developed hepatocellular carcinomas (81%) and renal adenocarcinomas (48%). Statistically significant increases of other tumor types also occurred in mice. The main targets for DMNO carcinogenesis appeared to be the liver cell epithelium and, at higher dose rates, renal tubular epithelium.
 ...
PMID:Carcinogenicity of dimethylnitramine in NZR rats in NZO mice. 18 4

Oxidative metabolism of radioactively labeled N-nitrodimethylamine in rats was compared with that of N-nitromethylamine. Within 7 h, 20% of N-nitrodimethylamine was metabolized to CO2 but only 4% of N-nitromethylamine. The poor oxidative metabolism of N-nitromethylamine is also reflected in the blood levels determined after i.v. administration to catheterized rats. N-Nitrodimethylamine was cleared rapidly from rat blood, while N-nitromethylamine was rapidly distributed into body water but had a long elimination half-life. An amount equal to 5.2% of the dose of the monomethyl compound was excreted intact in urine, but only 0.004% of the dimethyl compound. The pharmacokinetic data obtained were compared with the published data on the pharmacokinetics of the structural analog N-nitrosodimethylamine.
Carcinogenesis 1990 Mar
PMID:Pharmacokinetics of N-nitrodimethylamine and N-nitromethylamine in the rat. 231 Nov 77

Dimethylnitramine (DMNO) was shown to undergo hydroxylation in the presence of 9000 g supernatant from rat liver (S9) to yield hydroxymethyl-methylnitramine (OH-MNO). OH-MNO displayed a 100-fold higher mutagenic activity in Salmonella typhimurium TA100 strain than DMNO, when compared on a molar basis. The mutagenicity of DMNO in TA100 strain in the presence of S9 paralleled the production of OH-MNO. Acetoxymethyl-methylnitramine (Ac-MNO) and methylnitramine (MNO), two synthetic derivatives of DMNO, were also investigated. Ac-MNO was found to be mutagenic in TA100 strain only in the presence of S9, probably through the release of OH-MNO catalysed by esterase(s); under similar conditions, MNO showed no mutagenicity or toxicity to TA100 strain. OH-MNO showed no alkylating activity towards nicotinamide. These findings implicate OH-MNO as a proximate mutagenic metabolite of DMNO. DMNO and Ac-MNO were found to be more mutagenic in a nitroreductase(s)-proficient (TA100) than in a deficient (TA100 NR) strain. After reduction of OH-MNO with Zn/NH4Cl, it yielded an agent(s) which alkylated nicotinamide. The latter results imply a reduction of the nitro group in OH-MNO to yield a hydroxylamino derivative as the ultimate (or penultimate) mutagenic metabolite. The enzymes and reactive intermediates that may be involved in the activation of DMNO are discussed.
Carcinogenesis 1983 Nov
PMID:Hydroxylation and nitroreduction are required to activate dimethylnitramine into alkylating and mutagenic agents. 635 24

The net metabolism of dimethylnitramine (DMNO) was studied in NZR rat liver slices in tissue culture medium (Dulbecco's MEM). In rats, mice and fish, liver is the principal target organ for DMNO carcinogenesis. Destruction of DMNO in vitro with oxygenated medium was linear with amount of tissue (0.3-3.0 g liver), and with substrate concentration (0.14-4.44 mM). Substrate destruction (initially 0.2 mM DMNO) was linear for 60 min (average rate 0.9 +/- 0.1 microgram DMNO/g liver/min) and then slowed to become linear again at about half the initial rate from 90 min to longer than 5 h. In anoxic (N2) conditions DMNO metabolism slowed or stopped completely after 70 min. Metabolism of dimethylnitrosamine (DMN) was studied in the same preparation. DMN destruction rates were initially about 50% higher than DMNO, but were equal at longer incubation times. Simultaneous metabolism of DMNO and DMN by the same tissue slices showed DMNO rates unaltered in the presence of equimolar DMN (0.24 mM), but DMN rates were 20-40% depressed. No evidence was found for the oxidation of DMN to form DMNO, or for reduction of DMNO to DMN.
 ...
PMID:Dimethylnitramine metabolism in vitro by NZR rat liver slices. 646 76