Liver microsomal activity

No adverse effect on liver microsomal activity Reduction in liver aniline hydroxylase activity liver histopathology... 

Figure 1. The "spot test. Each petri plate contains, in a thin overlay of top agar, the tester strain TA98 and, in the cases of plates C and D, a liver microsomal activation system (S-9 Mix). Mutagens were applied to 6-mm filter-paper discs which were then placed in the center of each plate (A) spontaneous revertants (B) furyl-furamide (AF-2) (1 fig) (C) aflotoxin Bi(l fig) (D) 2-aminofluorene (10 fig). Mutagen-induced revertants appear as a ring of colonies around each disc (3).

Liver Microsomal Activity in Neonatal Guinea Pigs... 

FIGURE 6.6 Peptide adduct formed from BHT using the rat liver microsomal activation system. The upper panel is the control reaction (-NADPH) and shows only the trapping peptide, while the lower panel is the complete reaction (BHT + NADPH + RLM) and shows both the peptide and the BHT-peptide adduct. (From Mitchell, M.D. et al., Chem. Res. Toxicol., 21, 859, 2008. With permission.)... 

In vitro studies showed that rat liver microsomes activated with NADPH and molecular oxygen metabolized MMT (Hanzlik et al. 1980b). Preliminary studies with pooled liver microsomes from 5-6 normal or pheno-barbital-induced rats showed that reaction rates of metabolism were linear for the first 20 minutes. MMT and aminopyrine, a positive control compound that is metabolized exclusively by cytochrome P450, showed parallel responses to changes in incubation conditions (i.e. NADPH dependence, inhibition by carbon monoxide, induction by phenobarbital). Liver microsomes metabolized MMT with an estimated of 78 pM and a Vni of 3.12 nmol/mg protein/min. When the studies were done with liver microsomes from phenobarbital-treated rats, the remained the same, but the doubled (Hanzlik et al. 1980b). Lung microsomes were equally capable of metabolizing MMT, but phenobarbital induction did not enhance the response. 

OPDYCKE AND STREET Intestinal and Liver Microsome Activities 287... 

In the presence of daunorubicin (200 pM) the NADPH-cytochrome P-450 reductase in mouse kidney microsomes was approximately 30 % of the liver microsomal activity (Mimnough et al. 1983). 

Squalene epoxidase, like most enzymes responsible for the later steps of sterol biosynthesis [43, 51], is membrane-bound which makes its purification in native form challenging. The purification is additionally complicated by the presence of a large number of cytochrome P450 and other enzymes that have similar hydro-phobicity and size as squalene epoxidase and are hence difficult to remove [52]. Most studies have been carried out with rat liver microsome squalene epoxidase either partially purified or as a homogenate of the cell membrane fraction. In vitro reconstitution of squalene epoxidase activity is absolutely dependent on molecular oxygen, NADPH, FAD, and NADPH-cytochrome c reductase [52, 53]. In this respect, squalene epoxidase resembles the cytochrome P450 enzymes described... 

Evidence suggests that endosulfan can induce microsomal enzyme activity. Increased liver microsomal cytochrome P-450 activity was observed in male and female rats after single and multiple administrations of endosulfan (Siddiqui et al. 1987a Tyagi et al. 1984). Increased enzyme activity was observed in hepatic and extrahepatic tissues. Based on the increase in aminopyrine-A-demethylase and aniline hydroxylase activity, endosulfan has been shown to be a nonspecific inducer of drug metabolism (Agarwal et al. 1978). 

The samples of l,6-T2-DBpD and l,6-T2-2,3,7,8-Cl4-DBpD are useful in metabolism and mode of action studies. For example, when incubated with rabbit liver microsomes, l,6-T.>-DBpD is extensively metabolized to polar product(s) but only when these preparations are fortified with reduced nicotinamide-adenine dinucleotide phosphate. Under the same conditions l,6-T2-2,3,7,8-Cl4-DBpD is completely resistant to metabolic attack. In some types of studies, a higher specific activity possibly is desirable i.e., >1 Ci/mmole), and this can be achieved, with the methodology already developed, by using larger amounts of tritium gas or working on a larger synthetic scale so that it is not necessary to add unlabeled materials to assist in crystallization steps where a certain minimum amount of compound is necessary. 

Polyphenols and flavanoids in rat liver microsomal fractions have been demonstrated to inhibit glucuronidation of estrone and estradiol in vitro (Zhu et al, 1998). In addition, flavonoids have also been found to induce phase I and II enzymes in rats including UDP-glucuronosyl transferase (Seiss et al, 1996). However, the effects of phytoestrogens have not been evaluated for either their inhibition or induction of glucuronosyl transferase activity. 

It appears that considerable metabolism of nitrosamines takes place in the liver, from the finding that most of them are activated by rat liver microsomes to bacterial mutagens. However, relatively few nitrosamines induce liver tumors in rats. The most common target is the esophagus and a wide variety of nitrosamines induce tumors in this organ of rats, some only tumors of the esophagus, others tumors of other organs also. 

Stereoselective oxygen transfer to the sulphur atom of alkyl aryl sulphides catalyzed by 2-flavoenzyme monooxygenases afforded optically active sulphoxides in high optical yields . For instance, with ethyl p-tolyl sulphide as substrate cyclohexanone monooxygenase from Actinetobacter produces predominantly (— )-(S)-sulphoxide with 64% e.e. In contrast, FAD-containing dimethylaniline monooxygenase purified from hog liver microsomes affords (+ )-(i )-enantiomer of this sulphoxide with 90% optical purity . ... 

Albano, E., Lott, K.A.K., Slater, T.F., Stier, A., Symons, M.C.R.and Tomasi, A. (1982). Spin trapping studies on the free radical products formed by metabolic activation of carbon tetrachloride in rat liver microsomal fractions, isolated hepato-cytes and in vivo in the rat. Biochem. J. 204, 593-603. 

The phenothiazines, chlorpromazine and promethazine, have been described as inhibitors of CCU-induced lipid peroxidation at relatively high concentrations in rat liver microsomes (Slater, 1968). Structural modifications of chlorpromazine were undertaken to try to increase antioxidant activity and maintain molecular lipophilicity. The 2-N-N-dimethyl ethanamine methanesulphonate-substituted phenothiazine (3) was found to be a potent inhibitor of iron-dependent lipid peroxidation. It was also found to block Cu -catalysed oxidation of LDL more effectively than probucol and to protect primary cultures of rat hippocampal neurons against hydrogen peroxide-induced toxicity in vitro (Yu et al., 1992). 

Shu, Y., Cheng, Z. N., Liu, Z. Q. et al. (2001). Interindividual variations in levels and activities of cytochrome P-450 in liver microsomes ofChinese subjects. Acta Pharmacologica Sinica, 22(3),... 

Palozza, P, Calviello, G, and Bartoli, GM, 1995. Prooxidant activity of beta-carotene under 100-percent oxygen pressure in rat liver microsomes. Free Radic Biol Med 19, 887-892. 

---