Microsomal oxidase activity

Increased activity of -eedyson-metabolizing enzymes and increase of microsomal oxidase activity. 

The effect of proteins on pollutant toxicity includes both quantitative and qualitative aspects. Experiments show that animals fed proteins of low biological value exhibited a lowered microsomal oxidase activity when dietary proteins were supplemented with tryptophan, the enzyme activity was enhanced. Alteration of xenobiotic metabolism by protein deprivation may lead to enhanced or decreased toxicity, depending on whether metabolites are more or less toxic than the parent compound. For example, rats fed a protein-deficient diet show decreased metabolism but increased mortality with respect to pentobarbital, parathion, malathion, DDT, and toxaphene (Table 6.4). On the other hand, rats treated under the same conditions may show a decreased mortality with respect to heptachlor, CC14, and aflatoxin. It is known that, in the liver, heptachlor is metabolized to epoxide, which is more toxic than heptachlor itself, while CC14 is metabolized to CC13, a highly reactive free radical. As for aflatoxin, the decreased mortality is due to reduced binding of its metabolites to DNA. 

Turnquist, R. L., and W. A. Brindley Microsomal oxidase activities in relation to age and chlorcyclizine induction in American cockroach, Periplaneta americana, fat body, midgut, and hindgut. Pesticide Biochem. Physiol. 5, 211—220 (1975). 

Pyrethroids from Chiysanthemic Acid. The unsaturated side chains of the aHethrolone alcohol moieties of the natural pyrethrins are readily epoxidized by microsomal oxidases and converted to diols, thus detoxifying the insecticides. Esterification of chrysanthemic acid (9), R = CH3, with substituted ben2yl alcohols produces usehil insecticides barthrin [70-43-9J, 2-chloro-3,4-methylenedioxyben2yl (+)-i7j ,/n7 j -chrysanthemate, and dimethrin [70-38-2] 2,4-dimethylben2yl (+)-i7j ,/n7 j -chrysanthemate. These have alimited spectmm of insecticidal activity but are of very low mammalian toxicity, ie, rat oralLD s >20,000 mg/kg. 

The reactivity of the individual O—P insecticides is determined by the magnitude of the electrophilic character of the phosphoms atom, the strength of the bond P—X, and the steric effects of the substituents. The electrophilic nature of the central P atom is determined by the relative positions of the shared electron pairs, between atoms bonded to phosphoms, and is a function of the relative electronegativities of the two atoms in each bond (P, 2.1 O, 3.5 S, 2.5 N, 3.0 and C, 2.5). Therefore, it is clear that in phosphate esters (P=0) the phosphoms is much more electrophilic and these are more reactive than phosphorothioate esters (P=S). The latter generally are so stable as to be relatively unreactive with AChE. They owe their biological activity to m vivo oxidation by a microsomal oxidase, a reaction that takes place in insect gut and fat body tissues and in the mammalian Hver. A typical example is the oxidation of parathion (61) to paraoxon [311-45-5] (110). 

Numerous studies were dedicated to the effects of flavonoids on microsomal and mitochondrial lipid peroxidation. Kaempferol, quercetin, 7,8-dihydroxyflavone and D-catechin inhibited lipid peroxidation of light mitochondrial fraction from the rat liver initiated by the xanthine oxidase system [126]. Catechin, rutin, and naringin inhibited microsomal lipid peroxidation, xanthine oxidase activity, and DNA cleavage [127]. Myricetin inhibited ferric nitrilotriacetate-induced DNA oxidation and lipid peroxidation in primary rat hepatocyte cultures and activated DNA repair process [128]. 

Arinc, E. and A. Sen. 1994. Effects of in vivo benzo[a]pyrene treatment on liver microsomal mixed-function oxidase activities of gilthead seabream (Sparus aurata). Comp. Biochem. Physiol. 107C 405-414. 

Knights KM, Gourlay GK, Cousins MJ. Changes in rat hepatic microsomal mixed function oxidase activity following exposure to halothane under various oxygen concentrations. Biochem Pharmacol 1987 36(6) 897-906. 

Chambers JE, Trevethan CA. 1983. Effect of mirex, dechlorinated mirex derivatives and chlordecone on microsomal mirex-function oxidase activity and other hepatic parameters. Toxicol Lett 16 109-115. 

Peppriell J. 1981. The induction of hepatic microsomal mixed-function oxidase activities in the mouse by mirex, 3,4,5,3 ,4 ,5 -hexachlorobiphenyl, and equimolar dosages of both. Environ Res 26 402-408. 

Because the metabolism of DEHP was catalyzed by so many fractions of the trout liver homogenate, these fractions were characterized by measurement of marker enzymes to determine which organelles actually were responsible for the observed DEHP metabolism. Succinic dehydrogenase activity was used as a marker for mitochondria, whereas glucose-6-phosphatase was used as a marker for microsomes. The distribution of DEHP oxidase activity (production of polar metabolites 1 and 2 with added NADPH) and of DEHP esterase activity (production of monoester without added NADPH) were also determined. It was found (Figure 2) that the distribution of DEHP oxidase activity parallels the distribution of microsomal activity and the distribution of DEHP esterase activity parallels the distribution of microsomal activity, but is also present in the cytosol fraction. 

Hepatic microsomal mixed-function oxidase activity of several marine species from coastal Maine. Drug Metab. Dispos. 

Pohl, R. J., Bend, J. R., Guarino, A. M., and Fouts, J. R. Hepatic microsomal mixed-function oxidase activity of several marine species from coastal Maine. Drug Metab. Dispos. (1974) 2 545-555. 

Pohl R, Philpot R, Fonts J Cytochrome P-450 content and mixed-function oxidase activity in microsomes isolated from mouse skin. Drug Metab Dispos 4 442-450, 1976... 

Most cases of intoxication from industrial exposure have been mild, with rapid onset of eye irritation, headache, sneezing, and nausea weakness, light-headedness, and vomiting may also occur. Acute exposure to high concentrations may produce profound weakness, asphyxia, and death. Acrylonitrile is metabolized to cyanide by hepatic microsomal reactions. Deaths from acute poisoning result from inhibition of mitochondrial cytochrome oxidase activity by metabolically liberated cyanide. Inhalation of more moderate concentrations for a longer period of time leads to damage to the liver tissues in addition to central nervous system (CNS) effects. ... 

Figure 3. Mutagenic activities of the promutagens cis- and Xrms-diallate and sulfallate, the proximate mutagen cis-diallate sulfoxide, and the ultimate mutagen 2-chloroacrolein, assayed with S. typhimurium strain TA 100 sensitive to base-pair substitution mutagens. The diallate isomers and sulfallate are not mutagenic without the S9 mix. S9 mix refers to a microsomal oxidase system prepared from rat liver and appropriate cofactors. The methodology is detailed in Refs. 6, 22, and 29.

Many other cases of carbon tetrachloride-induced hepatic and/or renal injury associated with ethanol ingestion have been described in the medical literature (Durden and Chipman 1967 Guild et al. 1958 Jennings 1955 Lamson et al. 1928 Markham 1967 Tracey and Sherlock 1968). These clinical reports establish that occasional or frequent ingestion of alcoholic beverages can increase the danger from relatively moderate carbon tetrachloride exposure. As ethanol is known to induce microsomal mixed-function oxidase activity in man (Rubin and Lieber 1968), the mechanism of potentiation may involve ethanol-induced enhancement of the metabolic activation of carbon tetrachloride. 

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