Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phenytoin is one of the most commonly used anticonvulsants in pregnant epileptic women. Unrelatedly, the drug is also an inducer of hepatic drug metabolizing enzymes. Considering these facts, we wanted to determine if maternal treatment with therapeutic-like doses for the rat of phenytoin would produce long-term defects in the metabolism and action of drugs in the dams' adult offspring. We found that peripartum exposure to phenytoin resulted in a significant depression in the maximal velocities of hepatic microsomal aminopyrine N-demethylase in the 28-day-old male and female offspring. When the animals were 4-to-5-month old adults, the maximal velocities for the demethylase and hexobarbital hydroxylase remained subnormal in the males but were elevated in the females exposed to the highest therapeutic-like dose of phenytoin. Hexobarbital-induced sleeping time measurements were in agreement with enzyme kinetic analyses. Lastly, the hepatic monooxygenases of the adult male and female rats exposed, perinatally, to all but the lowest dose of phenytoin, were much less responsive to the inductive effects of several low doses of phenobarbital. The results suggest that levels of phenytoin that may be therapeutic for the mother can produce defects in the developing hepatic monooxygenase system of the perinates, which can then permanently affect drug metabolism and action in adulthood. Furthermore, by disrupting the development of hepatic enzyme induction mechanisms, perinatal exposure to phenytoin may irreversibly alter an important homeostatic mechanism that is normally responsive to daily exposure to low levels of various endogenous and exogenous inducing agents.
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PMID:Persistent defects in the hepatic monooxygenase system of adult rats exposed, perinatally, to maternally administered phenytoin. 372 6

The pretreatment of calves with a single dose of 10 mg kg-1 dieldrin or 21 daily doses of 10 mg kg-1 phenobarbitone increased the toxicity of diazinon as reflected by the development of more severe clinical signs and greater depression in whole blood cholinesterase activity in the pretreated calves. Induction by dieldrin or phenobarbitone of the hepatic microsomal enzyme amidopyrine-N-demethylase was also accompanied by a concurrent rise in the liver carboxylesterase activity.
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PMID:Effect of pretreatment with hepatic microsomal enzyme inducers on the toxicity of diazinon in calves. 380 24

A functional state of microsomal enzymatic system was studied in liver tissue of rats within 24, 48 and 72 hrs after surgical operation. Factors of operational treatment and of postoperational period were shown to inhibit distinctly amidopyrine demethylase as well as to decrease the content of cytochromes P-450 and b5 and the glycogen concentration in liver tissue. Content of lactic and pyruvic acids was increased in blood. Depression of the functional state of liver microsomes, occurred as a result of hypoxia, appears to be responsible for the phenomenon of elevated drug toxicity during postoperational period.
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PMID:[The state of the microsomal oxidative system of the rat liver in the postoperative period]. 381 Dec 81

Chrysotile asbestos fibers impair the activities of rat liver microsomal aryl hydrocarbon hydroxylase (AHH), aminopyrine (AP) N-demethylase and dimethylnitrosamine (DMN) demethylase in vitro. This inhibition is concentration-dependent. Preincubation of 3-methylcholanthrene (3-MC)-pretreated rat liver microsomes with chrysotile depresses the overall metabolism of [G-3H]benzo[a]pyrene (BaP). Various forms of asbestos employed inhibit AHH activity to the same extent. However, other types of asbestos are not as effective as chrysotile in diminishing AP demethylase activity. Chrysotile and crocidolite fibers are not found to significantly change the apparent Km of AHH activity, from 3-MC-pretreated rat liver microsomes, for BaP. Increasing the microsomal protein concentration partially abolishes the inhibition of AHH activity caused by chrysotile fibers. Inhibition of AP demethylase and AHH activities is attenuated by bovine serum albumin (BSA) or ferritin. Depression of AHH activity by crocidolite is significantly reversed by ferritin. Since polymers such as ferritin override enzyme inhibition by chrysotile as well as crocidolite, surface chemical groups of the fibers may be involved in enzyme modification.
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PMID:Effect of asbestos fibers on aryl hydrocarbon hydroxylase and aminopyrine N-demethylase activities of rat liver microsomes. 394 7

At a high dose, cyclophosphamide (Cy, 200 mg/kg) causes depression of the enzyme activity of the hepatic mixed function oxygenase (MFO) system in Sprague-Dawley rats. The present report provides evidence for the early regeneration of the depleted enzyme activity in Cy-treated rats by purified protein A (P) of Staphylococcus aureus. Enzymes of the MFO system, such as aminopyrine demethylase and aryl hydrocarbon hydroxylase, were assayed and the content of cytochrome P-450 was determined. Inoculation of P (60 micrograms/kg) prior to Cy inoculation provides a better effect than P administration after Cy. The exact mechanism of P action is unknown. P-treated animals appear to have an ability to repair the damage caused by the toxic metabolites of Cy earlier than those in the Cy group. This property of protein A may become useful in accelerated regeneration of the enzyme activity in the hepatic MFO system following the toxic insult of Cy metabolites.
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PMID:In vivo protection by protein A of hepatic microsomal mixed function oxygenase system of cyclophosphamide-treated rats. 397 77

Recovery characteristics of dispositional and pharmacodynamic tolerances produced by chronic Na-pentobarbital treatment were studied. To study dispositional tolerance, the rate of disappearance of pentobarbital from blood was estimated by sequential blood sampling before and after chronic treatment and during 15 days of withdrawal after chronic treatment. Pentobarbital half-life values were compared with four representative cytochrome P-450-mediated hepatic microsomal mixed-function oxidase reactions: aminopyrine demethylase, benzo(a)pyrene hydroxylase, 7-ethoxycoumarin deethylase and 7-ethoxyresorufin deethylase and with the concentration of cytochrome P-450 in sequentially biopsied liver samples. Pharmacodynamic tolerance was evaluated by measuring the increase in pentobarbital blood concentration required to produce predetermined central nervous system functional depression ratings. The recovery from dispositional tolerance was more rapid than the recovery from pharmacodynamic tolerance. Thus, whereas cytochrome P-450 levels and pentobarbital elimination rates were increased to close to twice pretreatment values by chronic treatment, by about 2 week post-withdrawal the values had normalized. In contrast, pharmacodynamic tolerance persisted after no residual dispositional tolerance remained. The neuronal functions most sensitive to barbiturate (i.e., sedation and loss of fine motor coordination) exhibited a greater degree of pharmacodynamic tolerance than other functions; hence the recovery of these neuronal functions took a longer period of time for their recovery. However, the rates of recovery of pharmacodynamic tolerance at all levels of central nervous system function seemed relatively constant indicating that there are uniform readaptation mechanisms for all the central nervous systems functions.
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PMID:Recovery from dispositional and pharmacodynamic tolerance after chronic pentobarbital treatment. 404 24

In contrast to what is well known to occur in rats, pigeons receiving CCl4 (1 ml/kg i.p.) were not susceptible to necrogenic effects of the hepatotoxin at 24 h. There were, however, other early biochemical alterations observable, such as depression of glucose 6 phosphatase activity, decrease in the cytochrome P-450 content and in aminopyrine-N-demethylase activity in pigeon liver microsomes at 3 and 6 h after CCl4 administration. Pigeon liver was able to activate CCl4 to reactive metabolites that bind covalently to lipids, but no CCl4-induced lipid peroxidation was proved by the diene hyperconjugation technique in pigeon liver microsomes at 1, 3 or 6 h after administration. Results suggest that covalent binding of CCl4-reactive metabolites are more relevant to early biochemical alterations induced by CCl4 than is lipid peroxidation. Absence of CCl4-induced necrosis in pigeon liver could be attributable to a smaller intensity of covalent binding interactions observed, when compared to susceptible species, and to absence of lipid peroxidation.
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PMID:Carbon tetrachloride-induced early biochemical alterations but not necrosis in pigeon's liver. 609 76

Fischer 344 male rats were treated with N-nitrosodiethylamine, and two weeks later promotion was effected by treatment with N-2-acetylaminofluorene for 14 days. At midpoint of the promotion protocol, one group of rats was subjected to partial hepatectomy (model A); others were treated with either carbon tetrachloride (model B) or thioacetamide (model C). Alterations in the activities of marker enzymes (glucose-6-phosphatase, gamma-glutamyl transpeptidase, cytochrome P-450, N-demethylase) during hepatocarcinogenesis were followed biochemically. The highest incidences of liver foci and of hepatocellular carcinomas were observed in model A, and these showed a good correlation with long-lasting elevated gamma-glutamyl transpeptidase activity. Analysis of the marker alterations suggests that there are three stages in hepatocarcinogenesis: (1) depression resulting from the toxic action of the initiator; (2) recovery and adaptation to cellular injury; and (3) long-lasting adverse alterations in the activities of the marker enzymes after promotion. The loss of certain non-histone proteins soon after promotion was also observed. Comparative studies of the individual actions of initiators and promoters on marker enzymes indicated that both contribute to the marker changes during hepatocarcinogenesis.
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PMID:Alterations of markers during hepatocarcinogenesis in rats. 615 22

The effects of dithiocarb and (+)-catechin on the microsomal mixed-function oxidase system of rat liver were investigated after a single dose as well as after repeated treatment for 7 and for 28 days. Dithiocarb (200 mg/kg p.o.) significantly reduced the microsomal cytochrome P-450 content, aniline hydroxylase and aminopyrine demethylase activities; maximum decrease was observed at 4 hrs, return to normal values after 24 hrs. (+)-catechin (200 mg/kg p.o.) had no effects in this respect. Both agents did not affect microsomal enzyme activities when applied orally for 7 days. After 28 days treatment only dithiocarb (50 - 100 - 200 mg/kg p.o.) exerted a dose-dependent depression of the aniline hydroxylase activity. In vitro experiments confirmed the in vivo observations: a concentration-dependent inhibition of the aniline hydroxylation and aminopyrine demethylation were seen from the addition of dithiocarb, the I50-values were 5.4 X 10(-6) M and 9.6 X 10(-5) M, respectively. (+)-catechin showed no inhibitory activity on both enzyme activities in vitro. Both dithiocarb and (+)-catechin depressed the activity of the NADPH-cytochrome C-reductase only in the 10(-4) M concentration range, these effects should be therefore evaluated as non-physiological without relevance in vivo.
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PMID:Effects of dithiocarb and (+)-catechin on microsomal enzyme activities of rat liver. 628 65

Groups of 10 male and 10 female rats were dosed orally with 1,2,3,4-, 1,2,4,5-, or 1,2,3,5-tetrachlorobenzene (TCB) at levels that ranged from 200 to 4000 mg/kg, and were observed clinically for 14 d. LD50 values for 1,2,3,4-, 1,2,4,5-, and 1,2,3,5-TCB were found to be 1470, 3105, and 2297 mg/kg, respectively, in male rats. In females, the LD50 values were found to be 1167 and 1727 mg/kg for 1,2,3,4- and 1,2,3,5-TCB, respectively. Clinical signs of toxicity included depression, flaccid muscle tone, prostration, piloerection, loose stool, hypothermia, dacryorrhea, coma, and death. In a subacute study, groups of 10 males and 10 females were fed diets containing 0, 0.5, 5.0, 50, or 500 ppm 1,2,3,4-, 1,2,4,5-, or 1,2,3,5-TCB for 28 d. No deaths or clinical signs of toxicity were observed, and neither growth rate nor food consumption was affected. At 500 ppm, 1,2,4,5- but not 1,2,3,4- or 1,2,3,5-TCB caused a significant increase in the liver weight and serum cholesterol of male and female rats. Hepatic microsomal aniline hydroxylase and ethoxyresorufin deethylase were induced by 500 ppm 1,2,4,5-TCB. Hepatic microsomal aminopyrine demethylase activity was increased by the administration of this compound at 50 ppm and higher in males and at 500 ppm in the females. Rats fed 1,2,3,4- and 1,2,3,5-TCB at 500 ppm also showed a significant increase in aminopyrine demethylase activity. Moderate to severe histological changes were found in the liver, thyroid, kidney, and lungs of rats fed 500 ppm 1,2,4,5-TCB. Histological changes in the tissues produced by the administration of the 1,2,3,4- and 1,2,3,5-isomer were mild even at the highest dose levels. Tissue residue data showed that 1,2,4,5-TCB accumulated at much higher levels than the other two isomers. The results suggest that the position of chlorine substitution can affect the tissue accumulation and toxicity of chlorinated benzenes in rats.
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PMID:Comparative toxicity of 1,2,3,4-, 1,2,4,5-, and 1,2,3,5-tetrachlorobenzene in the rat: results of acute and subacute studies. 662 Apr 5


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