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)

The resting pH of 7.14 +/- 0.02 within rat cortical synaptosomes is elevated in vitro by the insecticide chlordecone, in a dose-dependent manner. Chlordecone also reduces the rate of oxygen radical formation within synaptosomes. Both of these changes can also be demonstrated following in vivo treatment of rats with chlordecone (75 mg/kg body wt). Although chlordecone increases the permeability of the plasma membrane, the increase in pH observed is unlikely to be caused by this, since in vivo administration of chlordecone does not appreciably alter membrane order as evaluated by both a lipophilic probe, and a probe with an ionic segment. Another xenobiotic agent, methyl mercuric chloride, and a free radical generating system, an ascorbic acid-ferrous sulfate mixture, did not modulate synaptosomal pH, although membrane permeability was increased. Other evidence of the ability of synaptosomes to maintain homeostasis was the failure of mitochondrial inhibitors to significantly reduce pH. The drop in synaptosomal pH effected by amiloride, an inhibitor of Na+/H+ exchange, and the transient rise in pH caused by ammonium chloride further suggested that synaptosomes may be a good model in the study of the regulation of intracellular pH. The elevation of cytosolic pH, and depression of oxygen radical formation by chlordecone, may result from both the attenuation of respiratory metabolism and an impaired capacity of the plasma membrane to maintain ionic gradients.
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PMID:Changes in synaptosomal pH and rates of oxygen radical formation induced by chlordecone. 171 Apr 60

Gentian violet has been used in medicine for almost 100 years: as an antiseptic for external use, as an antihelminthic agent by oral administration, and more recently, as a blood additive to prevent transmission of Chagas' disease. To date, no serious side effects have been reported when used externally. However, oral administration can cause gastrointestinal irritation, and intravenous injection can cause depression in the white blood cell count. Surprisingly, no acute toxic side effects were reported after administration of large amounts of gentian violet-treated blood. No studies have been done on long-term effects (chronic toxicity, carcinogenicity) of gentian violet-treated blood either in humans or in laboratory animals. Gentian violet is a mutagen, a mitotic poison, and a clastogen. The carcinogenic effects of gentian violet in rodents have been reported recently. In addition, a number of triphenylmethane-classed dyes, of which gentian violet is a member, have been recognized as animal and human carcinogens. A photodynamic action of gentian violet, apparently mediated by a free-radical mechanism, has been described in bacteria and in T. cruzi. However, the main target of gentian violet toxicity in the dark is the mitochondrion. Gentian violet is actively demethylated by liver microsomes from different animals and is reduced to leucogentian violet by intestinal microflora. Although the first process may represent a detoxication reaction, the second pathway may have toxicological significance because the completely demethylated derivative leucopararosaniline has been demonstrated to be carcinogenic in rats. A free-radical derivative of gentian violet is also formed by the action of rat liver microsomes, but whether this radical is involved in the cytotoxic effects of gentian violet in mammalian cells remains to be elucidated. Other pathways of gentian violet metabolism have recently been investigated that involve its oxidative N-demethylation by peroxidases. The N-demethylation of gentian violet by prostaglandin synthetase deserves further study. In this regard, the PGS system is being studied as an alternative activating pathway in xenobiotic metabolism because some carcinogenic intermediates can be formed during this cooxidation reaction.
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PMID:The metabolism and mode of action of gentian violet. 227 86

The effects of cold-restraint as a physiological stressor on the glutathione (GSH) content of the liver and other tissues were examined in male mice. Mice of the ICR, NIH, ND/4, and B6C3F1 strains subjected to cold-restraint for 2 or 3 h experienced a loss of hepatic GSH concentrations ranging from approximately 15 to 50%. Though 3 of these strains (ICR, NIH, and B6C3F1) experienced hypothermia as result of the cold-restraint treatment, with average decreases in core body temperature ranging from 3.3 to 9.8 degrees C, hepatic GSH levels were depressed in the ND/4 mouse in the absence of changes in core body temperature. The ability of cold-restraint as a stressor to diminish hepatic GSH therefore could not be attributed simply to hypothermia. The decrease in hepatic GSH from cold-restraint in ND/4 mice was paralleled by a decrease in non-protein sulfhydryl (NPSH) content of the liver. In addition to its effects on liver GSH and NPSH concentrations, 1.5 h of cold-restraint stress significantly depressed plasma, heart, kidney, and lung NPSH concentrations. The extent of NPSH depression was equivalent to the GSH depression in the liver, heart, and kidney, despite the observation that the normal contribution of GSH to total NPSH content in these tissues ranged from a high of 89% (liver) to a low of 49% (heart). These results with cold-restraint in the ND/4 mouse suggest that other stressors may significantly depress cellular concentrations of GSH and other thiols, and may thereby render the affected tissues more susceptible to the toxicity of free radicals, electrophilic xenobiotic metabolites, or reactive oxygen species.
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PMID:Depression of glutathione by cold-restraint in mice. 231 51

Treatment of mice and rats with polyriboinosinic acid-polyribocytidylic acid (poly I.C., 5 mg/kg i.p.), a potent interferon inducer, decreased hepatic cytochrome P-450 system content and activities without influencing P-450-independent xenobiotic metabolizing enzymes. Treatment with poly I.C. decreased the content of P-450 by 28% in mice (P less than 0.05) and 30% in rats (P less than 0.05) but did not alter the activity of cytochrome c reductase. With treatment of poly I.C., the activity of XO increased 87% in mice (P less than 0.01) and 30% in rats (P less than 0.01). Lipid peroxidation was enhanced by 82% in mice (P less than 0.01) and 95% in rats (P less than 0.05). These results raise the possibility that a part of the depression of P-450 system content and activities by poly I.C. might be caused by enhanced lipid peroxidation associated with increased activity of XO.
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PMID:Treatment with poly I.C. enhances lipid peroxidation and the activity of xanthine oxidase, and decreases hepatic P-450 content and activities in mice and rats. 375 66

The Ah locus represents a complex "cluster" of genese controlling the induction of numerous drug-metabolizing enzyme "activities" by polycyclic aromatic compounds. Allelic differences at the Ah locus are reflected in the large differences in inducibility of cytochrome P1-450 and benzo[a]pyrene metabolism in numerous tissues when the mice receive the chemical daily in their diet. This experimental model system offers to the hematologist and clinical pharmacologist a means to study genetic differences in toxic chemical depression of the bone marrow, as well as a potential model to study aplastic anemia and leukemia explainable on a single-gene basis. The genetically "responsive" individual who is at increased risk for cancer caused by subcutaneous or topical or intratracheal polycyclic hydrocarbons is at decreased risk for toxicity of the bone marrow and leukemia caused by oral benzo[a]pyrene (when compared with the genetically "nonresponsive" individual receiving the same dose of the same xenobiotic). In other words, tissue sites in direct contact with the carcinogen develop cancer in responsive animals because of induced P1-450; tissues in distant sites of the body may develop malignancy in nonresponsive animals because more carcinogen reaches that tissue due to decreased P1-450 induction all over the body and therefore decreased detoxication. Not only the dct with the carcinogen develop cancer in responsive animals because of induced P1-450; tissues in distant sites of the body may develop malignancy in nonresponsive animals because more carcinogen reaches that tissue due to decreased P1-450 induction all over the body and therefore decreased detoxication. Not only the dct with the carcinogen develop cancer in responsive animals because of induced P1-450; tissues in distant sites of the body may develop malignancy in nonresponsive animals because more carcinogen reaches that tissue due to decreased P1-450 induction all over the body and therefore decreased detoxication. Not only the dose but the route of administration and the tissue in which the malignancy or toxicity develops are therefore very important in the interpretation of data from tumorigenesis or toxicity experiments involving P1-450 inducers such as polycyclic hydrocarbons. There exists sufficient evidence that heritable variation of the Ah locus occurs in man. Growing evidence indicates that persons with higher aryl hydrocarbon hydroxylase inducibility in their cultured mitogen-activated lymphocytes may have a statistically significantly increased risk for certain types of cancer and drug toxicity. It remains to be determined at the present time, however, whether this genotype can be used as a biochemical marker in the individual patient for predicting increased susceptibility to certain types of environmentally caused cancers or toxicity in man.
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PMID:Genetic differences in susceptibility to chemically induced myelotoxicity and leukemia. 701 19

Male Fischer rats were maintained for a period of 17 weeks on an iron-deficient diet along with suitable controls. The effect of long term deprivation of iron on xenobiotic metabolism was studied by the activities of various drug metabolising enzymes in both liver as well as extra-hepatic tissues like lungs, kidneys and intestinal mucosa (I.M.). The results show that among the Phase I (activating) enzymes, the hepatic activities of benzo(a)pyrene hydroxylase (AHH) and microsomal epoxide hydrolase (mEH) are significantly reduced in iron deficiency. The other parameters of the activating system, namely cytochrome P450, aminopyrene demethylase (ADM) and aniline hydroxylase (AH), are not altered. Of the two Phase II (conjugating) enzymes studied, only uridine diphospho glucuronyl transferase (UDPGT) is found to be depressed, but not glutathione S-transferase (GST) in liver in iron deficiency. Activities of Phase I enzymes are markedly lowered in extra-hepatic tissues compared to liver; such depression is not observed in conjugating enzymes. Iron deficiency does not seem to make much impact on the enzyme activities of extra-hepatic tissues. Overall, the hepatic results suggest a defect in detoxification mechanisms in iron deficiency. Such impairment may very well predispose an iron-deficient host to an increased risk of carcinogenesis.
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PMID:Effect of long term iron deficiency on the activities of hepatic and extra-hepatic drug metabolising enzymes in Fischer rats. 785 40

Toxicosis due to paraquat, a redox cycling xenobiotic, is still a subject of much debate. In the present study on lipid peroxidation, paraquat had a biphasic effect on the malondialdehyde (MDA) level in rat liver microsomes; stimulation at the initial stage (within 10 min) and depression at the later stage. Although paraquat increased the initial rate of NADPH oxidation dose-dependently, the rate was not necessarily parallel with the increase in the MDA level. The MDA level increased linearly up to 0.1 mM paraquat added, but then it attained a plateau. The stimulation obtained by paraquat within 10 min was absolutely dependent on exogenous Fe2+ ion and NADPH, and the stimulation was entirely SOD sensitive, while the iron-driven increase in MDA was 20% sensitive. Thus, there were different mechanisms between iron-driven lipid peroxidation and paraquat-modified peroxidation. Catalase increased the level, but mannitol, a scavenger of OH, had no effect. EPR spectra showed that superoxide was formed dose-dependently up to 0.1 mM paraquat and that it attained a plateau at the same as MDA level described above. From these results, we concluded that paraquat stimulates lipid peroxidation through a mechanism dependent on the superoxide complex involving Fe2+ ion.
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PMID:Effect of paraquat on the malondialdehyde level in rat liver microsomes (in vitro). 802 66

Anthraquinone dyes are utilized by the military in colored-smoke grenades. During production, workers in munitions plants may be exposed to fugitive emissions of these dyes or mixtures thereof. The effects of a prototype violet dye mixture (VDM) consisting of Disperse Red 11 (DR11), [1,4-diamino-2-methoxy-anthraquinone] and Disperse Blue 3 (DB3) [1-methylamino-4-hydroxyethylamino-anthraquinone] on F344 male and female rats have been investigated. Acute 1-day inhalation exposures (6 hr) to VDM were conducted at 1000, 300, 100, 70, 40, and 10 mg/m3, with an additional exposure to 40 mg/m3 6 hr/day for 5 days; 4.22 +/- 2.1 microns (MMAD +/- delta g). Lung burdens of dye, general histopathology, and/or liver function were evaluated at 0, 3, and 7 days postexposure. Unexpected lethality due to severe liver damage was observed with acute exposures of > or = 300 mg/m3 and in the 5-day 40 mg/m3 exposures. Centrilobular degeneration and necrosis of liver cells was concentration-dependent with inhalation of VDM > or = 40 mg/m3. In addition, nasal olfactory epithelium exhibited degeneration and necrosis with acute exposures > or = 10 mg/m3. Lung instillations at 250, 500, and 1000 micrograms of the VDM revealed no lung or liver toxicity. Because per os exposure due to preening was suspected as a major exposure route, a gavage study with the VDM and its two component dyes DR11 and DB3 (800 mg/kg) was undertaken. One day following gavage with DR11 or DB3, serum enzymes indicative of liver toxicity (LDH, SGPT, SDH, and ICDH) were slightly elevated (1-6x control). However, rats gavaged with VDM had serum enzyme levels 10-100x control by Day 1 after gavage, indicating acute liver toxicity. Activities of liver enzymes involved in xenobiotic and glutathione metabolism were also acutely affected. All of the dyes caused various degrees of induction of glucose-6-phosphate dehydrogenase, glutathione reductase, glutathione peroxidase, and nonprotein sulfhydryls. The enzymes involved in xenobiotic metabolism (glutathione S-transferase, NADPH cytochrome-c reductase, and P450) were also elevated by the two component dyes, in contrast to their significant depression with VDM treatment. The similarity between the liver and olfactory epithelium effects of these compounds and the lack of pulmonary tissue effects is not fully understood, but the interaction of the individual dyes as VDM emphasizes the need to assess chemicals such as the anthraquinones as their likely-to-be-encountered mixtures.
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PMID:Toxicity of an anthraquinone violet dye mixture following inhalation exposure, intratracheal instillation, or gavage. 812 3

The present paper summarizes key features of time-dependent sensitization (TDS) in neuropharmacology (progressive amplification of behavioral, neuronal, endocrine, and/or immune responses to repeated intermittent exposures to an environmental agent or cross-sensitizing agents) as a possible model for cacosmia (subjective sense of feeling ill from low levels of environmental chemical odors) in nonindustrial and industrial populations; and extends previous cacosmia research in nonpatient populations to an elderly sample. This study examined the symptom and psychological profiles of 263 older adults (aged 60-90 y, 71% women, 29% men); 57% reported that at least one chemical and 17% reported that at least four of five chemicals (pesticide, automobile exhaust, paint, new carpet, perfume) made them feel ill. Cacosmia ratings correlated weakly and negatively with age (r = -0.19, p = .001) over the whole sample. Cacosmia correlated significantly with self-reported illness from foods that may mobilize or generate opioid peptides (wheat, dairy, eggs) (r = 0.32, p < .0001) and with illness from opiate drugs (r = 0.23, p < .0001). When the sample was divided into four cells on the basis of above-versus below-median total chemical-induced illness score (CI) and total food-induced illness score (FI), the high CI and high FI, high CI only, and high FI only groups had more frequent indigestion, and the high CI group had more frequent difficulty concentrating than the groups below median for illness from both chemicals and foods (NOILL), even after covarying for age and anxiety. The most cacosmic subjects noted higher prevalence of physician-diagnosed allergies and irritable bowel than did noncacosmic subjects. In contrast with previous young adult cohort studies, the older illness groups did not differ with regard to sex distribution, depression, shyness, or repressive defensiveness. When considered with prior surveys of young adults, the present findings are consistent with the presence of previously established, time-dependent sensitization to multiple xenobiotic agents in susceptible individuals for whom psychological variables do not explain the symptom of cacosmia. If cacosmia is a symptom of TDS, then the neuropharmacology literature suggests the possibility of excitatory amino acid, hypothalamic-pituitary-adrenal axis, dopaminergic, and/or opioid involvement. Prospective studies with objective measures testing the possible induction of TDS to specific chemicals are indicated.
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PMID:Possible time-dependent sensitization to xenobiotics: self-reported illness from chemical odors, foods, and opiate drugs in an older adult population. 821 96

The down regulation of constitutive hepatic microsomal cytochromes P-450 (P450) by interferons has been well described in experimental animals and humans, however the down regulation of induced forms of P450 has not been documented clearly. Differential down regulation of constitutive and induced P450 could alter the proportions of P450 enzymes and, hence, the relative bioactivation/detoxification of xenobiotics. We investigated the effects of polyinosinic acid-polycytidylic acid, a potent stimulator of interferon alpha/beta production on CYP1A and CYP2E induction in the rat. Polyinosinic acid-polycytidylic acid down regulated the constitutive and pyridine-induced expression of CYP2E1 and the pyridine- and beta-naphthoflavone-induced expression of CYP1A1 as demonstrated by metabolic activity and immunoblot analyses. Depression of CYP2E1 and CYP1A1 protein expression by polyinosinic acid-polycytidylic acid was accompanied by a corresponding decrease in mRNA encoding these proteins. Induction of CYP1A2 mRNA also was depressed. Therefore, interferon alpha/beta down regulated induction of members of the CYP1A and CYP2E subfamilies at a pretranslational level independent of the mechanism of induction. Induction of the CYP1A and CYP2E subfamilies did not confer resistance to down regulation by interferon, although the magnitude of down regulation by interferon appeared to be influenced by the magnitude of P450 induction. The potential significance of down regulation of induced P450 in the clearance of certain therapeutic agents and in xenobiotic bioactivation and detoxification is discussed.
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PMID:Regulation of cytochrome P-4501A and cytochrome P-4502E induction in the rat during the production of interferon alpha/beta. 830 91


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