Ulrike Wünscher scite author profile

Ulrike Wünscher

4Publications

10Citation Statements Received

6Citation Statements Given

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Martin Luther University Halle-Wittenberg

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Chlorodibromomethane metabolism to bromide and carbon monoxide in rats

Pankow

Damme

Wünscher

et al. 1997

Archives of Toxicology

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The chlorodibromomethane (CDBM) metabolites bromide and CO were analysed as bromide level in plasma and carboxyhaemoglobin (COHb) level in blood of rats, respectively. The mean basic levels of bromide in plasma of rats receiving vehicle were 0.075 +/- 0.036 mmol/l (n = 27). After administration of CDBM at 0.4, 0.8, 1.6, and 3.1 mmol/kg p.o., the mean bromide levels rose to maximal values that were higher by a factor 27, 48, 69, and 135, respectively. Bromide elimination was slow and the plasma level was significantly increased following repeated administration in comparison to a single administration of CDBM. The CDBM concentrations in blood and in fat tissue 6 h after the last of 7 administrations of 0.8 mmol CDBM/ kg p.o., once a day for 7 consecutive days, were significantly lower than 6 h after a single gavage of this CDBM dose. The mean normal level of 0.45 +/- 0.32% COHb in rats (n = 30) was significantly increased following oral CDBM uptake. Initially higher COHb levels were measured after 7 consecutive applications of 0.8 mmol/kg CDBM. After a single administration of CDBM the level of glutathione disulphide in the liver was significantly increased; this effect was reversible. The oxidative CDBM metabolism was influenced by the glutathione (GSH) concentration in the liver. The rate of COHb and bromide formation was decreased after GSH depletion due to pretreatment of rats with buthionine sulphoximine (BSO) and increased following enhancement of the GSH concentration due to pretreatment of the animals with butylated hydroxyanisole (BHA). CDBM is a substrate for cytochrome P-450 2E1 (CYP2E1), as demonstrated by the inhibition of bromide and COHb formation due to simultaneous administration of CDBM and the CYP2E1 inhibitor diethyldithiocarbamate (DDTC); also by the initially higher levels of bromide in plasma and COHb in blood after gavage of CDBM pretreated with isoniazid (INH), an inducer of CYP2E1. The increase of bromide formation after CDBM administration in phenobarbital (PB)-pretreated rats indicated that cytochrome P-450 2B1 and 2B2 (CYP2B1 and CYP2B2) play a role as catalysts of the CDBM biotransformation. It is shown that m-xylene pretreatment, which activates CYP2E1 as well as CYP2Bs, leads to a higher bromide level after CDBM administration than the INH or PB pretreatment. In liver microsomes of rats treated with CDBM (0.8 mmol/kg p.o., seven daily applications), the p-nitrophenol hydroxylase (p-NPH) activity, a market of CYP2E1, was increased. It is concluded that CDBM may be an inducer of CYP2E1. These results combined with literature data demonstrate that the oxidation of CDBM was catalysed mainly by CYP2E1 and CYP2Bs and that there may be a risk of bromide accumulation following repeated uptake of the trihalomethane.

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Cardiotoxicity of chlorodibromomethane and trichloromethane in rats and isolated rat cardiac myocytes

Müller

Wolna

Wünscher

et al. 1997

Archives of Toxicology

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The cardiovascular effects were investigated after acute and subacute treatment with chlorodibromomethane (CDBM; 0.4 to 3.2 mmol/kg p.o.), trichloromethane (TCM; 0.31 and 1.25 mmol/kg p.o.) and mixtures of CDBM and TCM (acute, 0.8 mmol CDBM/kg + 1.25 mmol TCM/kg p.o.; subacute, 0.4 mmol CDBM/kg + 0.31 mmol TCM/kg p.o.) in conscious and urethane anaesthetized male Wistar rats (n = 6-10 per treatment). Furthermore it was observed whether cardiovascular responses were modified in CDBM or TCM treated rats after administration of exogenous catecholamines (epinephrine, 1 microg/kg; norepinephrine, 2 microg/kg) and underpinned with in vitro alterations of Ca2+ dynamics in cardiac myocytes. The present findings demonstrated that single and subacute oral administration of CDBM or TCM and mixtures of CDBM and TCM resulted in arrhythmogenic and negative chronotropic and dromotropic effects in conscious and urethane anaesthetized rats. The atrioventricular conduction time and the intraventricular extension time were extended. A slight shortening of the repolarization velocity was observed. The myocardial contractility was depressed and the heart was sensitized to the arrhythmogenic effects of epinephrine. After catecholamine injection the adrenergic cardiovascular responses in urethane anesthetized rats were modified: increased hypertensive epinephrine and norepinephrine action as well as augmentation of negative chronotropic and negative dromotropic cardiac effects of catecholamines were observed. The positive inotropic adrenergic response was diminished. The present in vivo findings, myocardial depression after acute CDBM treatment, as determined by different indices of contractility, correlate well with the observed inhibitory actions of CDBM on Ca2+ dynamics in isolated cardiac myocytes. All cardiovascular alterations found after CDBM or TCM treatment were not intensified after treatment with mixtures of CDBM and TCM. The effects observed were distinctly stronger after TCM (1.25 and 0.31 mmol/kg) treatment compared to CDBM (0.8 and 0.4 mmol/kg) treatment.

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Percutaneous absorption of mercury vapor by rats

et al. 1991

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With respect to occupational exposure situations, more information is needed to assess the importance of the skin absorption route for elemental mercury. The purpose of the experiments reported here is to prove the suitability of the rat tail as a model of Hg skin uptake. A vapor generation system used with a tail-only exposure system is described and first results are reported. An Hg uptake via the rat tail skin could be confirmed. The Hg uptake rate cannot be estimated quantitatively by these experiments.

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Frakturbildung in den zahnärztlichen vollkeramischen Materialien auf der Basis von Zirkoniumdioxid

Wünscher¹

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