PROTECTIVE EFFECTS OF GLUTATHIONE ON BROMODICHLOROMETHANE IN VIVO TOXICITY AND IN VITRO MACROMOLECULAR BINDING IN FISCHER 344 RATS

Cisplatin is amongst the most potent chemotherapeutic drugs with applications in more than 50% of cancer treatments, but dose-dependent side effects limit its usefulness. Berberis vulgaris L. (B. vulgaris) has a proven role in several therapeutic applications in the traditional medicinal system. High-performance liquid chromatography was used to quantify berberine, a potent alkaloid in the methanolic root extract of B. vulgaris (BvRE). Berberine chloride in BvRE was found to be 10.29% w/w. To assess the prophylactic and curative protective effects of BvRE on cisplatin-induced nephrotoxicity, hepatotoxicity, and hyperlipidemia, in vivo toxicity trials were carried out on 25 healthy male albino Wistar rats (130–180 g). Both prophylactic and curative trials included a single dose of cisplatin (4 mg/kg, i.p.) and nine doses of BvRE (500 mg/kg/day, orally). An array of marked toxicity effects appeared in response to cisplatin dosage evident by morphological condition, biochemical analysis of serum (urea, creatinine, total protein, alanine transaminase, aspartate transaminase, total cholesterol, and triglyceride), and organ tissue homogenates (malondialdehyde and catalase). Statistically-significant (p < 0.05) variations were observed in various parameters. Moreover, histological studies of liver and kidney tissues revealed that the protective effect of BvRE effectively minimized and reversed nephrotoxic, hepatotoxic, and hyperlipidemic effects caused by cisplatin in both prophylactic and curative groups with relatively promising ameliorative effects in the prophylactic regimen. The in vitro cell viability effect of cisplatin, BvRE, and their combination was determined on HeLa cells using the tetrazolium (MTT) assay. MTT clearly corroborated that HeLa cells appeared to be less sensitive to cisplatin and berberine individually, while the combination of both at the same concentrations resulted in growth inhibition of HeLa cells in a remarkable synergistic way. The present validated the use of BvRE as a protective agent in combination therapy with cisplatin.

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The hepatic handling of sulfobromphthalein in aging Fischer-344 rats: in vivo and in vitro studies

Archives of Gerontology and Geriatrics ◽

10.1016/0167-4943(85)90020-2 ◽

1985 ◽

Vol 4 (1) ◽

pp. 73-85 ◽

Cited By ~ 14

Author(s):

S. Kanai ◽

K. Kitani ◽

S. Fujita ◽

H. Kitagawa

Keyword(s):

In Vitro Studies ◽

Fischer 344 Rats ◽

Fischer 344

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IN VITRO ANESTHETIC DEPLUORINATION AND IN VIVO LIVER FUNCTION IN FISCHER 344 RATS WITH CHRONIC RENAL FAILURE

Anesthesiology ◽

10.1097/00000542-198009001-00253 ◽

1980 ◽

Vol 53 (3 Suppl) ◽

pp. S253-S253 ◽

Cited By ~ 3

Author(s):

S. A. Rice ◽

T. S. Sievenpiper ◽

R. I. Mazze

Keyword(s):

Renal Failure ◽

Chronic Renal Failure ◽

Liver Function ◽

Fischer 344 Rats ◽

Fischer 344

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Influence of plant and bacterial myrosinase activity on the metabolic fate of glucosinolates in gnotobiotic rats

British Journal Of Nutrition ◽

10.1079/bjn2003900 ◽

2003 ◽

Vol 90 (2) ◽

pp. 395-404 ◽

Cited By ~ 57

Author(s):

Gabrielle Rouzaud ◽

Sylvie Rabot ◽

Brian Ratcliffe ◽

Alan J. Duncan

Keyword(s):

Allyl Isothiocyanate ◽

Protective Effects ◽

Mercapturic Acids ◽

Fischer 344 Rats ◽

Faecal Flora ◽

Fischer 344 ◽

Cruciferous Plants ◽

Myrosinase Activity ◽

Strong Capacity

The breakdown of glucosinolates, a group of thioglucoside compounds found in cruciferous plants, is catalysed by dietary or microbial myrosinase. This hydrolysis releases a range of breakdown products among which are the isothiocyanates, which have been implicated in the cancer-protective effects of cruciferous vegetables. The respective involvement of plant myrosinase and gut bacterial myrosinase in the conversion, in vivo, of glucosinolates into isothiocyanates was investigated in sixteen Fischer 344 rats. Glucosinolate hydrolysis in gnotobiotic rats harbouring a whole human faecal flora (Flora+) was compared with that in germ-free rats (Flora−). Rats were offered a diet where plant myrosinase was either active (Myro+) or inactive (Myro−). The conversion of prop-2-enyl glucosinolate and benzyl glucosinolate to their related isothiocyanates, allyl isothiocyanate and benzyl isothiocyanate, was estimated using urinary mercapturic acids, which are endproducts of isothiocyanate metabolism. The highest excretion of urinary mercapturic acids was found when only plant myrosinase was active (Flora−, Myro+ treatment). Lower excretion was observed when both plant and microbial myrosinases were active (Flora+, Myro+ treatment). Excretion of urinary mercapturic acids when only microbial myrosinase was active (Flora+, Myro− treatment) was low and comparable with the levels in the absence of myrosinase (Flora−, Myro− treatment). No intact glucosinolates were detected in the faeces of rats from the Flora+ treatments confirming the strong capacity of the microflora to break down glucosinolates. The results confirm that plant myrosinase can catalyse substantial release of isothiocyanates in vivo. The results also suggest that the human microflora may, in some circumstances, reduce the proportion of isothiocyanates available for intestinal absorption.

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Nephrotoxic Potential of Putative 3,5-Dichloroaniline (3,5-DCA) Metabolites and Biotransformation of 3,5-DCA in Isolated Kidney Cells from Fischer 344 Rats

International Journal of Molecular Sciences ◽

10.3390/ijms22010292 ◽

2020 ◽

Vol 22 (1) ◽

pp. 292

Author(s):

Gary O. Rankin ◽

Christopher R. Racine ◽

Monica A. Valentovic ◽

Dianne K. Anestis

Keyword(s):

Reactive Metabolites ◽

Kidney Cells ◽

Fischer 344 Rats ◽

Isolated Kidney ◽

Renal Metabolism ◽

Fischer 344 ◽

Primary Mechanism ◽

Toxic Metabolites

The current study was designed to explore the in vitro nephrotoxic potential of four 3,5-dichloroaniline (3,5-DCA) metabolites (3,5-dichloroacetanilide, 3,5-DCAA; 3,5-dichlorophenylhydroxylamine, 3,5-DCPHA; 2-amino-4,6-dichlorophenol, 2-A-4,6-DCP; 3,5-dichloronitrobenzene, 3,5-DCNB) and to determine the renal metabolism of 3,5-DCA in vitro. In cytotoxicity testing, isolated kidney cells (IKC) from male Fischer 344 rats (~4 million/mL, 3 mL) were exposed to a metabolite (0–1.5 mM; up to 90 min) or vehicle. Of these metabolites, 3,5-DCPHA was the most potent nephrotoxicant, with 3,5-DCNB intermediate in nephrotoxic potential. 2-A-4,6-DCP and 3,5-DCAA were not cytotoxic. In separate experiments, 3,5-DCNB cytotoxicity was reduced by pretreating IKC with antioxidants and cytochrome P450, flavin monooxygenase and peroxidase inhibitors, while 3,5-DCPHA cytotoxicity was attenuated by two nucleophilic antioxidants (glutathione and N-acetyl-L-cysteine). Incubation of IKC with 3,5-DCA (0.5–1.0 mM, 90 min) produced only 3,5-DCAA and 3,5-DCNB as detectable metabolites. These data suggest that 3,5-DCNB and 3,5-DCPHA are potential nephrotoxic metabolites and may contribute to 3,5-DCA induced nephrotoxicity in vivo. In addition, the kidney can bioactivate 3,5-DCNB to toxic metabolites, and 3,5-DCPHA appears to generate reactive metabolites to contribute to 3,5-DCA nephrotoxicity. In vitro, N-oxidation of 3,5-DCA appears to be the primary mechanism of bioactivation of 3,5-DCA to nephrotoxic metabolites.

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Cold- and norepinephrine-induced thermogenesis in younger and older Fischer 344 rats

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1988.254.3.r457 ◽

1988 ◽

Vol 254 (3) ◽

pp. R457-R462 ◽

Cited By ~ 2

Author(s):

R. B. McDonald ◽

B. A. Horwitz ◽

J. S. Hamilton ◽

J. S. Stern

Keyword(s):

Body Mass ◽

Mitochondrial Protein ◽

Brown Fat ◽

O2 Consumption ◽

Fischer 344 Rats ◽

Nonshivering Thermogenesis ◽

Fischer 344 ◽

Isolated Mitochondria

Older rats exposed to low environmental temperatures show attenuated thermogenesis. However, the mechanisms responsible for this attenuation are not clear. This investigation evaluated the possibility that reduced nonshivering thermogenic capacity is associated with this attenuation. O2 consumption was measured in male Fischer 344 rats ages 7 and 24 mo at thermoneutrality (26 degrees C), during exposure to cold (6 degrees C) for 2 h, and during norepinephrine (NE) infusion (an in vivo measure of nonshivering thermogenesis). In addition, the binding of GDP to isolated mitochondria of brown fat, an in vitro estimate of nonshivering thermogenesis, was also measured. Resting mass-independent O2 consumption (ml.min-1.g body mass -0.67) was not different between the two age groups. However, mass-independent O2 consumption was significantly greater in the younger vs. older rats during 2 h of cold exposure (younger, 2.86 +/- 0.19 l/kg body mass 0.67; older, 2.39 +/- 0.10 l/kg body mass 0.67) and during 20 min of maximum NE infusion (younger, 410.4 +/- 15.1 ml/kg body mass)] was greater in younger than ml/kg body mass 0.67). Brown fat mass [absolute (g) as well as relative (g tissue/kg body mass)] was greater in younger than in older rats. Furthermore, younger rats had significantly greater binding of GDP to isolated mitochondria of brown fat than did the older rats. This effect was true whether the data were expressed as nanomoles bound per milligram mitochondrial protein (32% lower in older rats), bound nanomoles recovered (57% lower), or bound picogram per kilogram body mass 0.67 (59% lower).(ABSTRACT TRUNCATED AT 250 WORDS)

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Effects of L-arginine-derived nitric oxide synthesis on neuronal activity in nucleus tractus solitarius

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1995.268.2.r487 ◽

1995 ◽

Vol 268 (2) ◽

pp. R487-R491 ◽

Cited By ~ 30

Author(s):

S. Ma ◽

F. M. Abboud ◽

R. B. Felder

Keyword(s):

Nitric Oxide ◽

Neuronal Activity ◽

Nucleus Tractus Solitarius ◽

Discharge Rate ◽

Brain Slices ◽

Spontaneous Discharge ◽

Fischer 344 Rats ◽

Fischer 344

The purpose of these studies was to determine the effects of L-arginine-derived nitric oxide (NO) synthesis on neuronal activity in solitary tract nucleus (NTS) neurons. Single unit activity was recorded extracellularly from medial NTS neurons in Fischer-344 rats in vivo and in vitro. In anesthetized rats with arterial pressure maintained constant, NG-nitro-L-arginine methyl ester (L-NAME, 10 mg/kg iv), an inhibitor of NO synthesis, decreased the discharge rate in 12 of 14 neurons and increased the discharge rate in two. After injection of L-NAME, the slowing of neuronal activity began within 2-5 min, and maximal responses were observed 12-15 min after injection. The decreases in activity were reversed within 12-15 min with L-arginine (30 mg/kg iv) or immediately with nitroglycerin (NTG, 10-30 micrograms/kg iv). In superfused rat brain slices, the discharge rate was reduced by 1 mM L-NAME in seven neurons, increased in two, and unchanged in one. The decreases in discharge rate were reversed by 2 mM L-arginine (4 of 6 neurons) and by 10-30 microM NTG (6 of 7 neurons). The results show that L-arginine-derived NO can affect the spontaneous discharge rate of NTS neurons. We conclude that NO may influence the excitability of NTS neurons involved in central autonomic control.

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NT4X-167; Novel N-terminal Aβ specific antibody, prevents in vitro and in vivo toxicity of highly toxic Aβ4-42 species

Pharmacopsychiatry ◽

10.1055/s-0035-1558042 ◽

2015 ◽

Vol 48 (06) ◽

Author(s):

G Antonios ◽

H Borgers ◽

T Pilot ◽

V Pena ◽

T Bayer

Keyword(s):

Specific Antibody ◽

In Vivo Toxicity

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Antioxidant Activity, Phenolic Content and Hematoprotective Effects of Cleome arabica Polyphenolic Leaf Extract

Phytothérapie ◽

10.3166/phyto-2019-0206 ◽

2019 ◽

Author(s):

C. Tigrine ◽

A. Kameli

Keyword(s):

Antioxidant Activity ◽

Biological Effects ◽

Reducing Power ◽

Hematological Toxicity ◽

Protective Effects ◽

Ferrous Ions ◽

Polyphenolic Extract ◽

Cleome Arabica

In this study a polyphenolic extract from Cleome arabica leaves (CALE) was investigated for its antioxidant activity in vitro using DPPH•, metal chelating and reducing power methods and for its protective effects against AraC-induced hematological toxicity in vivo using Balb C mice. Results indicated that CALE exhibited a strong and dose-dependent scavenging activity against the DPPH• free radical (IC50 = 4.88 μg/ml) and a high reducing power activity (EC50 = 4.85 μg/ml). Furthermore, it showed a good chelating effects against ferrous ions (IC50 = 377.75 μg/ml). The analysis of blood showed that subcutaneous injection of AraC (50 mg/kg) to mice during three consecutive days caused a significant myelosupression (P < 0.05). The combination of CALE and AraC protected blood cells from a veritable toxicity. Where, the number of the red cells, the amount of hemoglobin and the percentage of the hematocrite were significantly high. On the other hand, AraC cause an elevation of body temperature (39 °C) in mice. However, the temperature of the group treated with CALE and AraC remained normal and did not exceed 37.5 °C. The observed biological effects of CALE, in vitro as well as in vivo, could be due to the high polyphenol and flavonoid contents. In addition, the antioxidant activity of CALE suggested to be responsible for its hematoprotective effect.

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