The antioxidant activity of some compounds buffer the free radicals generated either endogenously or exogenously, thus decreasing the potential damage mediated by oxidation. Recent studies documented that raloxifene has antioxidant properties in vitro. However, there are limited animal studies available to show raloxifene's antioxidant properties. We aimed to investigate the effects of raloxifene on antioxidant enzymes such as SOD, CAT and GPX, TrxR and the levels of GSH and MDA in heart, liver and brain cortex of ovariectomized female rats. Female Sprague Dawley rats weighing 300-350 g (n=24) were divided into three groups: (I) Eight non-ovariectomized rats were used as naive controls without any treatment (non-ovariectomized group, n=8). Five weeks after ovariectomy, (II) Ovariectomized placebo group (n=8) was given physiological saline, and (III) Raloxifene group (n=8) was given raloxifene 1 mg/kg sc. daily for 12 days. Ovariectomy induced significant increases on SOD, GPX, CAT activity and MDA levels in brain, heart and liver tissues compared to non-ovariectomized rats ( p<0.05). Raloxifene treatment led to decreased levels of SOD activity in heart, GPX activity in brain and CAT activity in liver tissue when compared to ovariectomized group ( p<0.05) but there was no change in activity of TrxR in all groups. The levels of MDA in brain, heart and liver tissues increased in ovariectomized group when compared to non-ovariectomized rats ( p<0.05). Raloxifene had a significant attenuating effect on the levels of MDA in brain and heart tissues. Our results also indicate that the levels of GSH in brain, heart and liver tissue decreased when compared to non-ovariectomized rats. Raloxifene treatment was observed to significantly increase the levels of GSH in brain and heart tissues ( p<0.05). However, there were insignificant differences for the GSH levels in liver tissues of ovariectomized placebo or raloxifene groups. In conclusion, our results demonstrate that raloxifene may be more effective against oxidative stress in heart and brain than in liver tissue.
1. Accumulated clinical evidence suggests that selective oestrogen receptor modulators (SERM), such as raloxifene, may be neuroprotective. Oxidative stress is a likely molecular mechanism in the neurotoxicity of kainic acid (KA), an excitotoxic substance. The expression levels of the apurinic/apyrimidinic endonuclease/redox factor-1 (APE/Ref-1) gene seem to correlate with cellular sensitivity to reactive oxygen species (ROS) and a reduction in the expression of APE/Ref-1 may cause oxidative DNA damage. 2. The aim of the present study was to assess the effects of KA and raloxifene on the level of APE/Ref-1 mRNA in the hippocampus of ovariectomized rats. The expression of the APE/Ref-1 gene was quantified using reverse transcription followed by real-time polymerase chain reaction. 3. The results show that the level of APE/Ref-1 mRNA increased significantly in raloxifene-treated rats. However, raloxifene treatment did not affect the seizure severity induced by KA. We also observed that raloxifene treatment against simultaneous KA injection maintained the increased level of APE/Ref-1 mRNA in the hippocampus. 4. Therefore, the results of the present study seem to support previous data suggesting the potential significance of raloxifene in neuroprotection.
In some multidrug therapy programs, ketoconazole (KTZ) may be administered with some antacids that could modify its dissolution rate and reduce its absorption, thus leading to therapeutic failures. The primary aim of this study was to evaluate the influence of Compritol HD5 ATO and Compritol 888 ATO on this interaction in comparison with commercial KTZ tablets. The second aim was to prepare lipid granules of KTZ that could be an alternative to the commercial formulation. Therefore, six KTZ sustained-release granules were prepared with different lipid concentrations, because they were found to be more suitable than tablets that are dissolved only in gastric medium. The results confirmed that the dissolution rate of KTZ granules was significantly reduced in the presence of antacids. The ideal formulation was selected as granules including 5% of Compritol lipids in relation to the suitability of the target profile. Therapeutic effects of orally administered, ideal KTZ granule formulations, and commercial tablets were evaluated in vivo by the experimental model of murine vulvo-vaginal candidiasis (VVC) with and without antacids. It was found that formulations were very effective on VVC, and the therapeutic effect decreased significantly in the presence of antacids. Histopathological studies were carried out for vagina, stomach, and liver tissues and hepatoxicity was also examined. The levels of reduced glutathione (GSH) were measured to assess the oxidative stress induced by KTZ and function of the liver. It was observed that orally administered formulations of KTZ were successful in treating candidiasis in mice without irritancy in stomach. However, liver tissues were damaged. The decreased GSH levels indicated toxicity in our study. This study suggested that in vitro release and in vivo microbiological-toxicological properties of KTZ were affected by antacids and drug-excipient interactions. Lipid granules of KTZ prepared with Compritol 888 ATO could be proposed as a new KTZ solid dosage form with optimum dissolution and therapeutic characteristics.
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