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Indian Journal of Pharmacology, Vol. 37, No. 5, September-October, 2005, pp. 294-299 Research Paper Influence of DL α-lipoic acid and vitamin-E against doxorubicin-induced biochemical and histological changes in the cardiac tissue of rats Ayaz SA, Bhandari U, Pillai KK Department of Pharmacology, Faculty of Pharmacy, Jamia Hamdard (Hamdard University) New Delhi-110 062 Date of Submission: 04-May-2004 Code Number:ph05077 Abstract Objective: The present study was undertaken to find out the preventive and curative role of lipoic acid (LA) and vitamin E (Vit. E) on doxorubicin (DOX)-induced oxidative stress and to make comparative evaluation between LA and vitamin E in this regard.Materials and Methods: Wistar albino rats were used in this experiment. DOX was administered intraperitoneally in six equal injections (each containing 2.5 mg/kg DOX at 48 h interval) to a total cumulative dose of 15 mg/kg over a period of 2 weeks to produce cardiotoxicity. Lipoic acid and vitamin E were administered as pretreatment and post-treatment. The biochemical parameters such as tissue glutathione (GSH), malondialdehyde (MDA), lactate dehydrogenase (LDH), catalase (CAT), superoxide dismutase (SOD), glutathione peroxidase (GPx), glutathione reductase (GR), glutathione-s-transferase (GST), and glucose-6-phosphate dehydrogenase (G6PD) were monitored after 30 days. Results: Post-treatment with lipoic acid and vitamin E significantly protected the myocardium from the toxic effects of DOX, by reducing the levels of antioxidant enzymes such as CAT, SOD, GPx, GST, and G6PD towards normal and decreased the increased levels of malondialdehyde. It has also reduced the severity of cellular damage of the myocardium. The restoration of the endogenous antioxidant system clearly depicts that lipoic acid and vitamin E have produced their protective effect by scavenging the reactive oxygen species (ROS). Pretreatment with LA did not alter DOX-induced changes of histopathological parameters. Pretreatment with vitamin E has significantly increased the levels of blood and tissue GSH and significantly decreased the levels of MDA as compared to DOX-treated group. Vitamin E has significantly reduced the activities of the antioxidant enzymes except GSHR as compared to the DOX-treated group. Conclusion: The study strongly supports the use of these antioxidants in the treatment of DOX-induced cardiotoxicity; however, vitamin E is better for both preventive and curative therapy but LA can be used only for curative therapy. Keywords: Antioxidants, cardiotoxicity, doxorubicin, free radicals Introduction Doxorubicin (DOX) is a clinically well-established anticancer drug used for the treatment of solid tumors and hematologic malignancies. However, the development of a dose-dependent cardiotoxicity, which ultimately leads to cardiomyopathy with congestive heart failure[1] has limited the use of this drug. Several mechanisms for the DOX-induced cardiotoxicity have been proposed, including membrane lipid peroxidation (LPO), free radical formation,[2] mitochondrial damage[3] and iron-dependent oxidative damage to macromolecules.[4] Oxygen radicals are apparently involved in all of the mechanisms proposed. In relation to oxidative stress, a study has put forward the evidence that the DOX-induced toxicity may ensue through free radical formation and subsequent redox cycle with oxygen, resulting in generation of reactive oxygen species (ROS) such as superoxide anion and hydrogen peroxide (H2O2). In the presence of Fe2 +, H2O2 is further reduced to the extremely reactive hydroxyl radical.[5] These species may attack soluble cell components as well as membranes, eventually leading to impairment of cell functioning and cytolysis.[6] The tissues with less developed antioxidant defence mechanism such as the heart is highly susceptible to injury by anthracycline-induced oxygen radicals. Alpha lipoic acid (LA) is a naturally occurring compound that was shown to be synthesized by animals and humans. It is used as a dietary supplement on the basis of its antioxidant properties. Lipoamide dehydrogenase, found only in the mitochondria, reduces free lipoic acid to dihydrolipoic acid (DHLA), which is a potent antioxidant. DL a-lipoic acid and its reduced form dihydrolipoic acid, have been referred to as universal antioxidants that function in both aqueous and membrane phases.[7] In recent years, it has been observed that there is a growing interest in the usage of these natural antioxidants as a protective strategy against the cardiovascular-related problems in experiments, such as ischemia-reperfusion[8] and doxorubicin-induced cardiotoxicity.[9] These conditions are produced as a result of generation of reactive oxygen species (ROS) and subsequent lipid peroxidation. Recently, one study has reported the potent antioxidant role of lipoic acid against the adriamycin-induced cardiotoxicity with 35 mg/kg dose of lipoic acid.[9] DHLA (0.5 mM) accelerated iron-dependent hydroxyl radical generation and lipid peroxidation in liposomes, probably by reducing Fe3 + to Fe2 + [10] and the other report suggests that the prooxidant effects of LA and DHLA warrants further investigation.[11] Vitamin E is reported to possess antioxidant property. Vitamin-E treated rats have shown approximately 50% decrease in mortality and infarct size owing to coronary occlusion as compared to the control group and also significantly attenuates the arrhythmic changes.[12] Also, it has been reported that vitamin E acts as peroxyl radical trapping chain breaking antioxidant along with free radical scavenging property.[13] The purpose of this present study is to find out the role of lipoic acid and vitamin E as a reference standard and to compare their effects using the biochemical and histological parameters against the doxorubicin-induced cardiomyopathy in rats. Materials and Methods Chemicals Animals Experimental protocols Group I animals served as normal control and received lactose 75 mg/kg in saline intraperitoneally (i.p.) in the same regimen as doxorubicin. Group II animals received doxorubicin alone (2.5 mg/kg, body weight in normal saline (i.p.) in six equal injections for a period of 2 weeks for a total cumulative dose of 15 mg/kg, body weight). Group III animals received lipoic acid 20 mg/kg, per oral (p.o.) for 15 days as a pretreatment followed by doxorubicin administration (dosage and duration were as in Group II). Group IV animals received doxorubicin (dosage and duration were as in Group II) and after 15 days lipoic acid 20 mg/kg, p.o. for 15 days. Group V animals received only lipoic acid 20 mg/kg, p.o. for 15 days. Group VI animals received vitamin E 50 IU/kg, p.o. for 15 days followed by doxorubicin (dosage and duration were as in Group II). Group VII animals received doxorubicin (dosage and duration were as in Group II) and after 15 days vitamin E was administered 50 IU/kg, p.o. for 15 days. Group VIII animals received only vitamin E 50 IU/kg, p.o. for 15 days. Control, as well as treated animals were observed for a period of 4 weeks, and their body weights were checked. At the end of the fourth week, the animals were killed under ether anesthesia and a midline abdominal incision was performed and the hearts tissue were quickly dissected out, washed in ice-cold saline, dried on a filter paper, and weighed. For histopathological studies, heart tissues of each group were stored in 10% formalin in saline before processing. A portion of each heart was taken from all the groups and a 10% w/v homogenate was prepared in 0.9% buffered potassium chloride (pH 7.4) for the estimation of glutathione[14] and malondialdehyde.[15] The remaining portion of the heart tissue was used for the assay of cardiac damage marker enzyme and antioxidant enzymes. A 10% w/v homogenate was prepared in 0.05 M phosphate buffer (pH 7.4). The homogenate was subjected to cold centrifugation at 4 °C for 20 min and used for estimation of lactate dehydrogenase,[16] catalase,[17] superoxide dismutase,[18] glutathione peroxidase,[19] glutathione reductase,[20] glutathione-S-transferase,[21] glucose-6-phosphate dehydro-genase,[22] and protein content.[23]
Histopathological studies Statistical analysis Results Effect of lipoic acid pretreatment Effect of lipoic acid post-treatment Effect of vitamin E pretreatment Effect of vitamin E post-treatment Vitamin E has significantly decreased the levels of the antioxidant enzymes (P <0.01) except GR as compared to the DOX-treated group [ [Table - 2] and [Table - 3]. Histopathological findings Discussion DOX-induced cardiotoxicity and its prevention by antioxidants and iron-chelators have been found to be of limited success. [25],[26],[27] Some studies have reported the pro-oxidant property of lipoic acid where the reduced form of lipoic acid, that is, dihydrolipoic acid accelerated iron-dependent hydroxyl radical generation and lipid peroxidation in liposomes probably by reducing Fe3 + to Fe2 + [10] and the other report suggests that pro-oxidant effect of lipoic acid and dihydrolipoic acid needs further investigation.[11] Therefore, the present study was undertaken to find out the role of lipoic acid and vitamin E as reference standard in DOX-induced cardiotoxicity. The chronic administration of DOX showed significant decrease in the levels of reduced glutathione and a significant increase in the levels of MDA and LDH activity in heart homogenate. It has been shown that marked decrease in GSH pool occurs in many tissues after acute and chronic DOX toxicities [28],[29],[30] and an elevated level of MDA was shown in the rat heart tissue with DOX. DHLA is known to reduce glutathione disulfide (GSSG) to GSH and lipoic acid could have either mitigated the GSH consumption by acting as an alternate ROS scavenger or increase GSH levels by stimulating its biosynthesis by an unknown mechanism, also the increased intracellular GSH levels may activate the glutathione related enzymes, this may be a possible mechanism by which lipoic acid has restored the GSH levels in the heart tissue. The present study results in a decrease in lipid peroxidation product, that is, malondialdehyde with lipoic acid treatment and the results are in agreement with studies where lipoic acid has reduced the lipid peroxidation in DOX toxicity.[9], [31] The rapid cell swelling of sub-sarcolemmal bulbs and injured myocardium could facilitate the loss of intracellular enzymes in DOX-treated rats, this might be the possible mechanism for the increased levels of LDH in serum.[9], [32] Our results confirm the excess activity of LDH in cardiac tissue. This might also be due to induction or activation of LDH in cardiac tissue following DOX treatment. Similar observation was reported by Deepa et al .[33] The pretreatment with lipoic acid and vitamin E significantly reduced the activity of LDH. Thus, the role of lipoic acid and vitamin E on LDH activity in myocardium needs further investigation. In two studies on DOX-induced cardiotoxicity lipoic acid has shown the protective effect and restored the leakage of cytosolic enzyme LDH from the myocardial cells[9], [31] and thereby maintained the cell integrity. Many investigators have reported the protective and antioxidant role of lipoic acid against the animal models in which the pathogenesis was produced by oxidative stress. Abdul Hakeem et al . and Balachander et al . reported the protective antioxidant role of lipoic acid in DOX-induced toxicity.[9], [31] Also Geetha et al . and Milei et al . have reported the antioxidant potential of vitamin E in DOX-induced toxicity.[29], [34] Lipoic acid and vitamin E treatment caused a significant restoration of the antioxidant enzymes such as CAT, SOD, GPx, GST, and G6PD, where the activities of these enzymes were increased in the heart tissue of DOX-treated group as compared to vehicle-treated group. The increase in the activities of all these enzymes in the heart tissue might be owing to a compensatory mechanism and an effort made by the myocardium to detoxify the oxygen radicals. Lipoic acid and vitamin E have significantly restored the levels of the above enzymes towards normal, indicating the beneficial antioxidant potential of lipoic acid and vitamin E in DOX-induced cardiotoxicity. In the present study, the biochemical changes support the histopathological changes, where DOX in chronic administration has produced its characteristic morphological changes in the myocardium. The myocardial morphological changes observed in DOX-treated rats were similar to those previously reported.[29], [35] During the preventive treatment, massive vacuolation of myocardium near the atrial endocardium might be due to endogenous conversion of lipoic acid to dihydrolipoic acid (DHLA). However, one study has reported that DHLA acts as a pro-oxidant in an in vitro condition, where it accelerates the iron-dependent hydroxyl radical generation and lipid peroxidation, probably by reducing Fe3 + to Fe2 +.[10] Lipoic acid is an antioxidant and antioxidants also exhibit antiangiogenic effect and hence may be harmful in normal animals and might be beneficial in animals under oxidative stress. Thus, antioxidants act as double-edged weapons. Reduction in the severity of DOX-induced histological changes reveals that curative treatment with lipoic acid has beneficial effect. The administration of vitamin E to the DOX-treated rats also showed the protective effect on the myocardium with a significant decrease in the extent and severity of myocardial damage. The protective changes offered by vitamin E might be due to its antioxidant potential, where it is known that vitamin E acts as peroxyl radical trapping chain-breaking antioxidant along with free radical scavenging property.[13] In conclusion, the cardiotoxicity induced by DOX is in relation with oxidative stress. Our study suggests that lipoic acid could be used as an antioxidant during curative therapy rather than preventive therapy. On the contrary, vitamin E could be used as an antioxidant both in prevention and curative therapy. Thus, our study reveals that vitamin E is an ideal agent for doxorubicin-induced cardiotoxicity as compared to lipoic acid. Acknowledgments This study is supported by University Grants Commission (UGC) New Delhi, India. We thank Mr. Siraj Hussian, Vice Chancellor, Jamia Hamdard for providing the research facility. We are thankful to Mrs. Shaukat Shah, Incharge, Central Animal House Facility, Jamia Hamdard, for providing the animals. We thank Mr. Mushtaq Ahmad for assisting in the experimental work. References
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