Abstract
Solanum trilobatum L. (Solanaceae) has been well known as nightshade, commonly used by diverse populations to heal several disorders. Earlier studies in Solanum trilobatum were focused on different pharmacological activities and a few were concerned with antioxidant and hepatoprotective effects. Thus, the current study was focused to evaluate the antioxidant potential and hepatoprotective effects of S. trilobatum L. on thioacetamide (TAA) intoxication in Wistar albino rats. The rats were kept into four groups and six animals each. Group A was normal control. Group B was the TAA treated control. Groups C and D were pretreated with the aqueous extract from the leaves of S. trilobatum (100 mg, 200 mg/kg bw p.o.) once daily for 10 consecutive days administration followed by a single dose infusion of TAA (100 mg/kg s.c.). After 10 days, blood and livers were collected. The biochemical assay was carried out in the GSH (reduced glutathione), TBARS(thiobarbituric acid reactive substances), Na+-K+-ATPase, and antioxidant enzymes viz., SOD (superoxide dismutase), CAT (catalase), GPx (glutathione peroxidase), GST (glutathione-S-transferase), and GR (glutathione reductase) were analyzed in samples of blood and liver. Treatment with S. trilobatum reduced blood and liver TBARS, and Na+ K+ ATPase activity in TAA (thioacetamide)-induced hepatotoxicity rats. Furthermore, the above antioxidant enzymes were increased in the pretreatment of S. trilobatum in TAA intoxicated rats. Finally, we concluded that S. Trilobatum displayed potent antioxidant properties and alleviate oxidative stress induced hepatotoxic effects and possible engross mechanisms related to free radical scavenging properties.
Highlights
Oxidative stress associated free-radical biology have become niche research attention.Free radicals play a crucial function in the progress of tissue damage and pathological events in living beings [1]
Reactive oxygen derivatives are known to be recognized as reactive oxygen species (ROS), which is consistently produced by various biochemical mechanisms in Antioxidants 2017, 6, 68; doi:10.3390/antiox6030068
While TBARS of TAA treated animals were significantly higher than the control animals
Summary
Oxidative stress associated free-radical biology have become niche research attention. Free radicals play a crucial function in the progress of tissue damage and pathological events in living beings [1]. Lipid peroxidation is restricted by several cellular defense mechanisms consisted of enzymatic and non-enzymatic scavenging systems [2]. The properties of medicinal plants have been investigated in the recent scientific progress due to its effective antioxidant potentials and ability in healing various ailments. Antioxidants inhibit oxidative stress related tissue damage caused by free radicals; either obstruct oxidation mechanisms or scavenge the oxygen [4,5]. Reactive oxygen derivatives are known to be recognized as reactive oxygen species (ROS), which is consistently produced by various biochemical mechanisms in Antioxidants 2017, 6, 68; doi:10.3390/antiox6030068 www.mdpi.com/journal/antioxidants
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