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1.
Article in English | IMSEAR | ID: sea-151369

ABSTRACT

The present study was aimed to analyse the effect of acrylamide and Hybanthus enneaspermus leaf extract active principles on mice testis glutathione-s-transferases (GST; EC 2.5.1.18). These enzymes play a role in biotransformation of electrophilic compounds that cause damage to cells by conjugating with the substrate glutathione. Hybanthus enneaspermus, a spade flower, is an erect shrub of violaceae family, having free radical scavenging activity. Acrylamide is a known neurotoxicant that cause damage to almost all cells including liver, testis, brain and kidney. The GSTs purified from mice testis using glutathionyl linked agarose affinity chromatography were analyzed by using SDS-PAGE and were resolved into four sub units i.e. Yc, Yb, Yβ &Yδ. Also these subunits expression were confirmed by western blot analysis. During experimentation to analyze the effect of Hybanthus enneaspermus active principle (HE) mice were subjected to both acrylamide (AC) and also mixture of HE and AC. This exposure significantly altered the specific activity of mice GSTs in testis. Polyclonal antibodies produced against purified GSTs of mice testis on immunoblot analysis showed significant increase of μclass GSTs (Yb & Yβ) based on dose and time dependent manner. Therefore the present research of Hybanthus enneaspermus treatment on mice testis showed that, regulation of synthesis of μ-GSTs was depending on the dose of acrylamide concentration and also the active principles of HE. Hence it is proposed that μ-GSTs may be used as tumour markers for testis carcinoma, since their production is variable due to the increased dose concentration of synthetic chemical acrylamide and its regulation by plant product, HE.

2.
Article in English | IMSEAR | ID: sea-150933

ABSTRACT

The present review provides an account of the knowledge on the morphology, phytochemistry and pharmacological aspects of Rhinacanthus nasutus R Kurtz. This plant also called Nagamalli is a perennial shrub growing to 60-76 cm in height with tender stem. A wide range of chemical compounds have been isolated, mainly flavonoids, benzenoids, coumarin, anthraquinone, quinone, glycosides, carbohydrate, triterpenes, sterols, anthraquinones, napthoquinones. Different parts of plant have been used in folk medicine for treating liver disorders, skin diseases, peptic ulcers, helminthiasis, scurvy, inflammation and obesity. The napthoquinones known as rhinacanthin-C and rhinacanthin-D, extracted from the R.nasutus are reported to have anti-inflammatory and analgesic activity. The promising alkaloid, Rhinacanthin isolated from R.nasutus having antibacterial and antihelmintic activity. R.nasutus shows several other characteristic pharmacological effects like platelet aggregation inhibitor, antidiabetic, antituberculosis, anticancer which are consistent with the reported uses of the plant extracts in the indigenous system of medicine. Further the leaves of this plant are used in the preparation of shampoos or detergents. Hence the present article includes the detailed exploration of morphology, phytochemistry, and pharmacological aspects of R.nasutus in an attempt to provide a direction for further research.

3.
J Environ Biol ; 2009 Sept; 30(5suppl): 859-864
Article in English | IMSEAR | ID: sea-146311

ABSTRACT

This study reports the protective effects of selenium on fluoride induced alterations in the activities of pro-oxidative (xanthine oxidase (XOD), lipid peroxidation (LPO) free radical scavenging, (catalase, superoxide dismutase (SOD), glutathione-s-transferase (GST), glutathione peroxidase (GPX), glutathione reductase (GR), glutathione) and metabolic (glucose-6-phosphate dehydrogenase, alanine amino transferase (ALAT), aspartate aminotransferase (AAT), creatine phosphokinase (CPK), acid phosphatase (AP), alkaline phosphatase (ALP)] enzymes along with fluoride and selenium levels in brain of mice. Animals were divided into control, NaF treated group (20 mg kg-1 body wt.-1 intraperitonial) and Selenium+NaF treated group (sodium selenite, 5 mg of selenium / 0.2 ml distilled water kg-1 body wt.-1 day) and were maintained for 14 days on respective treatments. The decreased bodyweight (-11.35%) as well as organosomatic index (-15.1%) of brain in NaF group were recovered in treatment of selenium along with NaF. The increased accumulation of fluoride (32.1%) in brain observed in NaF treated group compared to control was diminished in selenium+NaF treated group. Selenium levels (3.03%) increased in selenium+NaF treated group in compared to decrement in NaF treatment. The SOD (-16.6%), Catalase (-21.5%), GST (-13.72%), GPX (-19.16%), GR (-44.97%) activities and Glutathione (-23%) content in NaF treated group were decreased significantly compared to controls, which were significantly (p<0.01) recovered in selenium+NaF group. Increased XOD (10.85%) and LPO (8.61%) levels observed in brain of NaF treated mice were reversed with selenium treatment. Glucose-6-phosphate dehydrogenase (-46.98%), ALAT (-10.44%), AAT (-10.21%), CPK (-27.98%) were decreased and alkaline phosphatase (10.6%), acid phosphatase (24.09%) increased in brain of mice after administration of NaF. All metabolic enzymes were significantly (p<0.01) reversed after administration of selenium to the NaF treated group. Thus, the adverse effects of NaF on oxidative and metabolic enzymes of brain were reversible with ameliorative action of selenium supplementation. As evident in this study, the antioxidative nature of selenium coupled with its reversal effect on metabolic enzymes in brain of mice treated with fluoride suggests its use as antidote agent against fluorosis.

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