Antidiabetic and Free Radicals Scavenging Potential of Euphorbia hirta Flower Extract

The present study was carried out to evaluate antidiabetic and in vitro free radicals scavenging effects of flower extract of Euphorbia hirta. The ethanolic and petroleum ether extracts (250 and 500 mg/kg) were orally tested for 21 days in alloxan induced diabetic mice and blood glucose level was measured with glucometer. Administration of extract resulted in significant reduction in serum cholesterol, triglycerides, creatinine, urea, alkaline phosphatase levels but high density lipoprotein levels and total proteins were found to be increased after treatments. Free radicals scavenging effect of ethanolic extract was also evaluated by various antioxidant assays, including 1, 1-diphenyl-2-picryl hydrazyl free radical scavenging activity, superoxide anion radical scavenging, nitric oxide scavenging, and reducing power assay. It was compared with standard antioxidants compounds such as butylated hydroxyl anisole and ascorbic acid. All the extracts showed antioxidant activity in all the tested methods.

that went out of the scale in the Petri dish used.Therefore, a solution of much lower concentrations of 4 and 2 g/ml were chosen to overcome the difficulties.From the above results obtained in the experiment it is very clear that the synthetic organotin compound (TPTB) is almost 100 times less active than the standard drug ciprofloxacin.However, the synthetic compound may be useful for some other purposes where a mild active drug is required.The advantage of using organotin compounds is that they are biodegradable that ultimately result in the formation of a non-toxic SnO 2 (tin dioxide) compound when used for agricultural purposes.
Diabetes mellitus is a metabolic disease characterized by hyperglycemia resulting from defects in insulin secretion, insulin action, or both.It is well documented that chronic hyperglycemia of diabetes is associated with long-term damage, dysfunction, and eventually the failure of organs, especially the eyes, kidneys, nerves, heart, and blood vessels [1] .Synthetic antidiabetic agents can produce serious side effects and they are not suitable for use during pregnancy [2] .In view of the adverse effects associated with the synthetic drugs and as plants are safer, cheaper and much effective, conventional antidiabetic plants can be explored [3] .Furthermore, after the recommendation made by WHO on diabetes mellitus, investigations on hypoglycaemic agents from medicinal plants have become more important [4] .
Euphorbia hirta (Euphorbiaceae), commonly known as Dudhi is an annual hairy plant.It is abundant in waste places along the roadsides and open grasslands.It is native to India and Australia [5] .The E. hirta have been reported to contain alkaloids, saponins, fl avonoids, tannins phenolic acids and amino acids [6] .Traditionally, it is used in treatment of gastrointestinal disorders, bronchial and respiratory diseases, kidney stones, diabetes and in conjunctivitis.It also exhibits antipyretic, analgesic, antibacterial, anxiolytic, anthelmintic, antifertility, antispasmodic, antifungal, and antiinflammatory activities [7][8][9] .Our literature survey revealed that there is no experimental evidence of antidiabetic effect of the plant.Therefore, the present study has been planned to investigate how the ethanolic and petroleum ether fl ower extracts of E. hirta infl uences lipid parameters in alloxan induced diabetic mice.
All standard kits were purchased from Erba diagnostics Mannheim Gambh, Germany.Blood glucose level was measured using Elegance glucose meter (CT-X10) of Convergent Technologies, Germany.Alloxan was purchased from Loba Chemie pvt.Ltd.Mumbai, India.All other chemicals used in the study were of analytical grade.
Flowers of E. hirta were collected in the month of September-October, 2008 from campus of Kurukshetra University, Kurukshetra, India and were identifi ed at the Department of Botany, Kurukshetra University, Kurukshetra, India.A voucher specimen of the plant is preserved in the herbarium of the Faculty of Pharmaceutical Sciences, Kurukshetra University (No. IPS/KUK/E-1/2009).
The flowers were washed with water and dried in shade.The dried flowers were powdered by using dry grinder and passed through sieve.This powder was packed into soxhlet apparatus and extracted successively with petroleum ether (60-80 0 ) and ethanol (yield 26.83 and 24.74% respectively).All the extracts were dried at 45 0 in rotary evaporator to produce a semisolid mass and stored in airtight containers in refrigerator below 10 0 .
Albino mice of either sex, weighing about 30-35 g were used in the experiment.Animals were maintained under standard environmental conditions i.e. ambient temperature of 22±2 0 and at 45-55% relative humidity for 12 h, each of dark and light cycle and fed with a standard pellet mice diet obtained from Ashirwad Industries, Chandigarh, India and water was supplied ad libitum.All the studies were conducted in accordance with the Animal Ethical Committee of the University.
Mice were made diabetic by a single intraperitoneal injection of freshly prepared alloxan (150 mg/kg i.p.) in sterile saline.Twelve days after alloxan injection, animals shown blood glucose level >140 mg/dl were considered as diabetic and used for the study.In the experiment, mice were divided into seven groups of six mice each.
Group I (Normal healthy control) received only vehicle (Tween 80, 5% v/v).Group II (Diabetic control) received vehicle only.In group III and IV diabetic mice received petroleum ether fl ower extract 250 and 500 mg/kg respectively).In group V and VI diabetic mice received ethanol fl ower extract (250 and 500 mg/kg respectively).Group VII was treated with glibenclamide (10 mg/kg).
The mice were given extracts for 21 days once daily by oral route using an intragastric tube.Blood glucose levels were measured using blood glucose test strips with elegance glucometer (Frankenberg, Germany) at random on initial, seventh, fourteenth, and twenty fi rst day by taking blood samples from tail vein puncture under light ether anesthesia [10] .
After blood glucose estimation on day 21, whole blood was collected by cardiac puncture under mild ether anesthesia from mice.Serum cholesterol, triglycerides, HDL, VLDL and LDL were also evaluated in normal and alloxan induced diabetic mice.The total cholesterol is measured using diagnostic kits, Boehringer Mannheim, Germany.Total cholesterol and triglycerides were determined by the method of Rifai et al. [11] HDL was measured by the method of Burstein et al. [12] The VLDL cholesterol was calculated using the formula (TG/5) mg/dl.The serum LDL cholesterol was estimated by the method of Friedwald et al. [13] Serum creatinine, urea, alkaline phosphatase and total proteins levels were also evaluated in normal and alloxan induces diabetic mice.Serum urea and creatinine were assayed by the method of Tomas, [14,15] .Total proteins [16] and alkaline phosphatase were assayed by the method of Wilkinson et al. [17] Antioxidant activity of E. hirta (ethanolic flower extract) was evaluated by following methods: DPPH free radical scavenging activity [18] , superoxide radical scavenging assay [19,20] , nitric oxide scavenging activity [21] , and reducing power assay [22] .
All the values of body weight, blood glucose and biochemical estimations were expressed as mean±standard error of mean (SEM) and comparison between the groups was made by student t-test.A valve of p < 0.001 was considered signifi cant.
Antidiabetic effect of the extracts on the blood glucose levels of diabetic mice is shown in Table 1.Daily treatment of fl ower extracts for three weeks led to a dose dependent fall in blood glucose levels.Maximum effect seems to reach after 15 days of treatment and remains constant in third week.Administration of alloxan led to elevation of blood glucose levels, which was maintained over a period of three weeks.
As shown both extracts induced signifi cant (p<0.001)antidiabetic effects in dose-dependent fashion when compared to the control group.
After 21 days, serum lipid profi le was measured and it was found that serum cholesterol and triglyceride levels were decreased (p<0.01) by both the extracts and glibenclamide as compared to diabetic control but HDL level was found to be increased after treatments (Table 2).Other biochemical parameters such as serum creatinine, urea and alkaline phosphatase levels were found to be decreased whereas total proteins were found to be increased after treatments (Table 3).
Normal healthy control was found to be stable in their body weight but diabetic mice showed reduction in the body weight.In this study, the decrease of body weights was diminished by the extract treatments after 14 days of treatment (Table 4).
Both extracts of fl ower of E. hirta have signifi cant antioxidant activity compared to other well characterized, standard antioxidant systems.Free radical scavenging potential was assessed against DPPH.The scavenging effect of alcoholic extract on the DPPH radical was 50.2%, at a concentration of 250 μg/ml.The reductive capabilities of extract were compared with ascorbic acid and BHA.The extract showed dose dependent reducing power.In the nitric oxide scavenging study, crude extract was checked for its inhibitory effect on nitric oxide production.The percentage inhibition of superoxide generation by 250 μg/ml concentration of extract was measured as 66.12%.The antioxidant activity of extract and standard compounds were compared by using specifi c in vitro methods (Table 5).
Traditional plant medicines are used throughout the world for treatment of various diseases and disorders.Worldwide, over 1200 species of plants have been recorded as traditional medicine for diabetes.Herbal drugs are prescribed widely because of their effectiveness, less side effects and relatively low cost [23] .Therefore, investigation on such agents from traditional medicinal plants has become more important.
Euphorbia prostrata, the plant of same genus has been reported to have hypoglycemic effect [24] .Keeping in view of this and traditional uses, the ethanolic and petroleum ether extracts of E. hirta fl owers were investigated for its antidiabetic activity and long-term effects on the body weights.Signifi cant reduction of   The repeated administration of Euphorbia hirta extract for a period of 21 days resulted in a significant decrease in lipid parameter levels of various tissues when compared to the diabetic control.It is not known whether E. hirta has a direct effect on lipids or the present hypolipidemia is achieved due to controlled hyperglycemia.
Different studies have shown that Diabetes mellitus is associated with the increased formation of free radicals and decrease in antioxidant potential.In both insulin dependent and insulin independent diabetes, there is increased oxidative stress [25] .So, free radical scavenging and antioxidant effect may be responsible for its antidiabetic effect.It is possible that extract exert its effect by causing hypoglycemia.The exact mechanism of antidiabetic activity is still unclear but it may be due antioxidant and free radical scavenging effect of the plant and presence of fl avanoids, tannins and other phenolic compounds in the extracts.
Thus, our study shows that oral administration of E. hirta fl ower extracts in alloxan diabetic mice showed antidiabetic effects.The extracts also exhibit in vitro antioxidative effect.Further phytochemical and pharmacological investigations are needed to isolate and identify the active constituents responsible for the activity.

TABLE 2 : EFFECT OF CHRONIC EXPOSURE TO E. HIRTA EXTRACTS ON LIPID PROFILE
Values are expressed as mg/dl, Each value is the mean±SEM of 6 mice in each group, *p<0.01

TABLE 5 : ANTIOXIDANT PROFILE OF E. HIRTA FLOWER EXTRACT
a Increased absorbance indicates increased reducing power All values represent Mean±SEM,* p<0.01