Ethnobotanical Leaflets 14: 593-98. 2010.
Foliar Epidermal Morphology and Anti-diabetic Property of Andrographis paniculata (Burm. f.)Wall ex. Nees
*T. R. Fasolaa , A. E. Ayodelea, A. A. Odetolab, and N. E. Umotoka
a Department of
Botany and Microbiology, Faculty of Science,
b Department of Biochemistry, Faculty of Basic Medical Sciences, College of Medicine, University of Ibadan, Ibadan, Ibadan
The leaf epidermal features and anti diabetic property of Androgragphis paniculata were investigated. The epidermal cells are polygonal to irregular with curved to undulate anticlinal walls on both surfaces of the leaf. The leaf is hypostomatic with stomata restricted to the abaxial surface. Stomata type is axillocytic. The epidermal cells contain deposits of crystal oxalates while cystoliths are found in a few cells. The leaf extract was evaluated for hypoglycemic effects. There was significant hypoglycemic effect in alloxan induced diabetic rats following administration of the leaf aqueous extract. The result shows that the level of fasting blood sugar was dependent on the previous level of basal blood sugar in the four groups of rats used for this study. Treatment of the rats with A. paniculata showed a dose dependent relationship with the time it took for the blood of the rats to return to the basal blood sugar levels. The study supports the use of the plant in the management and treatment of diabetes.
Key words: Andrographis paniculata; diabetes mellitus, antidiabetic properties, foliar epidermis.
paniculata (Burm.f.)Wall ex Nees is a small
herbaceous plant of about 30-60m high. It is a member of the family
Acanthaceae. A. paniculata is a
The plant is known to be beneficial following extracorporeal shock lithotripsy [Muangman et al., 1995]. The leaf extract of A. paniculata possesses antiplatelet aggregation [Amroyan et al., 1999], antifertility effect [Zoha et al., 1989] and uterus relaxation [Burgos et al., 2001].The main bioactive component of the plant is known to be a labdane diterpenoid called Andrographolide (Coon and Ernst, 2004). This study was undertaken to obtain information on the epidermal features of the leaf and to assess the hypoglycemic effect of A. paniculata leaf extract based on ancient reports of this property.
Materials and Methods
Samples of A. paniculata were collected from Kabba, Kabba Local Government
Fresh leaves were obtained from the
nursery of the Department of Botany and Microbiology,
Preparation of the extract
Leaves of Andrographis paniculata were collected early in the morning at about . These were air dried at room temperature and later ground into powder form with the aid of an industrial blender. An aqueous extract was obtained by soaking 1g of the powdered leaves in 100ml of distilled water to produce 10mg/ml of aqueous extract.
Thirty healthy Wistar rats (175-250g)
maintained under normal or standard conditions were obtained from the animal
house, Department of Veterinary Physiology, Faculty of Veterinary Medicine,
Induction of diabetes mellitus in the rats with intramuscular alloxan.
Ten percent alloxan dissolved in physiological saline was used to induce diabetes mellitus in the rats. Ten grammes of fresh sample of alloxan was weighed on a Mettler’s balance and dissolved in 100ml of 0.15M physiological saline solutions to produce 10% alloxan. The dose administered was a standard dose of 100mg/kg weight of the rats. The exact volume of the drug administered was obtained using the general formula.
Volume to be administered = Weight of animal (g) x Dose of drug (mg/kg)
1000 x Concentration of drug (mg/ml)
The rats were divided into six treatment groups of five rats per group. The first four groups of rats were given intramuscular injection of 100mg/kg alloxan and Fasting Blood Sugar (FBS) was checked after 48 hours. The rats with fasting blood sugar between 100 – 500mg/dl were considered to be diabetic.
Effect of plant extract on the diabetic rats
The diabetic rats in each of the four groups were subsequently treated with different doses of (50mg/kg, 100mg/kg, 200mg/kg and 400mg/kg) of the plant extract twice daily for two weeks. This was administered orally with the use of oral canula. The fasting blood sugar was checked every two days by cutting a bit of the rats’ tails for a drop of blood and dropping the blood on a specified space on the glucometer and the reading was recorded. The fifth group (nondiabetic, not injected with alloxan had 400mg/kg of A. paniculata administered into them and the fasting blood sugar was recorded every two days for two weeks. The sixth group (control group) was fed with only feeds with clean water daily and their fasting blood sugar observed every two days and compared with the fasting blood sugar of the fifth group.
The results are expressed as MEAN±SEM. The student’s t test was used to determine the significance of difference between control and treated groups. The level of significance was taken as p < 0.05.
Results and Discussion
The results of this study are
summarized in Figures 1- 3 and Tables 1-3. Figure 1 shows the habit A. paniculata as grown in the nursery
of the Department of Botany and Microbiology,
Table 1 shows the mean basal blood sugar levels of the four groups of rats and the mean fasting blood sugar levels after two days as a result of the induction of diabetes mellitus by intramuscular administration of alloxan. The result shows that the level of fasting blood sugar was dependent on the previous level of basal blood sugar in the four groups of rats. Treatment of the rats with A. paniculata showed a dose dependent relationship with the time it took for the blood of the rats to return to the basal blood sugar levels (Table 2). The maximum time was observed in Group 1 rats (i.e. those treated with 50mg/kg) which was more than 14 days. This was followed by Groups 2 and 3 (100 and 200mg/kg respectively). The shortest time of treatment was observed in the Group 4, those treated with the highest dose (400mg/kg).
The administration of A. paniculata in normal rats showed that at the end of the two weeks, the mean fasting blood sugar had reduced from 51.4mg/dl to 42.0mg/dl (Table 3). In summary, the results of this study support the hypoglycemic properties of Andrographis paniculata as well as confirm the blood sugar reducing.
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Table 1. The mean values of Fasting Blood Sugar (mg/dl) of the four groups of rats after injection of alloxan.
Table 2. The effects of administration of different doses of different doses of A. paniculata in various groups of diabetic rats on mean values of Fasting Blood Sugar (mg/dl) taken on alternate days.
Alternate days that Fasting Blood Sugar levels were taken.
Table 3. The mean values of Fasting Blood Sugar (mg/dl) of Group 5 rats and Group 6 (Control group) rats taken on alternate days.
Alternate days that Fasting Blood Sugar levels were taken.
Fig. 2: Adaxial epidermal surface of A. paniculata.