EVALUATION OF THE ACTIVITY AND TOXICITY OF PATIKAN KEBO HERB (EUPHORBIA HIRTA L.) AS AN INDONESIAN MEDICINAL PLANT
Plants used as medicine contain pharmacologically active compounds, as well as toxic compounds. In order to fulfill the plant-based-medicine criteria, which comprises characteristic, efficacy and safety; the toxic compounds must be separated from the pharmacologically active compounds. The correl...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/45686 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Plants used as medicine contain pharmacologically active compounds, as well as
toxic compounds. In order to fulfill the plant-based-medicine criteria, which
comprises characteristic, efficacy and safety; the toxic compounds must be
separated from the pharmacologically active compounds. The correlation between
dose and response is also our concern in giving the plant-based-medicine.
Euphorbia hirta L. (patikan kebo) is used as traditional plant-based medicine with
various activity, such as leaves infuse is used as expectorant for bronchitis and
asthma, its ground fruit is given to children as laxative and the root infuse is used
to cure headache because of sunburnt.
Euphorbia hirta L. herb was extracted by ethanol 70%, and then was evaporated
and then continued by the successively liquid-liquid extraction by n-hexane,
chloroform, ethyl acetate, n-butanol. The biology activity of each fraction was
tested by the pharmacological test guidance.
Bioactivity test by Brine Shrimp Lethality Test method was used as the early research guidance. From the test, it was grouped into biologically active and might
have pharmacological activity group and fractions that marked cytotoxic activity
group as the guidance. It was demonstrated that the ethanolic extract; ethyl
acetate, n-butanol and water fractions are the pharmacologically active extract and
fractions based on the Brine Shrimp Lethality Test, in which the value of LC50
ranged between 30 and 1,000 ppm, that are 163.9; 39.9; 40.7; 58.7 ppm
respectively. The pharmacologically active extract and fractions were then
evaluated for their antioxidant and anticiabetic activity. The cytotoxic fractions
based on Brine Shrimp Lethality Test, n-hexane and chloroform fraction with the
value of LC50 under 30 ppm, that are 8.2 ppm dan 8.8 ppm respectively, was
continued to test against Raji cell (Burkitt’s Lymphoma) by MTT (3-[4,5-
Dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide) assay.
In Indian medicine, Euphorbia hirta L. has been proven as a potential nature
antioxidant. Therefore, the author evaluated the extract and fractions of Euphorbia
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hirta L. herb as promising source in health, food and cosmetic industry. In the
pharmacological test, ethanolic extract and ethyl acetate fraction had almost
similar activity with ascorbic acid at 5 ppm by DPPH method (in vitro). Towards
the extract and fraction having highest antioxidant activity in vitro, in vitro
antidiabetic activity test (.-glucosidase inhibition) was carried out. It was
demonstrated that in the test, the ethanolic extract and ethyl acetate fraction had
the IC50 values of 7.97 ± 0.37 µg/ml and 16.14 ± 4.45 µg/ml. This result is the
most closest value to 1-deoxynojirimycin as the reference compound, therefore it
was continued to the oral glucose tolerance test using various loading
(polysaccharides, disaccharide and monosaccharide) to prove their in vivo activity.
Meanwhile, n-hexane and water fractions did not inhibit .-glucosidase as the IC50
values were above 25 µg/ml, that are 29.82 ± 3.4 and 28.07 ± 4.62 µg/ml
respectively.
The active compound isolation of the pharmacologically active ethyl acetate
fraction was carried out by column chromatograhy using Sephadex LH-20 as the
stationary phase and methanol:water in gradient as mobile phase. The result of the
thin layer chromatography was grouped based on the similarity of the thin layer
chromatography profile. AU subfraction was eluted further with methanol:water
50:50 and AU176 isolate was obtained, which after structure elucidation was
known as quercitrin.
The antidiabetes test in vivo by oral ”glucose tolerance” test was carried out
subsequently using various carbohydrate loading, starting from amilum 5g/kg of
bw, maltose and sucrose 3 g/kg of bw and glucose 2 g/kg of bw. The ”glucose
tolerance” test with amylum loading showed that the blood glucose level of mice
given with acarbose and ethanolic extract of 0.57 and 0.285 mg/kg of bw differed
significantly (p<0.05) to control and their curve of blood glucose evolution were
under the control curve, which means that the ethanolic extract has the inhibition
towards amylum. The result of the oral ”glucose tolerance” test with maltose and
sucrose loading, indicated that acarbose and all the dose of the ethanolic extract
and ethyl acetate fraction showed antidiabetic activity and the curve of blood
glucose evolution was under the control curve. This result indicated that the tested
extract and fraction affected the carbohydrate metabolism and potential to be
researched further as antidiabetes medicine. The direction of the regression curve
describes the speed of the tested materials to decrease the blood glucose level to
normal after the carbohydrate loading. On the other hand, the result of the glucose
tolerance test with glucose 2 mg/kg of bw loading demonstrated that only
metformin 130 mg/kg of bw, as reference compound, which decreased the blood
glucose level to normal faster than the others. From the result, it is shown that the
action mechanism of the ethanolic extract and ethyl acetate fraction of Euphorbia
hirta L. were predicted to be similar to acarbose action mechanism, which reduce
intestinal absorption of starch, dextrin, and disaccharides by inhibiting the action
of intestinal brush border .-glucosidase, compared to metformin, which reduce
the absorption of glucose from intestine.
Therefore, the inhibition mechanism of a drug to carbohydrate could be
determined by conducting oral glucose tolerance test with various loading, starting
from polysaccharide, disaccharide and monosaccharide. From the oral ”glucose
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tolerance” test with various carbohydrate loading, it could be concluded that the
inhibition of Euphorbia hirta L. herb, especially ethanolic extract and ethyl
acetate fraction is due to the inhibition of the change of maltose and sucrose to
glucose as they demonstrated very less effect of inhibiting glucose absorption to
blood, which is confirmed by the glucose tolerance test. While the quercitrin (in
vitro .-glucosidase inhibitor IC50 value of 65.38 ± 0.17 µg/ml) contained in the
ethyl acetate fraction is an aldose reductase inhibitor.
The cytotoxic fractions, n-hexane and chloroform, were tested their cytotoxicity
towards Raji cells (Burkitt’s Lymphoma) using MTT assay. The chloroform
fraction has no cytotoxic activity against Raji cells as the IC50 values was 40.32
µg/ml. Although the n-hexane fraction was known as cytotoxic fraction in the
Brine Shrimp Lethality Test, it was not cytotoxic to Raji cells, due to the IC50
value was above 100 µg/ml, that was 228.97 µg/ml.This might be due to the
specifity of the n-hexane fraction, which might be cytotoxic to other cancer cell
line, for example myeloma, breast cancer, or colon cancer. From the result, it was
known that the cytotoxicy result in Brine Shrimp Lethality Test, was not always
cytotoxicity when tested on the cancer cell and vice versa.
In the acute toxicity test, it was demonstrated that the ethanolic extract was
practically not toxic as the LD50 value was above 5,000 mg/kg of bw. Meanwhile,
the ethyl acetate fraction in female mice had the LD50 value of around 4,808 g/kg
of bw and in male mice had the LD50 value of 5,000 mg/kg of bw. This showed a
difference of safety of the fraction use in different sex.
Contributions of the experiment towards the pharmacy knowledge are the
approach of scientific-based of the Euphorbia hirta L. herb usage, by Brine
Shrimp Lethality Test method was divided into 2 groups, biologically active and
might have pharmacological activity group and those of marked cytotoxicity
group which is prospective as cytotoxic agent. The evaluation of antidiabetic
mechanism of the ethanolic extract and ethyl acetate fractions in this experiment
could be shown by giving various carbohydrate, including polysaccharides
(amylum), disccharides (maltose and sucrose) and monosaccharide (glucose) in
oral ”glucose tolerance” test in vivo, in this research, it was shown that the
antidiabetic activity of the ethanolic extract and ethyl acetate fraction inhibited the
breakdown of disaccharides to glucose. The acute toxixity test of the ethyl acetate
fraction showing antidiabetic activity in female mice had the LD50 value of around
4,808 mg/kg of bw (a little bit toxic) and in male mice had the LD50 value of
5,000 mg/kg of bw (practically not toxic).
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