Mar 01, 2015 Tekan Link yang bertuliskan: '>>>Farmakope Indonesia Edisi V' yang linknya berwarna oren di bawah foto buku dan penjelasannya. Setelah ditekan linknya, akan muncul halaman di www.4shared.com, dihalaman itu, carilah Tombol 'Unduh'. Download Gratis Farmakope Indonesia edisi V Filetype PDF. Regulation of herbal medicine. In the standardization of herbal medicine. Farmakope Herbal Indonesia & Supplements, 2008, 2010.
Backgrounds: Justicia gendarussa Burm.f. Has been known to have anti-HIV activity. This study was conducted to evaluate the effect of incubation time on the antiviral activity of the J.
Gendarussa leaves extract on HIV-infected MT-4 cells in vitro. Molecular docking test was also conducted to determine the interaction of alkaloids and flavonoids on the J. Gendarussa leaves against HIV-1 reverse transcriptase receptor. It is expected that this research will provide scientific information on the development of J. Gendarussa leaves as an anti-HIV drug. Materials and Methods: In the activity test, the effect of incubation time on the antiviral activity of J. Gendarussa leaves on HIV-infected MT-4 cells were evaluated.
During the activity test, a parameter of cytolysis effect inhibition on MT-4 cell line was observed after 4 days and 6 days incubation period. The molecular docking test is performed by using Molegro Virtual Docker software to determine the interaction of alkaloid and flavonoid compounds of J. Gendarussa leaves with HIV-1 reverse transcriptase receptor. Introduction Human Immunodeficiency Virus (HIV) is a retrovirus that infects the human immune system. HIV damages the human immune system by destroying T lymphocyte cell (a type of leukocyte). On the T lymphocyte cell surface, there is cluster of differentiation 4(CD4) receptor.
When a number of T-CD4 lymphocyte cells are low then a person more susceptible to be infected (Pattman et al., 2005). The immune system will break down slowly over the increasing number of viruses (viral load) in the body (Naif, 2013). The final stage of HIV infection is AIDS, a condition when CD4 level decrease to very low level (typically.
Plant Materials and Extraction Procedure Leaves of J. Gendarussa were obtained from a cultivated crop in Pacet, Mojokerto, East Java province, Indonesia. This plant was identified by the Department of Pharmacognosy and Phytochemistry, Faculty of Pharmacy, Airlangga University under the voucher number 18/H3.1.5/DT/2012. Simplicia powder of J.
Gendarussa leaves was divided into two groups: acidified leaves powder to release alkaloids and non-acidified leaves powder. Both the powder was extracted using 70% ethanol for 3x24 hours in a macerator device, and then the resulting filtrate were concentrated using a rotary evaporator. The extract is dried at 50°C a temperature of to obtain a 70% ethanol extract (17.4% w/w) and fractionated-70% ethanol extract (6.4% w/w) of J. Gendarussa leaves. Water extract of leaves of J.
Gendarussa is made by blending fresh J. Gendarussa leaves in cold water. Then the resulted filtrate was collected and was dried using the freeze-dry method to obtain water extracts (1.8% w/w) of J. Gendarussa leaves. Alkaloid and Flavonoid Screening of J.
Gendarussa Leaves Extract Alkaloid screening of 70% ethanol extract, fractionated-70% ethanol extract and water extract of J. Gendarussa leaves be performed using a TLC GF254 plate with mobile phase chloroform: methanol (9:1). Here, Dragendorf reagent is used to reveal stains. Results test is said to be alkaloid positive if there are orange stains. Flavonoid screening of 70% ethanol extract, fractionated-70% ethanol extract and water extract of J. Gendarussa leaves be performed by using the immobile phase of TLC GF254 with a mobile phase of butanol: glacial acetic acid: water (4:1:5).
Here, borate citric is used to reveal stains. Results test is said to be flavonoid acid if there are yellow-green fluorescence stains using UV 366 nm (Indonesia, 2008). Reagents and Chemicals Zidovudine-Lamivudine (ZDV/3TC) (Duviral ®), 2 µm nitrocellulose membrane filter (Whatman), sterile water for injection, and aquadest were obtained from CRS-EIRD, Institute of Tropical Disease, Surabaya, Indonesia. RPMI-1640 medium and Fetal Bovine Serum (FBS) were purchased from Gibco. Natrium bicarbonate and 70% ethanol pharmaceutical grade were purchased from Merck. WST-1 was purchased from Roche. Dimethyl sulfoxide (DMSO) was purchased from Sigma.
Cells and Viruses The MT-4 cells (human T- cell leukemia line) were obtained from the Institute of Tropical Disease (ITD) laboratory, Airlangga University, Surabaya, Indonesia. MT-4 cells were cultured in RPMI-1640 media and were equipped with 10% FBS.
The MT-4 cells were maintained in T 25 CCF at 37 °C temperature in a 5% CO 2 incubator. HIV isolates from a seropositive HIV donor that labeled IDU-18 obtained from ITD laboratory, Airlangga University, Surabaya, Indonesia. HIV cultured on the MT-4 cell in RPMI-1640 medium completed with FBS 10%. MT-4/HIV cell kept in CCF T 25 at 37 °C in CO 2 5% incubator.
Cytotoxicity Test The cytotoxicity test was performed by a colorimetric method using WST-1 (Kangro and Mahy, 1996; Zhang et al., 2012). 50 µl MT-4 cells in a 96- well microplate (2 x 10 5 cells/well) in the absence or presence of various concentrations of J. Gendarussa leaves extracts were incubated for 4 days and 6 days at 37°C temperatures in a 5% CO 2 incubator. Then 10 µl WST-1 was added to each well and was incubated for 2 hours at 37 ° C temperature in a 5% CO 2 incubator.
ZDV/3TC was used as a positive control. The absorbance was measured at 450 nm wavelength using a microplate absorbance reader. Cytolysis Effect Inhibitory Test The cytolysis effect inhibitory test was performed by a colorimetric method using WST-1 (Kangro and Mahy, 1996; Zhang et al., 2012). MT-4 cells (2 x 10 5 cells/well) were infected with HIV in the absence or presence of various concentrations of J.
Gendarussa leaves extracts were incubated for 4 days and 6 days at 37°C temperatures in a 5% CO 2 incubator. Then 10 µl WST-1 was added to each well and was incubated for 2 hours at a 37°C temperature in a 5% CO 2 incubator. ZDV/3TC was used as a positive control. The absorbance was measured at 450 nm wavelength using a microplate absorbance reader.
Molecular Docking Test The molecular docking test is performed to determine the interaction of an alkaloid and flavonoid compounds of J. Gendarussa leaves with HIV-1 reverse transcriptase receptor. The structure of the alkaloid and flavonoid compound is determined by ChemBioOffice Ultra version 12.0 software. The structure of the HIV-1 reverse transcriptase receptor is obtained from Protein Data Bank with 3V4I code.
Molecular docking analysis is performed by using Molegro Virtual Docker (MVD) version 5.0 software. From molecular docking test, it obtains the rerank score. Then the rerank score is used as activity prediction. (+) Detected; (-) Not Detected From the cytotoxicity test, it was found that incubation period affects cytotoxicity of J. Gendarussa leaves extract in MT-4 cells.
Increasing concentrations extracts of J. Gendarussa leaves could reduce MT-4 cells viability. The viability of MT-4 cells after 4 days incubation period and 6 days incubation period were shown in and respectively. The value of cell viability was used to determine 50% cytotoxicity concentration (CC 50) value for each test material. Probit regression analysis has calculated the value of CC 50. The probit regression analysis was performed by using Minitab software. The CC 50 value was presented in.
EA: 70% ethanol extract of J. Gendarussa leaves; FEA: fractionated-70% ethanol extract of J.
Gendarussa leaves; WE: Water extract of J. Gendarussa leaves; ZDV/3TC: Zidovudine-Lamivudine; SI: Selectivity Index= CC 50/EC 50. From cytolysis inhibition test, it was found that incubation time affects the anti-HIV activity of J. Gendarussa leaves extract on MT-4 cells ( and ). Increasing of ethanol extract concentration of J.
Gendarussa could affect the viability of MT-4 cells infected with HIV. Then, the percentage of the MT-4 cells viability was used to determine the 50% effective concentration (EC 50) value of each test material. Probit regression analysis has calculated the EC 50 value. The probit regression analysis was performed by using Minitab software.
The EC 50 value was presented in. Class Chemical Compound Amino Acid Rerank Score Tyr 115 Asp 113 Lys 65 NRTIs Zidovudine + + + -85.9473 Alkaloid 2(2Aminobenzylamino)methylbenzyl alcohol - + - -71.1579 2(2Aminobenzylamino)Omethylbenzyl alcohol -71.9826 2AminoOmethylbenzyl alcohol - + - -52.3556 2Aminobenzyl alcohol -48.7308 Justidrusamide AB -82.4664 Justidrusamide CD + -84.0718 Flavonoid Gendarusin A + -94.7381 Gendarusin B + + - -83.6573 Gendarusin C + - + -106.808 Gendarusin D -91.3127 Gendarusin E + -101.094. Discussion Cytotoxicity testing with incubation time variation was performed to determine the effect of incubation time against the cytotoxicity potential of J. Gendarussa leaves extract on MT-4 cells. Cytotoxicity testing was performed by a colorimetric method using a WST-1 test. The test was based on the reduction of the WST-1 by live cells produce soluble formazan (Rode, 2008).
The amount of formed formazan represents high cell viability, which is the numbers of active living cells metabolize WST-1 (Rampersad, 2012). Observation of cytotoxicity activity was performed by calculating the percentage of MT-4 cells viability. Then a regression equation between the percentage of cell viability and the logarithm of concentration was determined. The CC 50 value determined the amount of cytotoxicity activity of the extract.
The CC 50 value of an extract is the extract concentration of that able to decrease 50% of cell viability. In this study, cytotoxicity activity was observed on different days, namely on the fourth day and sixth day, because previous studies reported that incubation time differences caused a significant difference in CC 50 values (Kimura et al., 1999). From this study, there were differences of CC 50 value between the fourth and the sixth day, especially for the 70% ethanol extract and water extract of J.
Gendarussa leaves where the CC 50 was not toxic at the fourth day and then become more toxic in the sixth day. It is apparently due to the compound content of the extract. The presence of alkaloid compounds seems to give a major influence on cell death when it’s compared to the flavonoid compounds (Astuti et al., 2006). The influence of alkaloids against cell death could be identified from the results of 70% ethanol extract and water extract of J.
Gendarussa leaves , where on the sixth day of incubation almost of all concentrations causes the MT-4 cell viability less than 50%. Meanwhile, the results of fractionated-70% ethanol extract (free alkaloids) show the cell viability greater than 70% after 6 days incubation period. In the anti-HIV activity test, we used inhibitors of cytolysis effect of 70% ethanol, fractionated-70% ethanol extract and water extract of leaves J. Gendarussa against MT-4 cell cultures infected with HIV after 4 days and 6 days incubation period as a parameter of anti-HIV activity.
The results of the previous study stated that incubation of MT-4 cells with MOLT-4 / HTLV-IIIB (strains of HIV-1) for 4 days led to more than 95% cells contain viral antigen (Yang et al., 1996). Also, the incubation time difference caused a significant difference in EC 50 and CC 50 values (Kimura et al., 1999). Hence, 4 days and 6 days incubation period were chosen in this research.
This study found that 70% ethanol extract, fractionated-70% ethanol extract and water extract of J. Gendarussa leaves have an activity of cytolysis effect inhibiting on the MT4 cell with infected by HIV both at fourth day and sixth day incubation period. The EC 50 value of a test sample represents the concentration of the test sample which can inhibit 50% of viral replication in a cell-based testing. An extract is said to have anti-HIV activity when the extract has EC 50 below 100 μg/mL (Cos et al., 2006). From the EC 50 values, the fractionate-70% ethanol extract of J. Gendarussa leaves has anti-HIV activity by inhibiting the cytolysis effect on HIV-infected MT-4 cells with an EC 50 value below 100 μg/mL.
Meanwhile, 70% ethanol extract and water extract of J. Gendarussa leaves has lower anti-HIV activity since their EC 50 value is greater than 100 µg/mL. The CC 50 and EC 50 values could be used to determine the Selectivity Index (SI) of anti-HIV activity of J. Gendarussa leaves extract. The SI is used as a parameter which indicates toxicity of J. Gendarussa leaves extract to cell and virus.
The CC50 value should be greater than EC 50 value. It was found that SI of fractionated-70% ethanol extract much higher than the 70% ethanol extract and water extract of J. Gendarussa leaves. The greater SI, the greater potential of a test material as a drug (Kimura et al., 1999; Volberding, 2008). Molecular docking test results indicate that flavonoid compounds in J. Gendarussa leaves and Zidovudine bind same amino acids.
The rerank score of the flavonoid and Zidovudine are low. The rerank score of a compound represents its bond energy. Hence, the rerank score is used to predict the flavonoid and Zidovudine activity. Bond energy is the energy required for ligand binding to its receptor. The smaller the binding energy, more stable and easier a ligand binds its receptor will be. The more stable a ligand is binding a receptor, it could be predicted that the greater its activity will be higher (Thomsen and Christensen, 2006).
The results of this research showed that fractionated-70% ethanol extract of J. Gendarussa has potential as an anti-HIV. In future, J. Gendarussa could be used as a potential candidate for an anti-HIV drug.
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