- *Corresponding Author:
- S. Sahoo
University Department of Pharmaceutical Sciences, Utkal University, Bhubaneswar-751 004, India
E-mail: sabujbiotech@rediffmail.com
| Date of Submission | 25 October 2007 |
| Date of Decision | 28 March 2008 |
| Date of Acceptance | 18 October 2008 |
| Indian J Pharm Sci, 2008, 70 (5): 677-679 |
Abstract
Barringtonia acutangula (L.) Gaertn belonging to family Barringtoniaceae was investigated to evaluate In vitro antibacterial activity of aqueous, ethanolic, petroleum ether and chloroform extracts against Staphylococcus aureus , Pseudomonas aeruginosa, Klebsiella pneumoniae, Enterococcus faecalis and Escherichia coli the major urinary tract infection causing pathogens were tested by disc diffusion assay method and the minimum inhibitory concentration was evaluated. Ethanol (95%) extract exhibited broader spectrum of inhibition followed by chloroform, petroleum ether and aqueous extracts against the urinary tract pathogens under test. An attempt has been made to compare the activity of extracts with standard antibiotics against selected urinary tract infection causing pathogens.
Keywords
Barringtonia acutangula, antibacterial activity, UTI pathogens, minimum inhibitory concentration
Barringtonia acutangula (L.) Gaertn belonging to family Barringtoniaceae is a medium size glabrous tree found throughout India in decidous and evergreen forests, mostly along the bank of rivers and streams [1]. It is used in the folklore in vitiated conditions of kapha and pitta, leprosy, arthralgia, dysmenorrhea, plumbago, skin diseases, diarrhea, inflammation, flatulence, hemorrhoids, as an anthelmintic [2]. The plant has been reported to have antiimplantation activity in female albino rats [3]. In Ayurveda, its preparations include powder and pastes. The present study is intended to determine the antibacterial activity of the plant against selected urinary tract pathogens by disc diffusion assay [4,5].
The plant material (twig) was collected from Keonjhar district of Orissa and authentificated by the taxonomist of Department of Botany, Utkal University, Bhubaneswar. One voucher specimen (No. UDB/B-912) was deposited in the herbarium of the department for future reference. After authentifi cation the seeds were collected in bulk, shade dried for 2 d and then dried in the hot air oven at 500 for 12 h. Dried seeds were pulverized by a mechanical grinder and the coarse powder obtained was taken for extraction in petroleum ether followed by chloroform, ethanol (95%) and water by using Soxhlet assembly for 48 h each. The extracts were dried under reduced pressure and the percentage of yield was calculated on the dried weight of extract. The in vitro screening for antimicrobial was carried out using selected urinary tract infection (UTI) causing pathogens which includes two gram positive bacteria (Staphylococcus aureus and Enterococcus faecalis) and three gram negative bacteria (Escherichia coli, Pseudomonas aeruginosa and Klebsiella pneumoniae). Five strains each of the 5 UTI causing bacterial species were used in this study were obtained from Post Graduate Department of Microbiology, Orissa University of Agriculture and Technology, Bhubaneswar, Orissa. The antibacterial screening of the extracts were carried out by determining the zone of inhibition using disc diffusion method [4,5]. The extracts dissolved in dimethylformamide (DMF) at a concentration of 50 mg/ml and finally sterilized by filtration using 0.45 μm Millipore filters. The sterile discs (6 mm in diameter) were impregnated with 2.5 and 20 μl of above extract solution to achieve desired concentration of 125 and 1000 μg/disc and placed in inoculated agar. The density of the bacterial suspension was standardized by standard McFarland method [6]. Amoxicillin+clavulinic acid (AC) (20+10) (30 μg/disc) and ciprofloxacin (CF) (25 μg/disc) were used as standards. The inoculated plates with the test and standard discs on them were incubated at 370 for 24 h. The zone of inhibition of different extracts and standard drugs by disc diffusion method and an attempt has also been made to compare the antibacterial activity of B. acutangula extracts with the potent standards effective against the selective UTI pathogens is given in Table 1. The minimum inhibitory concentrations (MIC) of the extracts were determined by using two fold serial dilution assay [7] for the microorganisms which were determined sensitive to various extracts of B. acutangula in disc diffusion assay. The petroleum ether, chloroform, ethanolic and aqueous extracts were dissolved in mixture of 6% DMF and then diluted to the highest concentration (1000 μg/ml) subsequently two fold serial dilutions were made in a concentration range from 7.8-1000 μg/ml. MIC values of the extracts against UTI pathogens were determined with some modifi cations. The dilutions were performed by dispensing into each tube 1 ml of nutrient broth and 1ml of each extract to achieve concentration of 1000 μg/ml and then serially diluted. Fifty microlitres of freshly prepared inoculum was then added to all the tubes including control and incubated at 370 for determination of MIC. The MIC values of the extracts were determined by two fold serial dilution assay are given in Table 2.
| Org. | Extract Conc. (μg/disc) | Zone of Inhibition (in mm)* | ||||||
|---|---|---|---|---|---|---|---|---|
| PE | CH | ET | AQ | CF | AC | |||
| 1 | A | 18.3±0.50 | 21.2±0.55 | 22.4±0.55 | 17.2±0.65 | 25.3±0.15 | 25.3±0.35 | |
| B | 11.4±0.45 | 18.3±0.50 | 21.3±0.65 | 11.9±0.5 | ||||
| 2 | A | 17.2±0.7 | 16.8±0.45 | 17.5±0.4 | 19.8±0.90 | 26.4±0.45 | 12.0±0.40 | |
| B | 12.8±0.90 | 11.7±0.55 | 14.4±0.66 | 10.5±0.66 | ||||
| 3 | A | 18.5±0.66 | 19.3±0.65 | 17.1±0.70 | 11.7±0.55 | 25.4±0.35 | 17.1±0.36 | |
| B | 13.5±0.65 | 17.4±0.70 | 13.8±0.70 | 9.4±0.55 | ||||
| 4 | A | 18.3±0.55 | 17.2±0.70 | 23.5±0.75 | 17.2±0.6 | 26.4±0.45 | 10.7±0.70 | |
| B | 12.3±0.80 | 16.6±0.90 | 17.2±0.60 | 12.4±0.65 | ||||
| 5 | A | 13.5±0.75 | 12.5±0.66 | 19.2±0.75 | 19.3±0.75 | 28.0±0.15 | - | |
| B | 10.1±0.45 | 12±0.70 | 16.5±0.7 | 13.4±0.60 | ||||
- Indicates no zone of inhibition. A and B indicates the concentrations of the extracts at 1000 and 125 μg/disc, respectively. Org-organisms 1. Staphylococcus aureus; 2. Pseudomonas aeruginosa; 3. Klebsiella pneumoniae; 4. Enterococcus faecalis; 5. Escherichia coli; PE, CH, ET and AQ stands for petroleum, chloroform ether, ethanol (95%) and aqueous extracts, respectively. CF and AC stand for ciprofloxacin 25 μg/disc and amoxycillin+clavulinic acid (20+10) μg/disc, respectively. *All the values are meanstandard deviation of three determinations
Table 1: In Vitro Antibacterial Activity of Barringtonia Acutangula Extracts against Urinary Tract Pathogens by Disc Diffusion Method
| Microorganisms | MIC | |||
|---|---|---|---|---|
| Pet ether | Chloroform | Ethanol | Aqueous | |
| S. aureus | 250 | 62.5 | 62.5 | 500 |
| P. aeruginosa | 250 | 250 | 125 | 250 |
| K. pneumoniae | 500 | 125 | 250 | 1000 |
| E. faecalis | 250 | 125 | 62.5 | 250 |
| E. coli | 500 | 500 | 125 | 250 |
MIC is minimum inhibitory concentration in g/ml.
Table 2: The mic values of extracts against the micro organisms tested by two fold serial dilution assay.
All extracts of B. acutangula at 1000 μg/disc showed optimum activity against all tested UTI pathogens. However, results of disc diffusion method as indicated in Table 1 revealed that ethanolic extract showed highest activity followed by chloroform, petroleum ether and aqueous extracts against the UTI pathogens under test. Ethanol extract showed highest inhibition (23.5±0.75 mm) and lowest (17.1±0.70 mm) against E. faecalis and K. pneumoniae at 1000 and 125 μg/ disc, respectively. Chloroform extract showed highest inhibition (21.2±0.55 mm) and lowest (11.7±0.55 mm) against S. aureus and P. aeruginosa at 1000 and 125 μg/disc, respectively. Petroleum ether showed highest inhibition (18.5±0.66 mm) and lowest (10.1±0.45 mm) against K. pneumoniae and E. coli at 1000 and 125 μg/disc, respectively. Aqueous extract showed highest inhibition (19.8±0.90 mm) and lowest (9.4±0.55 mm) against P. aeruginosa and K. pneumoniae at 1000 and 125 μg/disc, respectively. The zone of inhibition exhibited by the extracts of B. acutangula at 1000 μg/disc exhibited comparatively equivalent activity to that of standards CF 25 μg/disc and AC (20+10) μg/ disc. MIC of B. acutangula extracts against the tested UTI pathogens as indicated in Table 2 showed that ethanol and chloroform extracts inhibited microbial growth at comparative lesser concentration to that of petroleum ether and aqueous extracts. Further studies aimed at isolation and characterization of active phytoconstituents from extracts with antibacterial potential.
Acknowledgements
The authors are thankful to AICTE for sanction of RPS project. The authors are thankful to HOD, U. D. P. S., Utkal University and Director RRL, Bhubaneswar for providing research facility.
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