Research Journal of Recent Sciences _________________________________________________ ISSN 2277-2502 Vol. 3(7), 28-33, July (2014) Res.J.Recent Sci. International Science Congress Association 28 Antibacterial activity of bark extracts of Terminalia arjuna (Roxb.) against Extended Spectrum -Lactamase producing multi drug resistant Bacteria from Urinary Tract InfectionsRameshkumar M.R., Jagadeesan M.G., Rajendran P. and Arunagirinathan N.1* Post Graduate and Research Department of Microbiology and Biotechnology, Presidency College (Autonomous), Chennai, Tamil Nadu, INDIA Madha Medical College and Hospital, Chennai-600 122, Tamil Nadu, INDIA Available online at: www.isca.in , www.isca.me Received 29th March 2014, revised 7th June 2014, accepted 26th June 2014Abstract Urinary tract infections (UTIs) are most common in both community and hospital settings and affect both male and females. The production of Extended Spectrum -Lactamases (ESBL) is an important mechanism for resistance to the 3rd generation cephalosporins in Enterobacteriaceae causing UTIs. Hence an attempt is made in this study to determine the effect of Terminalia arjuna(Roxb.) against UTIs by ESBL producing bacteria. A study was conducted on 94 bacterial isolates from 162 urine samples. ESBL production was identified by using Cefotaxime and Ceftazidime by Combination Disc Method (CDM). The antibacterial activity of the bark extract of Terminalia arjuna against ESBL producing bacteria was determined by Disc diffusion and Minimum Inhibitory Concentration (MIC). A total of52 isolates were identified as ESBL positive (26 were Escherichia coli, 15 Klebsiella pneumoniae, 8 Pseudomonas aeruginosa, 2 Proteus vulgaris and 1 was Enterobacter sp.).The results of antibacterial activity of bark extract of Terminalia arjuna(Roxb.) against ESBL producing isolates revealed that ethanol is showing the maximum antibacterial property followed by aqueous extract. From this study, it was found that Terminalia arjuna(Roxb.) has the potential for the production of drug for the treatment of UTIs caused by ESBL producing bacteria. This might be the first report of antimicrobial activity of bark extract of Terminalia arjuna (Roxb.) against ESBL producing human pathogenic bacteria. Keywords: Combination Disc Method (CDM), Extended-Spectrum -Lactamases (ESBL), MIC, Terminalia arjuna (Roxb.).Introduction Urinary Tract Infections (UTIs) are the most common diseases affecting neonate to the growing age groups. The Extended Spectrum -lactamase (ESBL) producing gram negative bacteria of Enterobacteriaceae, are increasingly causing UTIs both in hospitalized patients and outpatients2,3. ESBL are enzymes produced by bacteria belonging to Enterobacteriaceae, most commonly Escherichia coli and Klebsiella pneumoniae. ESBL are plasmid mediated enzymes showing resistance to Oxyimino-cephalosporins and monobactams5,6. The increasing multi drug resistances among these UTIs causing bacteria are due to uncontrolled usage of broad spectrum antibiotics and it has made treatment to very difficult . ESBL producing organisms are capable of hydrolyzing -lactam antibiotics including 3rd generation cephalosporins and monobactams. Clavulanic acid, sulbactam and tazobactam generally inhibit ESBL production by bacteria. It is increasingly being reported that ESBL are acquiring a transmissible form of antibiotic resistance. This creates that penicillins and cephalosporins which are used for many years found no more effective against ESBL producing bacteria. New antibiotics or new combinations of various antibiotics would be required to overcome the current threat posed by ESBL producing bacteria 10. The resistance problem demands that a renewed effort be made to screen various medicinal plants for their potential antimicrobial traits, which are due to compounds synthesized in the secondary metabolism of the plant. The bioactive phytocompounds in medicinal plants are alkaloids, flavonoids, tannins, phenolic compounds, steroids, resins, fatty acids and gums which are capable of producing definite physiological action on body11. Terminali arjuna(Roxb.) belongs to family Combretaceae and it is a large and evergreen tree (common name: Arjuna tree). Ayurvedic physicians found that Terminalia arjuna has antibacterial activity12,13. In this study, an attempt has been made to screen ESBL production among bacterial isolates and also to find out the antibacterial activity of bark extracts of Terminalia arjuna (Roxb.) against ESBL producing bacteria. Material and Methods Clinical samples: Midstream Urine samples were collected from Urinary Tract Infected patients using a clean container and immediately transported to the laboratory. Isolation and identification of UTI isolates: For the isolation of UTI causing bacterial strains, loop full of urine samples were streaked onto nutrient agar plate and incubated at 37°C for 24hours. Isolated colonies were selected and identified based on the standard morphological, cultural and biochemical Research Journal of Recent Sciences ______________________________________________________________ ISSN 2277-2502Vol. 3(7), 28-33, July (2014) Res. J. Recent Sci. International Science Congress Association 29 characteristics. To check morphological characteristics: gram-staining, capsule staining and motility test were performed. To check the growth pattern, different culture media including MacConkey’s agar, EMB agar were used. For biochemical characterization TSI, IMVIC (Indole, MR, VP and Citrate), nitrate test and sugar fermentation (Lactose, glucose, mannitol, maltose, sucrose and xylose) were performed14. Combination Disc Method (CDM): ESBL production among gram negative bacteria was detected by the Combination disc method according to CLSI guidelines using both cefotaxime and ceftazidime, alone and in combination with clavulanic acid. In this test, an overnight culture suspension of the test isolates was adjusted to 0.5 McFarland’s standard. Lawn culture was made on the surface of Mueller Hinton Agar (MHA) plate. The Cefotaxime (30 µg) and cefotaxime-clavulanic acid (30 g/ 10 g) discs were placed 20 mm apart on the agar surface. Similarly, the ceftazidime (30 µg) and ceftazidime-clavulanic acid (30 g/ 10 g) ((Himedia Laboratories, Mumbai) discs were also placed. After incubating overnight at 37C, a 5mm increase in the zone diameter was interpreted as positive for ESBL production15. The quality control strain used for this study is E. coli ATCC 25922 as a negative control (figure 1). Antibiotic Sensitivity Test: The Antibiotic susceptibility of the ESBL producing bacteria was detected using the following antibiotics namely Amikacin (30mcg), Ampicillin (10mcg), Ciprofloxacin (5mcg), Doxycycline (30mcg), Gentamycin (10mcg) and Tetracycline (30mcg) (Himedia Laboratories, Mumbai). Antibiotic sensitivity tests were done on MHA plates by the Kirby-Bauer disc diffusion method according to the CLSI guidelines15. Collection of Arjuna bark: Arjuna bark was purchased from Perumal Chetti Store, Parrys Corner, Chennai, Tamil Nadu, India. Preparation of extracts: Twenty grams of Terminalia arjuna stem bark powder was well dissolved in 100 ml of double distilled water (ratio 1:5). The suspension was filtered by using a Seitz filter of pore size 0.2 m. The sterile extract was then transferred to lyophilization flask and kept in a deep freezer at– 80°C for 4 hours. The frozen extract was then loaded onto the Lyophilizer. The lyophilized powder was then transferred to sterile 5ml vials and stored for further use. Then the ethanol extract was prepared by using 100 ml of 70% of ethanol instead of 100 ml of double distilled water. The other steps were same as given in the aqueous extract preparation. Antibacterial Studies: Disc Diffusion Method: Antibacterial activities of Terminalia arjuna bark extracts were studied by using agar disc diffusion method according to Bauer et al16. A stock solution (1mg/ml) of the extracts and the dilutions of the stock solution containing 0.5, 1.0, 1.5 and 2.0g/ml were prepared in dimethyl sulfoxide (DMSO). The inoculum was prepared and adjusted to the Mc Farland’s standard 0.5 Scale. Lawn culture was made on Muller Hinton agar (MHA) plates. Prepared extract loaded discs were placed on the swabbed plates and incubated at 37\rC for 48 hours. After the incubation the zone of inhibition was measured in mm and compared with the standard antibiotic discs. Minimum Inhibitory Concentration (MIC): Minimum inhibitory concentration (MIC) was determined by the microdilution method 17 using Mueller Hinton broth (MHB). A stock solution (1mg/ml) of the extracts was prepared in DMSO and the dilutions of the stock solution containing 200, 100, 50, 25, 12.5, 6.25, 3.125 and 1.5625 µg/ml were prepared in MHB. 100l of each dilution was loaded into the respective wells and 100l MHB as control in the microtitre plate. Loop full of broth culture was inoculated into each well. Chloramphenicol and Gentamycine were used as standard reference drugs (100 g). The microtitre plates were incubated at 37°C for 18-24 hrs. The lowest dilutions that showed no growth were termed as inhibitory activity. Statistical Analysis: The Chi - square test was used for determination of significance of association. The P value 0.05 was considered as statistically significant. All Statistical analysis was done with SPSS software version 15.0. Results and DiscussionA total of 94 isolates were obtained from 162 urine samples collected from various Hospitals in Chennai. Among these, 33 (35.10%) were from males and 61 (64.89%) from females (table 2). The percentage wise distribution of various bacterial isolates has been given in figure 1. E.coli was found to be the predominant uropathogen causing UTI followed by K. pneumoniae. A total of 52 (55.31%) isolates were identified as ESBL positive by using Combination Disc Method and it was found that, 26 were E. coli (50.00%), 15 K. pneumoniae (28.84%), 8 P.aeruginosa (15.38%), 2 Proteus vulgaris (3.84%) and 1 Enterobacter sp. (1.92%) (table 1 and figure 2). Sex wise and age wise distribution of ESBL positive isolates have been depicted in table 2. Females (69.23%) were found to have more ESBL isolates when compared to those in males (30.76%). More ESBL isolates (69.23%) were found to be in the age group 20-40. ESBL producing isolates showed multi drug resistance against 3 antibiotics. All the 52 ESBL producing isolates from UTIs showed the highest degree of resistance to ampicillin (45, 86.53%) followed by doxycycline (33, 65.38%). Out of 52 ESBL producing isolates 42 (80.76%) were susceptible to amikacin and 34 (63.46%) to gentamycin. Among 26 E.coliisolates 24 (92.30%) showed resistance against ampicillin, 16 (61.53%) against ciprofloxacin and tetracycline, 13 (50.00%) against doxycycline and 11(42.30%) against gentamycin. Among 15 K. pneumoniae 13 (86.66%) showed resistance against ampicillin, 10 (66.66%) against doxycycline, 8 (53.33%) against ciprofloxacin, 7(46.66%) against tetracycline, Research Journal of Recent Sciences ______________________________________________________________ ISSN 2277-2502Vol. 3(7), 28-33, July (2014) Res. J. Recent Sci. International Science Congress Association 30 4(26.66%) against amikacin and 3(20.00%) against Gentamycin. A total of 8 P. aeruginosa 8 (100%) isolates showed resistance against doxycycline and tetracycline and against ampicillin. All the 2 Proteusvulgaris showed 100% resistance to Ampicillin and Doxycycline. Enterobacter sp. isolates showed 100% resistance to Ampicillin, Ciprofloxacin and Gentamycin (table 3). Out of above isolates from 5 bacterial genera, E.coli showed maximum resistance against ampicillin, ciprofloxacin, doxycycline, gentamycin and tetracycline and K. pneumoniae showed maximum against amikacin. Table-1 Various clinical isolates and their ESBL PositivityS.No Clinical Isolates Total Isolates (N=94) ESBL Positive (N=52) % p value 1 E.coli 42 26 50.00 0.123 2 K. pneumoniae 30 15 28.84 1.000 3 P. aeruginosa 15 8 15.38 0.796 4 P. vulgaris 4 2 3.84 1.000 5 Enterobacter spp. 3 1 1.92 0.564 Table-2 Sex wise and Age wise distribution of ESBL positive isolates S.No Age Clinical Isolates Total % Male % Female % 1 1 – 20 0 - 1 1.92 1.92 2 21 – 40 10 19.23 26 50.00 69.23 3 41 – 60 4 7.69 6 11.53 19.23 4 61 – 80 2 3.84 3 5.76 9.61 Total 16 30.76 36 69.23 100 Table-3 Antibiotic susceptibility of ESL producing isolates from Urinary Tract Infection Organisms Interpretation Antibiotics Amikacin (30mcg) Ampicillin (10mcg) Ciprofloxacin (5 mcg) Doxycycline (30mcg) Gentamycin (10mcg) Tetracycline (30mcg) E.coli(26) Sensitive (S) 26 (50.00%) 1(1.92% ) 9(17.30%) 8(15.38%) 15(28.84%) 5(9.61%) Intermediate (I) - 1(1.92%) 1(3.84%) 5(9.61%) - 5(9.61%) Resistant (R) - 24(46.15%) 16(30.76%) 13(25.0%) 11(21.15%) 16(30.76%) K. pneumoniae (15) Sensitive (S) 9(17.30%) - 5(9.61%) 2(3.84%) 11(21.15%) 3(5.76%) Intermediate (I) 2(3.84%) 2(3.84%) 2(3.84%) 3(5.76%) 1(1.92%) 5(9.61%) Resistant (R) 4(7.69%) 13(25.0%) 8(15.38%) 10(19.23%) 3(5.76%) 7(13.46%) P. aeruginosa (8) Sensitive (S) 4(7.69%) - 8(15.38%) - 6(11.53%) - Intermediate (I) 3(5.76%) 2(3.84%) - - - - Resistant (R) 1(1.92%) 6(11.53%) - 8(15.38%) 2(3.84%) 8(15.38%) P. vulgaris (2) Sensitive (S) 2(3.84%) - 1(1.92%) - 2(3.84%) 1(1.92%) Intermediate (I) - - - - - - Resistant (R) - 2(3.84%) 1(1.92%) 2(3.84%) - 1(1.92%) Enterobacter spp. (1) Sensitive (S) 1(1.92%) - - 1(1.92%) - 1(1.92%) Intermediate (I) - - - - - - Resistant (R) - 1(1.92%) 1(1.92%) - 1(1.92%) - Research Journal of Recent Sciences ______ _ Vol. 3(7), 28-33, July (2014) International Science Congress Association The percentage wise distribution of various bacterial isolates Plate showing ESBL production by Combination Disc Method(CDM) Effect of aqueous, ethanolic extracts of bark of 31.91% 15.95% 4.25% 102030405060708090100 50 50 Cincentration in g/ml _ ________________________________ ______________ International Science Congress Association Figure-1 The percentage wise distribution of various bacterial isolates Figure-2 Plate showing ESBL production by Combination Disc Method(CDM) Figure-3 Effect of aqueous, ethanolic extracts of bark of Terminalia arjuna (Roxb.) against ESBL producing organisms by Broth Microdilution method 44.68% 31.91% 15.95% 4.25% 3.19% E.coli K. pneumoniae P. aeruginosa P. vulgaris Enterobacter sp. 501005050 50 50505025Organisms Aqueous Extract Ethanol Extract ______________ _________ ISSN 2277-2502 Res. J. Recent Sci. 31 Plate showing ESBL production by Combination Disc Method(CDM) against ESBL producing organisms by Broth Aqueous Extract Research Journal of Recent Sciences ______________________________________________________________ ISSN 2277-2502Vol. 3(7), 28-33, July (2014) Res. J. Recent Sci. International Science Congress Association 32 Agar Disc Diffusion Assay: Zones of inhibition of 11, 12, 13 and 15mm against Escherichia coli, 10, 12,13 and 15 mm against Klebsiella pneumoniae, 11, 12, 14 and 15mm against Pseudomonas aeruginosa, 11,12,14 and 16 mm against Proteus spp and 10,11,13 and 15 mm against Enterobacter spp. were obtained at 0.5,1.0, 1.5 and 2.0 mg respectively for Aqueous extract. Zones of inhibition of 13, 14, 16 and 18mm against Escherichia coli, 12,13,15 and 16 mm against Klebsiella pneumoniae, 12, 13, 14 and 16mm against Pseudomonas aeruginosa, 11,14,16 and 17 mm against Proteus spp and 12,14,15 and 17 mm against Enterobacter spp. were obtained at 0.5,1.0, 1.5 and 2.0 mg respectively for Ethanol extract. Ethanolic extract from bark of T. arjuna(Roxb.) showed better antibacterial activity when compared to aqueous extract against tested ESBL producing bacteria. Minimum Inhibitory Concentration Assay (MIC): In MIC assay aqueous extract from T. arjuna(Roxb.) showed inhibitory activity against Escherichia coli,Klebsiella pneumoniae, Proteus vulgaris and Enterobacter sp. at 50 g/ml and against Pseudomonas aeruginosa at 100g/ml and ethanol extract exhibited inhibitory activity against Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa and Proteus vulgaris at 50g/ml and Enterobacter spp. at 25g/ml. Studies of MIC assay reveals that Enterobacter sp. showed lesser MIC value (25g/ml) as compared to other ESBL bacterial isolates (figure 3). Discussion: In recent years, ESBL production among UTI causing bacterial isolates creating the major clinical therapeutic problem. These organisms show resistance to most of the antibiotics currently being used. This study provides the predominant uropathogen, antibiotic susceptibility pattern of UTI causing ESBL producing bacterial pathogens and antimicrobial property of arjuna extracts against ESBL producing isolates. All isolates were screened for ESBL production by CDM and multi drug resistance of ESBL producing isolates were identified by disc diffusion method. In this study, the UTI causing organisms include E.coli, K. pneumoniae, P. vulgaris and Enterobacter sp. and the results are in close agreement with that Ali18. The predominant uropathogen in this study was E.coli. Previous studies have also demonstrated that E.coli is the most frequent etiological agent causing community and hospital acquired UTIs19-22. ESBL production was found in more than 50% of all isolates with the highest incidence in E.coli (50%) and lower incidence inEnterobacter sp. (1.92%). 68% ESBL production was reported by Mathur et al23 among gram negative bacteria from a tertiary care hospital. Tankhiwale et al. 24 reported 48.3% of urinary isolates as ESBL producers in their study. Most of the isolates in this study showed resistance to more than 3 antibiotics. Resistance was very high against ampicillin and lowered against amikacin. This study is comparable with other studies in India reported by Rameshkumar et al., 2012 25. Who reported that all isolates from their study showed high resistance to Ampicillin and lower to amikacin. In the present study the ethanol extract from bark of T. arjunashowed maximum antibacterial activity as compared aqueous extract against the ESBL producing bacteria tested by Disc diffusion and Microdilution methods. A zone of inhibition of bacterial growth of more than 10mm by the plant extract indicated significant inhibitory activity26. In this study also most of the organisms showed zone of inhibition of more than 10mm. Our results agree with Morshed et al, 201127. Who reported that 18mm of zone of inhibition against E.coli and P.aeruginosa by ethanol extract of bark of T. arjuna. Berghe et al. 28 reported that if an inhibition is obtained by 1-10 mg plant extract/ml test solution, the extract can be considered worthy for further investigations. In the present study ethanol extract showed minimum inhibitory concentration ranging from 25-100µg/ml and thus the arjuna plant product was found to have posses significant antibacterial activity. The active principle in this plant product can be further studied before using it for effective control of important clinical bacteria. Conclusion In conclusion the ESBL producing bacteria are a breed of multidrug resistant pathogens that are increasing rapidly and becoming a major problem in clinical therapeutics. It is essential to report ESBL production along with the routine antibiotic sensitivity reporting, which will help to treat the MDRs organisms causing infections with proper antibiotics. Plant extracts have great potential as antimicrobial compounds against microorganisms and they can be used in the treatment of infectious diseases caused by resistant microorganisms. Based on our results, it is concluded that Terminalia arjuna Roxb.) has the potential for the production of drug for the treatment of urinary tract infections caused by ESBL producing pathogenic bacteria. References1.Raju C.B. and Tiwari S.C., Urinary tract infection-A suitable approach. Lecture notes, J. Ind. 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