Antimicrobial activity of methanol extract and fractions from Sarcochlamys pulcherrima

Antimicrobial evaluation of methanol extract of Sarcochlamys pulcherrima leaf and its hexane, ethyl acetate, n-butanol and water fractions against 31 strains of microorganisms, using agar well, agar disc diffusion, and broth microdilution methods, revealed the activity of methanol extract against Trichophyton mentagrophytes , Candida albicans , Staphylococcus aureus and Escheracia coli (zone of inhibition: 21-40 mm, 200 mg/mL, and MIC: 6.25-50 mg/mL). All fractions also displayed antimicrobial activity (5-20 mg/mL), indeed ethyl acetate and n-butanol fractions showed better activity (MIC: 0.156 to 2.5 mg/mL). C. albicans was most sensitive to n-butanol fraction (15 mm, 2.5 mg/mL). Ethyl acetate and n-butanol fractions were more active against T. mentagrophytes (12 mm at 1.25 mg/mL) and S. aureus (ethyl acetate-16 mm, n-butanol-14 mm at 0.625 mg/mL). E. coli was inhibited by n-butanol fraction (13 mm at 2.5 mg/mL). Further, n-butanol fraction (400 µg/disc) exhibited promising activity against 14 bacteria, 2 dermatophytes and 2 yeasts strains. DOI: http://dx.doi.org/10.3329/bjp.v9i1.16760 Bangladesh J Pharmacol 2014; 9: 4-9


Introduction
The steadily increasing drug resistant microorganisms such as bacteria, Candida species and dermatophytes are now a therapeutic challenge.Bacterial and fungal pathogens have evolved numerous defense mechanisms against antimicrobial agents, and resistance to the existing drugs is on the rise.A study on antibiotic resistance in Staphylococcus aureus clinical isolates from diabetic patients showed that 80% of the isolates were multidrug-resistance to more than eight antibiotics and 35% isolates were methicillin resistant S. aureus (MRSA) (Raju et al., 2010).Opportunistic fungal infections are common among immunocompromized patients (Martinez-Rossi et al., 2008;Straten et al., 2003).The indiscriminate use of antibiotics also contributes to the worsening of this picture (Straten et al., 2003).Opportunistic fungal infections caused by Candida species produce a wide spectrum of diseases, ranging from superficial mucocutaneous disease to systemic candidia -sis, of which C. albicans was reported to be the most predominant species (Shokohi et al., 2010;Sharma and Borthakur, 2007).
In India the data on the burden of opportunistic mycoses is not clear though the climate in this country is well suited for of fungal infections.However, increased incidence of invasive candidiasis was reported in India (Chakrabarti et al., 2008).Predominance of dermatophyte infections has also been reported in many countries (Sharma and Borthakur 2007;Jain et al., 2008;Jaiswal, 2002).Thus, the clinical efficacy of many antimicrobial drugs is being threatened by the emergence of multidrug-resistant pathogens.This has led to the search for new antimicrobial substances in natural products particularly medicinal plants, focusing on the basis of their ethnomedicinal uses, which enhance the probability of success in finding new drugs (Svetaz et al., 2010).
Sarcochlamys pulcherrima (Roxb.)Gaud.(Urticaceae), is a wild medicinal plant and highly consumed by some ethnic tribes and castes of Assam, India.The leaves are used in treatment of boils and fever blisters, eye complications (Rahman et al., 2007), diarrhea and dysentery (Sharma and Pegu, 2011).Young shoots, leaves and fruits are eaten as vegetable (Sawian et al., 2007;Singh et al., 2012).It is believed that eaten with pork facilitate the digestion of fats (Buragohain, 2011).It is also claimed that S. pulcherrima leaves damages tape worm egg present in pork when boiled with it (Paul et al., 2010).In spite of its numerous medicinal properties there is no report on S. pulcherrima related to antimicrobial activity.In our earlier study, we observed promising antimicrobial and anti-oxidant activity of the methanol extract of S. pulcherrima leaves.Encouraging with the findings, the present study was undertaken to fractionate the methanol extract followed by antimicrobial test in order to identify the fractions with better activity.

Plant
Fresh leaves of S. pulcherrima were collected from the Arun Punjee (Punjee means Tribal Village) of Machkhal, Cachar District, Assam (India).The plant was authenticated at Botanical Survey of India, Eastern Regional Centre, Shillong, India.The herbarium was deposited at the herbarium repository of Defence Research Laboratory, Tezpur, Assam.

Extraction and fractionation of plant material
Shade dried powdered leaves were extracted with methanol (Hayet et al., 2008) and dried at 40°C under reduced pressure using rotary evaporator (Heidolph Instruments GmbH and Co. KG, Germany and lyophilised (The Benchtop FreeZone plus Cascade 4.5L Freeze Dry System, Labconco, USA).The methanol extract was sequentially fractionated with hexane, ethyl acetate, nbutanol and water as shown in Figure 1.On subsequent evaporation of solvents afforded hexane (7.66 g), ethyl acetate (7.04 g), n-butanol (14.19 g) and water (21.37 g) fractions.Test samples of extract and fractions were prepared in dimethyl sulfoxide (DMSO, w/v) and filtered using 0.22 mm Millipore filter (MILLEX ® GP, Ireland).

Antimicrobial assay and determination of minimum inhibitory concentration (MIC)
Antimicrobial activity was tested by agar well diffusion (Kaushik and Goyal, 2008) and agar disc diffusion method (Trakranrungsie et al., 2008).The culture (SDA/NA) plates were swabbed with 150 mL of the inoculum and loaded with 150 mL of the test extract/ fraction into the well of 8 mm diameter, made on the agar plate.DMSO was used as negative control while clotrimazole and amphotericin B were used as positive control for fungi and bacteria respectively.The zone of inhibition was recorded to evaluate the antimicrobial activity.In agar disc diffusion method, sterile paper discs (Whatman No. 1 paper, 5 mm diameter) were impregnated with test sample (400 µg/disc), clotrimazole (10 µg/disc), amphotericin B (10 µg/disc) and methanol separately, dried.The discs were placed on the surface of the agar plate, preswabbed with 150 mL of inoculum and recorded the zones of inhibition.MIC was determined by broth microdilution method, as described earlier (Hammer et al., 2001;Edziri et al., 2012) with some modifications.Test sample was serially diluted in 96-well microtiter plate prepared with NB or SDB to obtain a concentration ranging from 39 to 5,000 µg/mL.Inoculum concentration in each well was adjusted as mentioned above.MIC was interpreted as the lowest concentration of the test sample which showed no visible growth.Five replicates were maintained in each experiment.

Results and Discussion
As per standard protocol a small set of reference microorganisms, which represent common pathogenic species of different classes may be used in primary antimicrobial screening (Paul et al., 2006)  diffusion assay.The methanol extract exhibited antimicrobial activity against the test pathogens exhibiting zone of inhibition in between 21 and 40 mm at 200 mg/ mL and MIC values of 6.25-50 mg/mL (Table II).The Gram (+ve) bacterium, S. aureus was found to be more sensitive than the Gram (-ve) bacterium, E. coli, which has been well established earlier (Paul et al., 2006;Jayaraman, 2009;Yagi et al., 2012).Clotrimazole (0.1 mg/mL) produced zone of inhibition of 31 mm against T. mentagrophytes and 17 mm against C. albicans, while the zone of inhibition caused by amphotericin B against S. aureus and E. coli were 25 and 22 mm respectively.Activity of clotrimazole and amphotericin B at very low concentration (0.10 mg/mL) as compared to the plant extracts may be attributed to its pure nature.Therefore higher MICs of the crude methanol extract, observed in the present study were considered as effective.DMSO did not inhibit the growth of test pathogens.All fractions mg/mL) revealed activity against T. mentagrophytes, C. albicans, S. aureus and E. coli (zone of inhibition: 9-30 mm), although ethyl acetate and nbutanol fractions showed better activity (Table III).For C. albicans, n-butanol fraction was found to be the most active (15 mm at 2.5 mg/mL).Ethyl acetate and nbutanol fractions were more active against T. mentagrophytes (12 mm at 1.25 mg/mL) and S. aureus (ethyl acetate-16 mm, n-butanol-14 mm at 0.625 mg/ mL).Gram (+ve) bacterium, S. aureus was found to be more sensitive than Gram (-ve) bacterium E. coli towards the test fractions.Only n-butanol fraction showed a bit activity against E. coli (13 mm at 2.5 mg/ mL).Susceptibility difference between Gram (+ve) and Gram (-ve) bacteria may be due to the cell wall struc-tural differences between them.Outer phospholipids membrane with the structural lipopolysaccharide components in Gram (-ve) bacterium, make the cell wall impenetrable to antimicrobial agents, while the Gram (+ve) bacterium is more susceptible having only an outer peptidoglycan, which is not an effective permeability barrier (Jayaraman 2009;Yagi et al., 2012).Over all, n-butanol and ethyl acetate fraction exhibited better antimicrobial profile with MIC within the range of 0.156-2.5 mg/mL related to the tested bacteria and fungi (Table III).The activity was more pronounced than the hexane and water fractions and methanol extract.The results indicated that the pattern of inhibition depends largely upon the solvent used for fractionation of the plant material and the organisms tested.It can be inferred that antimicrobial compounds are present mostly in ethyl acetate and n-butanol fractions, which might be medium polar to polar in nature.Similar obser -vations were also reported earlier in other medicinal plants (Teke et al., 2011;Das et al., 2010;Mazumder et al., 2012).Earlier in a study, higher range of antidermatophytic activity of hexane fraction of O. gratissimum leaves was reported (Silva et al., 2005).Contrary to this, in our study the hexane fraction was found to be less effective.This difference may be due to differences in plant constituents in different plant species, time of sample collection or other geographical factors.
Owing to higher extractive value and the promising activity, n-butanol fraction was further tested against 9 strains of dermatophytes, 7 yeasts, 10 Gram (+ve) and 5 Gram (-ve) bacteria employing agar disc diffusion method to ascertain its maximum potentiality in were not inhibited by amphotericin B (10 mg/disc), whereas for the remaining bacteria were found to be susceptible (zone of inhibition: 6-8 mm).The strongest antibacterial activity and a weak antifungal activity of crude methanol extracts from aerial parts of Penstemon campanulatus was reported earlier (Zajdel et al., 2012).Yeasts and dermatophytes are eukaryotic organisms with more complex structural organization compared to the simple prokaryotic bacterial cells.This probably explains the difference in sensitivity of these two groups of microorganisms.
The antimicrobial potential of S. pulcherrima (leaf), especially its n-butanol fraction suggested future research on isolation of active molecule to serve either as novel antimicrobial drug or lead compounds.