Comparative study of antibacterial activity of wood-decay fungi and antibiotics

The antibacterial effects of three mushrooms extract Ganoderma lucidum, Auricularia auricula, Pleurotus florida were studied against Staphylococcus aureus and Escherichia coli . A. auricula showed significant antibacterial activity against S. aureus. P. florida showed some antibacterial activity while G. lucidum showed no antibacterial activity. None of the extracts showed any activity against E. coli.

absolute ethanol for 72 hours and stirred every 12 hours. It was then filtered through Whatman filter paper No. 1. The filtrate was concentrated at 40°C using a rotator evaporator (Fagade and Oyelade, 2009). The paste that was formed was freeze dried. Strict sterility was maintained through out the whole procedure. Six different concentration of each wood decay fungi were prepared by taking 75 mg, 125 mg, 250 mg, 500 mg, 750 mg, 1,000 mg in 1 mL of sterile distilled water (for each concentration).

Determination of Minimum Inhibitory Concentration (MIC):
Preserved microorganism S. aureus was subcultured in blood agar media and E. coli was subcultured in MacConcky's agar. Microorganisms were taken from both of these subcultures and inoculated in Muller Hinton agar plates. Different concentrations of wood decay fungi 75 mg/mL, 125 mg/mL, 250 mg/mL, 500 mg/mL, 750 mg/mL, 1,000 mg/mL were taken and agar well diffusion method was applied (Aziz et al., 2007;Gazer et al., 2006;Gbolagade et al., 2007). The plates were left in the room temperature for 1 hour before incubation to allow effusion of the extracts into agar well. Test antibiotics in the strength of cloxacillin 1 µg/ disc, azithromycin 15 µg/disc, cephradine 25 µg/disc, ciprofloxacin 5 µg/disc were placed on their particular mark point just before incubation. The discs were incubated at 37°C for 24 hours. At the end of this period MIC was measured with the help of scale on the under surface petri dish without opening the lid. Zone of inhibition was measured in two directions at right angle to each other from the centre of the disc and average of the two reading was taken.
Interpretation of sensitivity: Zone of Inhibition produced by each antibacterial agents was considered into two categories namely sensitivity (S) and resistant (R) with the help of CLSI (NCCLS) 2010 and as per manufacturers (HIMEDIA).

Results
The zone of inhibition of S. aureus against azithromycin, cephradine, ciprofloxacin ranged from 24.00 ± 3.10 mm to 25.17 ± 1.47 mm respectively and cloxacillin showed minimum zone of inhibition 10.83 ± 0.75 mm ( Table I).
In 1000 mg/mL concentration A. auricula showed significant zone of inhibition 14.17 ± 1.72 mm, where as P. florida exhibited zone of inhibition 12.67 ± 3.27 mm and G. lucidum 10.50 ± 0.55 mm in same concentration. A. auricular's zone of inhibition was >13 mm and P. florida and G. lucidum's zone of inhibition was <13 mm (p <0.05) compared to cloxacillin, which exhibited minimum zone of inhibition on S. aureus and standard zone of inhibition was taken >13 mm. When sensitivity pattern of these extracts were compared with cloxacillin, azithromycin, cephradine and ciprofloxacin, A. auricula was significantly sensitive to S. aureus and P. florida and G. lucidum were not sensitive. None of the three extracts showed any inhibition and sensitivity to E. coli in highest concentration (Table II).

Discussion
Of the three wood-decay fungi G. lucidum showed zone of inhibition similar to that of Cloxacillin, where as A. auricula and P. florida showed higher zone of inhibition. Significant zone of inhibition was exhibited only by A. auricula.
When sensitivity pattern of different wood-decay fungi extracts was compared only A. auricula showed significant sensitivity to S. aureus (>13 mm). The zone of inhibition and sensitivity of P. florida was very near to the standard taken, which is suggestive that higher dose of P. florida might show sensitivity to S. aureus. G. lucidum showed resistance. None of the extracts showed inhibition and sensitivity to test organism E. coli.
In a more or less similar study (Fagade and Oyelade, 2009) inhibitory effect of G. lucidum, A. auricula and P. florida was observed against S. aureus and E. coli, where A. auricula and P. florida showed antibacterial activity against both the organisms. In this study only A. auricula showed significant and P. florida showed moderate inhibitory effect and sensitivity to S. aureus. None of the three extracts exhibited any inhibitory or sensitivity to E. coli.
This difference in response of mushroom extracts to test organisms might be due to a number of factors, as studies suggest that the antimicrobial activities of all mushroom extracts are changeable (Iwalokun et al., 2007), depending upon the nature of environment and media in which it is grown. It also depends upon the genetic structure of mushroom species, physical and biochemical constituent's differences of mushroom extracts solvents and test organisms. The sensitivity pattern of microorganisms also changes to chemotherapeutic agents depending on their strains, and susceptibility or resistance to antibiotic (Gao et al., 2005).
Studies using different test organisms and different mushroom extracts also showed that mushroom posses antibacterial activity to varying degrees (Gazer et al., 2006;Upadhyay et al., 2010;Kim et al., 2001). Antibacterial activity of mushroom extracts have been attributed to presence of biologically active compounds. Studies suggest that these biologically active compounds enhance immunity (Ramesh and Pattar, 2010) and they also posses antitumor properties. The antibacterial and antitumor properties of mushroom have been attributed to presence of polysaccharides, terpens and lectins. Studies suggested that polysaccharides from mushrooms do not act directly but modify the different immune responses in the host mainly by increasing macrophage activity that destroy pathogens such as bacteria, virus etc (Wasser and Weis, 1999). In addition to their immunomodulating effect Doses of cloxacillin (1 µg/discs), azithromycin (15 µg/disc), cephradine (25 µg/discs), and ciprofloxacin (5 µg/discs); S = Sensitivity; R = Resistance; + = Mildly sensitive; ++ = Moderately sensitive; +++ = Significantly sensitive; ++++ = Highly sensitive; Results are shown as mean ± SD they have significant cardioprotective, antiparasitic, hepatoprotective and antidiabetic effect (Wasser and Weis, 1999).
Mushroom taken as food has the advantage of being devoid of dose related adverse effect seen with antibiotics. Resistance to antibiotics due to its frequent and inappropriate use pose a threat to treatment of bacterial infections mostly in under developed countries and in many developed countries of the world as well. Therefore mushroom with antibacterial properties have received considerable attention in recent years. Search for new antimicrobial agents has gained considerable importance, and mushrooms for their antibacterial activity may be considered for their easy availability and cheapness. Some times antibiotic combinations are being used to overcome the problems of drug resistance (Lewin et al., 1991;Kim et al., 2001), but use of two or more antibiotics carries more chance of antibiotics related adverse effect and use of mushroom along with antibiotics might help lessen the adverse effects (Kim et al., 2001).
In conclusion, mushroom extracts can be used to combat pathogenic microorganisms along with available antibiotics.