Antibacterial Potential of Clerodendrum inerme Crude Extracts Against Some Human Pathogenic Bacteria

 

Abdul Viqar Khan and Athar Ali Khan

 

Department of Botany, Faculty of Life Sciences, Aligarh  Muslim University,

 Aligarh , 202002, India

 

 

Summary

 

 

This communication emphasized upon the sensitivity of the crude extracts of Clerodendrum inerme  (L.) Gaertn. [Verbenaceae] against  some of the human pathogenic bacteria. Five plant extracts (Petrol, Benzene, Methanol, Ethly acetate  and Aqueous) under six different concentrations(500mg/ml, 1mg/ml, 2mg/ml, 5mg/ml,10mg/ml and 15mg/ml) were tested by disk diffusion method .  Methanol, Ethyl acetate and Aqueous extracts of the plant showed significant inhibition against fifteen of the eighteen bacteria tested. No earlier report on antibacterial activity of this taxon could be found in literature.

 

Key words :   Clerodendrum inerme, sensitivity, inhibition.

 

Plants have been an integral part of human society since the start of civilization. India is rich in its plants diversity, a number of plants have been documented for their medicinal potential which are in use by the traditional healers, herbals folklorists and in Indian systems of medicine namely, Ayurveda, Unani, Siddha apart from a Homeopathy and Electropathy. These plant species play major role in the health care of the nations population.

Different national and international pharmaceutical companies are utilizing such plant based formulations in treatment of various diseases and disorders world around  (Chandel et al., 1997; Singh & Gautam, 1997; Satyavati et al.,1987; Pulliah, 2002; Jain, 1991; Khan et al.,2002 ; Kirtikar & Basu , 1935)

Many of the plant species have been documented pharmacologically and clinically which are endowed in phytochemicals with marked activity on human pathogenic bacteria. (Anonymous, 1976;  Ray & Majumdar , 1976 ; Khan, 2002; Cox, 1994; Khan et al., 2002; Asolkar et al.,1992; Rastigi & Mehrotra, 1991,1993; Rastogi, 1998 ; Perry & Metzer, 1998 ; Fransworth , 1988).

An attempt was made to study the possible anti bacterial potential of the plant Clerodendrum inerme (L.) Gaertn. [Verbenaceae]. It is a straggling shrub, leaves obovate to elliptical oblong, and glabrous. Plant is commonly grown as hedged. Locally the plant is known as Lanjai , its leaves are used in chronic pyrexia (Khan , 2002).

 

Chemical constituents: 3- epicaryoptin, neolignan.

 

Pharmacology: Alcoholic extract of the plant proved to be hypotensive. While essential oil possess anti fungal properties( Asolkar et al.,1992; Rastigi & Mehrotra, 1991,1993; Rastogi, 1998).

 

Materials and methods

Plant material

Clerodendrum inerme (L.) Gaertn. [Verbenaceae], leaves of the plant were collected from the university campus, Aligarh  Muslim University, Aligarh , India.

 

Preparation of extracts

Crude plant extracts; were prepared following Robinson (1963), the protocol is described below:

i. Freshly dried and healthy plant material is ground into fine powder in an electric grinder. Powder so obtained is stored in dessicator.

ii. Five hundred g plant powder is refluxed with 95% methyl alcohol (MeOH) in a round   bottom flask on a water bath for 10 hours. Mother liquor (Crude MeOH extract) is filtered out and residual plant material is again refluxed with 95% methyl alcohol for 10 hours. The process is repeated four times to obtain maximum yield of MeOH extract. The extract is evaporated to dryness at 50°C under reduced pressure.

iii. Dried methanol extract is refluxed with light petrol (60-80°C) for five hours. After filtration, the residual methanol extract is again refluxed with petrol for five hours and filtered. This process is repeated five times. Petrol is evaporated under reduced pressure to obtain petrol soluble extract.

iv. Petrol insoluble fraction of methanol extract obtained in step (iii) is refluxed with benzene for five hours. Thereafter, it was filtered and refluxed again with benzene for five hours and filtered. The process was repeated five times. Benzene is evaporated under reduced pressure to obtain benzene soluble extract.

v.   Benzene insoluble fraction obtained in step (iv) is refluxed with ethyl acetate for five    hours. Thereafter, it is filtered and refluxed again with ethyl acetate for five hours and filtered. The process is repeated five times. Ethyl acetate is evaporated under reduced pressure to obtain ethyl acetate soluble extract.

vi.  Ethyl acetate insoluble fraction obtained in step (v) is refluxed with methyl alcohol (95%) for five hours, filtered and is repeatedly refluxed for five times with methyl alcohol (Methanol). The methanolic soluble fraction is evaporated under reduced pressure to obtain methanolic extract, while methanol insoluble residue is discarded. The steps are graphically presented as a flow chart in Fig. 3B

Preparation of aqueous extract

      Shade dried plant material (500 g) is ground to a fine powder, It is poured with distilled water, and left for 72 hours at room temperature. The flask is then refluxed over hot water bath for 10 hours and the mother liquor is filtered. The solute is again added with solvent (distilled water) that is again refluxed and filtered; this process is repeated for 4 times. The filtrate, thus obtained, is evaporated to complete dryness on a water bath. The residue thus obtained is aqueous plant extract.

 

Yields per 1000 g dry material: Petrol ~ 10.0 g, Benzene ~ 12.5 g, EtOAC ~ 8.0 g and MeOH ~ 13.0 g. aqueous extract material (500 g) (yield ~ 40.0 g).

 

Microorganisms

The leaf extracts were tested for possible antibacterial activity in the disk assay using eighteen (18) human pathogenic bacteria listed in table no. 1. The bacteria were obtained from the bacterial stock, Department of Microbiology, Jawaharlal Nehru Medical College, Aligarh, India. The bacterial cultures were maintained at 4⁰C on nutrient agar.

 

Anti microbial assay

The (Mueller& Hinton, 1941) agar plates were inoculated with inoculums of 10⁶ size,  a sterile  swab is dipped into diluted culture inoculums, the agar surface of the plates is streaked in three directions turning the plates by 60⁰ by each streak .The paper disk(what man filter paper no 1) with 500mg/ml, 1mg/ml, 2mg/ml, 5mg/ml,10mg/ml and 15mg/ml plant extracts were dried and placed at the agar surface with the help of a sterile forceps. Finally press the sensitivity disc with forceps to make complete contact with the surface of the medium. Allow the plates to stand at room temperature for 30 minutes. (Pre diffusion time). Inoculated petridishes were incubated at 37⁰C  over night and the inhibition zone were recorded.(Bauer  et al., 1966, Cruickshank, 1968 ; Colle & Marr, 1989). The experiments were repeated thrice and the mean of the triplicate of the results is summarized in table no. 1.

Studied activity

        Antibacterial activity by disc diffusion method  (Bauer  et al., 1966, Cruickshank, 1968). Diameters of petri dish and disc 9.0 cm and 0.5 cm respectively.

Results

The petrol extract of the plant was found to be effective against four of the gram positive and seven of the gram negative pathogenic bacteria. Benzene extract of the plant inhibited the growth of five gram positive and six   gram negative bacteria. Ethyl acetate and Methanol fraction of the plant was found to be effective against all the tested gram positive bacteria while they were found inactive against three of the gram negative bacteria.(Pseudomonas aeruginos, Salmonella typhi, Shigella  dysenteriae ).The crude leaf extract (Aqueous extract) of the plant was effective against fifteen of the tested pathogens.(Table no. 1)

 

Table – 1

Antibacterial activity of Clerodendrum inerme (Whole plant)^a crude extracts

Inhibition zone (mm)