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Assessment of Immunomodulatory Activity of Euphorbia hirta L.
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MedLine Citation:
PMID:  21694995     Owner:  NLM     Status:  PubMed-not-MEDLINE    
Abstract/OtherAbstract:
Immune system is the major target for development of treatment strategies to improve the management of infections. Many species of Indian medicinal plants have been reported to possess active principles with immunomodulating properties. Euphorbia hirta, a pantropic herb has been reported to be pharmacologically active. This study reports one another not widely reported property of the plant, immunomodulatory activity, which has been proved using simple techniques like the macrophage activity testing, carbon clearance test and mast cell de-granulation assay.
Authors:
K Vijaya Ramesh; K Padmavathi
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Publication Detail:
Type:  Journal Article    
Journal Detail:
Title:  Indian journal of pharmaceutical sciences     Volume:  72     ISSN:  1998-3743     ISO Abbreviation:  Indian J Pharm Sci     Publication Date:  2010 Sep 
Date Detail:
Created Date:  2011-06-22     Completed Date:  2011-07-14     Revised Date:  2013-05-29    
Medline Journal Info:
Nlm Unique ID:  7809431     Medline TA:  Indian J Pharm Sci     Country:  India    
Other Details:
Languages:  eng     Pagination:  621-5     Citation Subset:  -    
Affiliation:
Department of Botany, Quaid-e-Millath Government Arts College, Chennai-600 002, India.
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Full Text
Journal Information
Journal ID (nlm-ta): Indian J Pharm Sci
Journal ID (publisher-id): IJPhS
ISSN: 0250-474X
ISSN: 1998-3743
Publisher: Medknow Publications, India
Article Information
Copyright: © Indian Journal of Pharmaceutical Sciences
open-access:
Received Day: 29 Month: 8 Year: 2009
Accepted Day: 15 Month: 9 Year: 2010
Revision Received Day: 01 Month: 4 Year: 2010
Print publication date: Season: Sep-Oct Year: 2010
Volume: 72 Issue: 5
First Page: 621 Last Page: 625
ID: 3116308
PubMed Id: 21694995
Publisher Id: IJPhS-72-621
DOI: 10.4103/0250-474X.78532

Assessment of Immunomodulatory Activity of Euphorbia hirta L.
K. Vijaya Rameshaff1
K. Padmavathi1*
Department of Botany, Quaid-e-Millath Government Arts College, Chennai-600 002, India
1Department of Microbiology, Dr. A. L. Mudaliar Post Graduate Institute of Basic Medical Sciences, Taramani, University of Madras, Chennai-600 113, India
*Address for correspondence: E-mail: padmabakianath@yahoo.co.in

Plant products have been used in the treatment of human diseases since time immemorial. Indian subcontinent is endowed with a rich flora and more than 1500 plant species have been known to possess therapeutic properties. The modulation of immune response by various herbal formulations in order to alleviate diseases has been of interest over many decades. Many plants have been evaluated for immunostimulant and immunosuppressive properties using simple techniques. The ayurvedic concepts of preventive health care and the therapeutic potential of immunomodulatory agents from plants have been reviewed exhaustively[1]. Azadirachta indica leaf extracts is found to induce cell mediated immune response as seen from the enhancement of macrophage migration inhibition[2]. In human volunteers, it stimulated humoral immunity by increasing antibody levels and cell mediated immunity by increasing total lymphocyte T cell count in 21 days.

Euphorbia hirta, a small herb/common garden weed has been reported to have antimicrobial activity specific to enteropathogens[3]. There has been comprehensive reports on the plant (whole plant) to have a 45% immunomodulation activity by way of inhibition of nitric oxide production[4]. In this paper, the in vitro and in vivo immunomodulatory properties of Euphorbia hirta are reported.

Euphorbia hirta Linn. locally called ‘garden spurge’ was used for the study. The plant was locally collected and was authenticated at the Department of Botany, Presidency College, Chennai, India. Voucher specimen was deposited in the Herbarium (#8413). Swiss albino mice, 25-30 g in weight, were used for the in vivo experiments. The animals were maintained in cages at a temperature of 24° and 10 h light; 14 h dark cycle throughout the experimental period. All the animals were fed a standard diet and water ad libitum.

Aerial portion of E. hirta was washed well, inflorescence collected and shade dried. Ethanol was used for extraction since it being a polar solvent could bring into solution all the metabolites present. The shade dried inflorescence of E. hirta (25 g) was immersed in 250 ml of ethanol and was left a room temperature for 24 h. The extract was filtered through Whatman No. 1 filter paper. Solvent was removed completely by evaporation under vacuum.

Capillary blood (0.2 ml) was obtained by finger prick method and was placed on a clean grease free glass slide and spread to 1.5×1.5 cm. Blood was allowed to clot at 37° for 25 min. The clot was removed using sterile normal saline. The polymorphonuclear leukocytes (PMN's) were found adhered to the glass surface while the rest of the blood components are washed away. Slides in duplicates were prepared and used for each dilution of the plant extract.

Candida albicans was confirmed using germ tube test and was inoculated in Saboraud Dextrose Broth. Overnight culture was centrifuged at 2000 rpm for 15 min. The cell pellet was washed four times with sterile Hank's balanced salt solution (HBSS). The final cell button was suspended in sterile HBSS and human serum in a proportion of 4:1 and the cell density was adjusted to 2×108cfu/ml with the help of MacFarlands standard.

Different dilutions of the ethanol extracts (0.1 ml) were flooded over the PMN layer on the slides, after which the slides were incubated at 37° for 15 min followed by the addition of 100 μl of C. albicans cell suspension. The slides were further incubated at 37° for 60 min. After incubation, the film was washed twice with sterile normal saline. The film was fixed with methanol for 5 min. Diluted Giemsa stain was flooded over the film and was left undisturbed for 25 min. The excess stain was removed using HBSS and air dried. The slides were observed under the oil immersion (×100) objective. The mean number of Candida cells phagocytosed by PMNs on the slide were determined microscopically for 100 granulocytes using morphological criteria[5]. This number was taken as the phagocyte index (PI) and was compared with the PI of the control. Immuno stimulation (%) was calculated by using the following Eqn., Stimulation (%) = PI(test)– PI(control)×100/PI(control). The change in macrophage phagocyte activity following the administration of crude ethanol extract to Swiss albino mice was determined by using carbon clearance assay. Swiss albino mice of either sex weighing (25-28 g) were used in duplicates for the study.

The working solution of the extract was prepared by dissolving in dimethylsulfoxide (DMSO) and then in normal saline to yield a dose of 40, 80 and 160 mg/kg. Mice used for the control studies received 0.2 ml of normal saline, while the experimental mice received 0.2 ml of the extracts intraperitonealy for 5 d prior to injection of carbon particles. Phagocytic activity of the reticuloendothelial system was assessed[6]. On the 6th day, mice (both experimental and control were injected with 0.1 ml of 1% carbon suspension intravenously through the tail vein. Blood sample (20 μl) was drawn from retro-orbital plexus immediately before and at 3, 6, 9, 12, 15 and 18 min after injection of carbon suspension. The individual aliquots were lysed with 2 ml of 1% acetic acid. Absorbance was measured spectrophotometrically at a wavelength of 660 nm until the absorbance equivalent to standard (original pre-injection blood sample) was obtained[7]. The rate of carbon clearance (phagocytic index K) was calculated form the slope of each time-concentration curve drawn by plotting absorbance as ordinate against time as abscissa.

Plant extract (0.2 ml of 25 mg/ml) was injected in to mice intraperitoneally for six days prior to the isolation of peritoneal mast cells. Tyrode solution (10 ml) containing 5 units /ml heparin was injected in mice intraperitoneally. After a gentle massage for about 30-45 s, the mast cell rich peritoneal fluid was collected over ice and centrifuged at 2000 rpm for 5 min. The cells were washed twice with chilled Tyrode solution and resuspended in 1 ml tyrode solution. These isolated peritoneal mast cells were used to study polysorbate 80 induced mast cell degranulation in vitro.

To study the effect of plant extract on mast cells[8], 0.1 ml of ethanol extract of Euphorbia hirta (25 mg/ml) was added to 0.1 ml peritoneal mast cells suspension, and incubated at 37° for 15 min. Then 0.1 ml of the degranulating agent (polysorbate 80) was added and further incubated for 10 min. The cells were stained with neutral red and % protection of degranulation of mast cells in control and treated groups were calculated by counting the mast cells under high power of light microscope.

The in vitro cytotoxicity studies[9] were performed on the continuous cell line of African green monkey (Vero) procured from the Department of Animal Biotechnology, Madras Veterinary College, Chennai, India. The Vero cells were split at a ratio of 1:4 and grown in 6 well plates. The plates were incubated at 37° overnight in 5% CO2 atmosphere. Once the monolayers were formed, the growth medium was removed from all the cell monolayers.

Filter sterilized extract of E. hirta (160 mg/ml) were diluted (1:2, 1:4, 1:8) and 4 sets of 2 Vero cell monolayers were used for the study. Fifty microlitres of the different dilutions were added to each well in duplicates. Sterile PBS was added to 2 wells which served as controls. Sterile maintenance medium was added to all the wells and the plates were incubated at 37° for 48 h at 5% CO2 atmosphere.

Morphological changes in the Vero cells were observed at 24 h and at 48 h were graded as 4+, 3+, 2+, 1+ using an inverted phase contrast microscope (ie) 100%, 75%, 50%, 25% CPE. CPE of 2+ (50%) and above were marked positive.

For the in vivo cytotoxicity studies in Swiss albino mice model[10], 4 groups each of 4 Swiss albino mice were maintained at standard laboratory conditions. They were fed daily with mouse chow (PRS Chennai) and water ad libitem. Saline was used as the control. Animals were observed every h for 8 h and next day, mortality and change in other physiological and behavioural aspects like the nature of urine, co-ordination of movements, presence of convulsion if any and presence of salivation or tremor was noted.

While performing the in vitro evaluation of phagocytosis, ethanol extract of Euphorbia hirta was found to be cytotoxic at a concentration of 1000 μg/ml. Maximum phagocytic activity was evident at 62.5 μg/ml. With gradual increase in the dilutions of the plant extract there was a corresponding decrease in phagocytic activity. A concentration dependent switch from immunostimulation to immunosuppression was observed at concentration 0.48 μg/ml (Table 1).

From the in vivo evaluation, the ethanol extract of E. hirta was found to be increasing the phagocytic index at a concentration of 80 mg/ml and 160 mg/ml. Euphorbia hirta is found to possess immunostimulatory activity at the above said concentrations but at a concentration of 40 mg/ml, it is found to possess immunosuppressive activity as assessed by carbon clearance assay (Table 2).

From the in vitro cytotoxicity tests, it was seen that the ethanol extract of E. hirta at neat dilution, resulted in 100% CPE as observed in the Vero cells after 24 h i.e. rounding of cells, multinucleated giant cell formation and detachment of cells from the plate surface. The percentage of CPE decreased proportionately with the increase in dilution of the plant extract.

Fifty percent CPE was observed after 48 h for the plant extract at 1:2 dilution and at 1:4 dilution, the plant extract was non cytotoxic at 24 h and 48 h. In the in vivo cytotoxicity tests, no mortality was observed in all the three doses i.e. 160 mg/kg, 80 mg/kg, 40 mg/kg. All the mice exhibited normal behavioral and physiological conditions. The mice were active and returned to normal position immediately when placed on their back. There was no salivation or tremor. The urine was normal in appearance and the mice fed well. Mortality was not observed in any group of extract fed animals for a period of 7 d after the day of experiment. Euphorbia hirta, at a concentration of 25 mg/ml was found to inhibit polysorbate 80 induced mast cell degranulation as assessed by the in vitro method. (Table 3).

The present study revealed the immunomodulating potential of an Indian medicinal plant Euphorbia hirta. This plant's immunomodulatory potential has not been reported thus far to our knowledge. However, antibacterial activity of this plant has been reported[3]. The antibacterial activity is attributed in part to the flavanoids present in the plant. Flavanoids have also been reported to responsible for producing antiinflammatory and humoral antibody responses[11]. In the present study, inflorescence part of the plant was used since a previous study from this laboratory has revealed the presence of flavanoids as a major fraction in the inflorescence.

The precise mode of extraction naturally depends on the texture and water content of the plant material being extracted and on the type of substances being isolated. The plant parts were shade dried since there is every possibility of losing some unstable plant constituents in bright sunlight. One of the most important and fundamental considerations in designing a phytochemical screening procedure is the selection of a proper solvent. Solvent extracts of plants has already been proven to exhibit a well marked biological activity than when compared to the aqueous extract[12].

Several methods for preparing an initial extract of the plant material have been reported and 80% ethanol and methanol appear to be the most useful solvents[13]. Similar observation was found in our study where we noted good extractability as well as biological activity only in the ethanol extracts. The ethanol extract of E. hirta was found to possess immunostimulatory activity both in vitro and in vivo. On screening for cytotoxic activity, the ethanol extract of the plant was found to be non toxic to the cultured Vero cells at a concentration of 2 mg/ml after 48 h, whereas 50% CPE was observed at a concentration of 4 mg/ml after 48 h. Our previous report[3] also corroborates this finding where no cytotoxic effect was observed till 3.125 mg/ml. Maximum immunostimulatory activity was observed at 0.063 mg/ml. Thus this plant may be a promising initiative towards drug development in the cue of immunomodulatory agents in future.

Ethanol extract of E. hirta showed a dose-dependent shift on neutrophils in in vitro phagocytosis. Also intraperitoneal injection of E. hirta was found to stimulate macrophages as evident from the increase in phagocytic index when compared with control using carbon clearance assay. Euphorbia hirta was found to be immunostimulatory at concentrations ranging from 0.98 to 500 μg/ml, but at concentrations below 0.98 μg/ml the plant exerted an immunosuppressive activity. Hence the concentration of the plant extract plays a major role in determining the immnomodulatory activity.

Correlation between antimicrobial activity and peroxidase content of leucocytes have been already studied[5]. The fungicidal activity of PMN's from healthy humans was found to be relatively much higher when compared to PMN's of pigs and chickens. The plant extract was found to elevate the phagocytic index, and once Candida albicans enters inside the secondary lysosomes of the intact PMN's, they are killed probably by the activity of myelopeorixdase. The viability of intra cellular Candida albicans could be determined by staining. The dead phagocytosed C. albicans appeared blue while the viable cells remained unstained.

Ethanol extract of E. hirta was found to inhibit polysorbate 80 induced degranulation of isolated peritoneal mast cells in vitro. This is indicative of its mast cell stabilizing activity. Thus the anti-inflammatory activity of E. hirta could be attributed to its ability to stabilize mast cell membrane, thereby inhibit the release of inflammatory mediators.

The overall efficacy (97%) stimulation of the phagocytosis could be attributed to the synergistic effect of the key constituents present in the ethanol concentrate or could be due to a single active component. Further studies are required to single out an active principle from the plant, which can be put to use.


Notes

Ramesh and Padmavathi: Immunomodulatory Activity of Euphorbia hirta L

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Tables
[TableWrap ID: T1] TABLE 1 

IN VITRO PHAGOCYTOSIS EVALUATION



[TableWrap ID: T2] TABLE 2 

IN VIVO EFFECT OF ETHANOLIC EXTRACT OF EUPHORBIA HIRTA ON MACROPHAGE PHAGOCYTIC ACTIVITY



[TableWrap ID: T3] TABLE 3 

EFFECT OF PLANT EXTRACT ON POLYSORBATE 80- INDUCED DEGRANULATION OF ISOLATED PERITONEAL MAST CELLS




Article Categories:
  • Short Communication

Keywords: Candida albicans, Euphobia hirta, mast cells, phagocytosis.

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