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African Journal of Traditional, Complementary and Alternative Medicines
African Ethnomedicines Network
ISSN: 0189-6016
Vol. 5, Num. 4, 2008, pp. 419-420

African Journal of Traditional, Complimentary and Alternative Medicines, Vol. 5, No. 4, 2008, pg. 419-420

 Letter to Editor                                                   

Phytochemical and laxative studies of Globimetula braunii (Engle) van tiegh growing on Cola acuminata  (Schott & Endl).

*Fred-Jaiyesimi Adediwura, Onabanjo Temitope and Ademuyiwa Oluwakemi

Department of Pharmacognosy, Faculty of Pharmacy, Olabisi Onabanjo University.  Sagamu.  Ogun State.  Nigeria.*E-mail: adediwurajaiyesimi@gmail.com

Code Number: tc08044

Dear Sir,

Globimetula braunii (Engle) Van Tiegh is a member of the Loranthaceae family.  The family is represented by 65 genera and 900 species found in the tropics and are mainly distributed in Africa, Asia, Australia and South America (Johnri, 1987).  G. braunii grows as a hemi-parasite on host trees such as Jatropha curcas, Citrus species and  Cola species.  It is commonly known as mistletoe and “Afomo  Onisana” in South West Nigeria. Mistletoes have been used traditionally for different medicinal purposes. In the Nigerian folklore medicine, G. braunii is used as a recipe for treating hypertension, rheumatism,  epilepsy, infertility, stomach problems, digestive aid, diabetes and as a  laxative. Olagunju et al. (1999) reported the hypoglycaemic activities of G.  braunii in alloxan induced diabetic rats. This study carried out a phytochemical screening and the laxative activity of the ethanol extract of G. braunii leaf.

Albino rats (125 – 205g) of both sexes were obtained from the animal house of the Faculty of  Pharmacy, Olabisi Onabanjo University.  The animals were maintained in plastic cages under standard environmental conditions.  They had access to water and standard pellet diet (Ladokun feeds, Ibadan).

Fresh leaves of G. braunii growing on Cola acuminata  host were collected from  Sagamu, Ogun State and authenticated at the Forestry Research Institute of  Nigeria, Ibadan.  A voucher specimen (FHI 106147) was deposited at the herbarium. Air dried powdered leaves of Globimetula braunii were macerated with 70% ethanol for 72 hrs.  The filtrate was evaporated to dryness under vacuum at 40 oC and the dried extract was stored in the dessicator for further analysis.

Phytochemical screening of G. braunii leaf was carried out as described by Trease and Evans (Trease and Evans, 1987). The laxative activity of G. braunii was investigated with procedures described previously (Abo et al., 1999; Elujoba et al., 1999).  The animals were divided into six groups of five rats each and fed orally with standard pellet diet (Ladokun feeds, Ibadan):  Group 1: Five rats received water only (1ml/kg); Group 2: Five rats received Senna (500mg/kg);Group 3: Five rats received Senna (1000mg/kg); Group 4: Five rats received G. braunii ethanol extract (250mg/kg); Group 5:Five rats received G. braunii ethanol extract (500mg/kg); Group 6: Five rats received G. braunii ethanol extract (1000mg/kg).The rats were placed in individual cages lined with filter paper at the bottom. The animals were observed for passage of feaces over a period of eight hrs. The form of the stool for each rat was noted.  The property of wet faeces was considered as a measure of laxative activities of the extract ( Fairbairn and Moss, 1970; Yagi and Yamauchi, 1997,  Elujoba et al., 1999). The laxative effect was determined by comparing the wet and dry weights of the faecal samples.  (Abo et al., 1999; Chen et al., 2006).  Senna a known laxative agent was used as reference drug.

The phytochemical analysis of G. braunii leaf revealed the presence of Tannins, anthraquinone, saponins , cyanogenetic glycoside and absence of flavonoids and cardiac glycosides (Table 1).

Table 1: Phytochemical screening of Globimetula braunii leaf.

Tannnins

Flavonoids

Anthraquinone

Free            combined

Saponin

Cardiac glycoside

Cyanogenetic glycosides

      +

   -

 +                      +

+

   -

    +

+ = Present; - = Absent.

The ethanol extract of G. braunii at doses 500mg/kg and 1000mg/kg when administered orally, caused significant production of wet faeces (Figure 1).  This property of wet faeces is an indication of a laxative effect (Fairbairn and Moss, 1970; Yamauchi et al,. 1976).   The laxative activity of G. braunii leaf was based on more frequent passage of faeces whose character changed from formed and relatively solid pellets to unformed semi-fluid collagenous masses.  The increased fecael wet weight was caused by increased moisture. The result of the laxative activity of G. braunii at 500mg/kg and 1000mg/kg were similar to the laxative effect exerted by Senna at the same doses.  (Figure 1).

Anthranoids found in Senna are known to affect the large intestinal motility resulting in laxative effect (Gorkom et al., 1997).  The presence of anthraquinone in the leaf of of G. braunii may, therefore, be responsible for the laxative effect exhibited by the ethanol extract. This study, therefore, justifies the use of G. braunii in the Nigerian folklore medicine as a laxative.

References

  1. Abo, K.A., Lasaki, S W. and Adeyemi A.A. (1999).  Laxative and antimicrobial properties of Cassia species growing in Ibadan.  Nig. J. Natural Prods Medicine 3:47 – 50.
  2. Chen, H..Cheng, H., Liu, Y., Liu, S. and Wu W. (2006).  Konjac acts as a natural laxative by increasing stool bulk and improving colonic ecology in healthy adults.  Nutrition 22: 1112 – 1119.
  3. Elujoba, A.A., Abere, A.T. and Adelusi, SA.  (1999).Laxative activities of Cassia pods sourced from Nigeria .   Nig. J. Natural Prods Medicine 3:51 – 53.
  4. Fairbairn, J.M and Moss, M.J.R (1970).  The relative purgative activities of 1,8-dihydroxyanthracene derivatives.  J. Pharm. Pharmacol. 22: 583 – 584.
  5. Johnri, M (1987).  Tropical mistletoes. In Weber, H.C. Forstreuter W (Eds.) proceedings of the fourth International Symposium on parasitic flowering plants, Marburg, Germany 250 – 252.
  6. Olagunju, J.A., Ismail, F.I. and Gbile, Z.O. (1999).  The hypoglycaemic property of normal saline leaf of Globimetula braunii in alloxanised diabetic albino rats.  Biomedical letter 60(235): 83 – 89.
  7. Trease, G.E. and Evans, W.C., (1987).  A text book of Pharmacognosy.  ELSB/Bailliere Tindal, Oxford.
  8. Van Gorkom, B.A.P., De Vries, E.G.E., Karrenbeld, A. and Kleibeuker, J.H (1999).  Anthranoid laxatives and their potential carcinogenic effects.  Alimentary Pharmacol. Therapeutics 13: 443 – 452.
  9. Yagi, T. and Yamauchi K., (1997).  The synergistic purgative action of aloe-emodin anthrone and rhein anthrone in mice: Synergism in large intestinal propulsion and water excretion.  The J. Pharm. Pharmacol. 49: 22 – 25.
  10. Yamauchi, K., Fujimoto, N., Kuwano, S. and Inuoye, K (1976).  The mechanism of purgative action of geniposide, an iridiod glycoside of the fruit gardenia in mice.  Planta medica 30: 39 – 47. 

© Copyright 2008 - African. Journal. Traditional, Complementary and Alternative Medicines


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