Antileishmanial activity of alcoholic extract of (Trigonella foenumgraecum) seeds against ulceration of cutaneous leishmaniasis in vivo Hind Mahdi Jarallah*, Dawood Salman Mehdi** *Marine Science Center, University of Basrah, Iraq ** Dept. of Pharmacy, The Technical Institute, Basrah, Iraq Key words : Cutaneous leishmaniasis, parasites, Trigonella foenum-graecum seeds Abstract: The effect of alcoholic extract from Trigonella foenum-graecum seeds was studied on the ulcerative lesions of cutaenous leishmaniasis caused by Leishmania major in BALB/c mice experimentally infected with L. major promastigotes.the Leishmania major strain was isolated from Iraqi patient suffered from cutaneous leishmaniasis, the patient lives in rural village belong to Basrah marshland. The alcoholic extract of this plant was administrated by intralesion injection.the alcoholic extract from Trigonella foenum-graecum seeds showed good results. The plant extract decrease the growth and development the cutaneous ulcers and its size of treated mice when compared to the control mice which were worsening and more increased in ulcers size. Introduction Cutaneous leishmaniasis (CL) was an endemic disease in Iraq (Pringle, 1957). Leishmaniasis was considers as the tenth parasitic infection in the world (WHO, 1990). In Iraq, the disease was found to be more prevalent in central region and mostly in the rural area and semi-desert region (Sukkar, 1978). The incidence of leishmaniasis is increasing, with many endemic areas reporting a 50% increase over the past seven years. Leishmaniasis are now endemic in 88 countries with a total of 350 million people at risk (WHO, 2000). In Iraq, especially in Basrah governorate, cutaneous leishmaniasis cases were reported and caused manily by Leishmania major species (Jarallah, 2003). Tradition medicine has been practiced to some degree in all cultures and other terms based on culture include Africa, Asia or Chinese medicine (Al-Rahbi, 2000). Many alternative treatment modalities have been proposed and screening of medicinal plants for antileishmanial activities is a very effective way to find new active substances (Iwu, et. al., 1994).Trigonella foenum-graecum seeds contains fatty oils, mucilage protein, mannogalactan, resin, trigonellin, cholin, saponin, tannin, essential oils, phosphorus, iron; contains no starch (Al-Rawi and Chakravarty, 1988). The aqueous and alcoholic extracts of Trigonella foenumgraecum seeds have antileishmanial effect on Leishmania major parasites in vitro at different concentrations when compared to the control (Jarallah, 2005) and antimicrobial (Alkofahi, et. al., 1996) and antibacterial (Bhatti, et. al., 1996). In recent study, demonstrate that the aqueous extract fenugreek T. foenum-graecum has amply good effect on the weight on visceral organs which are second to none in importance in both taste and popularity among the people (Khan, et. al., 2009). That is mean T. foenum-graecum seeds contains lecithin and choline that help to dissolve cholesterol and fatty substances.
Plants are rich in a wide variety of secondary metabolites, such as tannins, terpenoids, alkaloids and flavonoids, which have antimicrobial properties in vitro (Cowan, 1999). Materials and Methods: Leishmania strain The Iraq strain of L. major was used in this study, the strain was isolated from skin lesion of male childe patient have 11 years old by specialized clinic of dermatology, he live in rural village belong to Basrah marshland suffering from cutaneous leishmaniasis. The patient has ulcerative lesions on right forearm Figure (1). Aspirate material from the margin of the lesion was spread on slide to made smears. The prepared smears were stained by Leishman s stain to detect the Leishman bodies and examine under the oil immersion objective of the light microscope Figure (2). Culture media: Cultures were carried out using Nicolle-Novy-McNeal (NNN) medium. The Leishmania strain was isolated on diphasic (NNN) medium, it is made of two phases, a solid and liquid phase (Kagan and Norman, 1970 ; Meredith, et. al., 1995). The promastigote parasites were harvested on the 6 th day. The number of parasites were adjusted to 1x10 7 /0.1 ml for inoculation by counting in hemocytometer. Plant extraction procedure: The aqueous and alcoholic extracts of T. foenum-graecum seeds were prepared according to Harborne (1984) and WHO (1998). 9 mg/ml concentration of alcoholic extract were prepared and used in this study. Animals and experimental design: Fifteen laboratory female BALB/c mice 6-10 weeks old were used in this study, mice were divided into three groups (A,B,C), each group contain 5 mice. Each mouse in all groups (A,B,C) were injected in a shaved area above the tail with 0.05ml of 1x10 7 /0.1 ml of promastigotes intradermaly. Groups (A,B) daily injected intradermaly (subcutaneous) in the same area with 0.05 ml of 9mg/ml of alcoholic extract of T. foenum-graecum seeds for two weeks as infected treated group while group (C) was kept as infected control. The effect of extract on mice ulcerative lesions was monitored assessed at second week post infected and continuous every two weeks. Clinically by measuring the morphology and size of the lesions and parasitologically by smears were made from ulcer stained with Leishman s stain and examined under oil immersion of light microscope to determine the density of parasites by counted the number of amastigote form of parasite (Schnur, et. al., 1973).
Figure (1): The leishmanial case see lesion on the right forearm Figure (2): Smear from cutaneous leishmaniasis showing amastigotes forms (Leishman s stain, oil immersion) Results Clinically: The infection started on mice at the site of inoculation as swelling, thickening and redness were noticed and observed at second weeks post infection on infected control group while the lesion in infected treated group was late to last weeks post infection, addition the lesion was more decrease in size, cellular infiltration, swelling and redness. Table (1) Parasitology: The density of L. major amastigotes was detected in both infected treated group and infected control group after (2, 4, 6, 8, 10, 12) weeks post infection Table (1). Table (1): Ulcer s diameter in infected treated and control groups after treated with plant extract Weeks post infection Ulcer s diameter (mm) Infected treated group Infected control Group 2-0.5 x 0.5 4-1 x 1 6-1.5 x 2 8 0.5 x 0.5 2.5 x 4 10 0.5 x 1 4 x 7 12 1 x 1.5 5 x 9 Table (2): The density of Leishmania major amastigotes in stained smears in infected treated and control groups after treated with plant extract Density of amastigote Weeks post infection Infected treated group Infected control Group 2-1 4-2 6-3 8-3 10 ± 3 12 1 3
-: No amastigote seen after 10 minutes search ±: Very few amastigotes after 5-10 minutessearch 1: 1-20 amastigotes in some fields (50 fields were scanned) 2: about 50 amastigotes in most fields (at least 25 fields were scanned) 3: More than 150 amastigotes in every fields (at least 25 fields were schanned) Discussion: Due to resistance of Leishmania strain against the drug first choice pentavalent antimonials, there is a great need for the development of new, effective and safe drug for the treatment of leishmaniasis. This present study demonstrated that T. foenumgraecum seeds possessed a potent antiprotozoal activity. Clinical examination show the infected treated mice with T. foenum-graecum seeds has mild improvement and decrease in the ulcer size. In contrast, the infected control mice developed worsening and large boils ulcer. The result of this study was agreement with other study (Jarallah, 2003), who indicated that aqueous and alcoholic extracts of Nigella sativa seeds have antileishmanial effects against L. major promastigote in vitro and amastigote in vivo. Signs of ulcer healing and clinical response were more clear in infected treated mice than control, few number of amastigotes were detected by cutaneous smear. Seeds of T. foenum-graecum is used as a demulcent and emollient, usually in combination with other remedies and especially in veterinary medicine (Al-Rawi and Chakravarty, 1988). It was choice the alcoholic extract of T. foenum-graecum seeds to effect against boils ulcer of CL on infected mice because the alcoholic extract of T. foenum-graecum has high activity than aqueous extract in inhibition of Growth Index (GI)% of L. major promastigote, that is related to the natural of the active compounds (volatile oils) and also the solvents used in the extraction (Jarallah, 2005). Oils are arise non-polar compound, not easy to be dissolved in water but it is dissolved in nonpolar organic solvent such as ethanol (Hussein, 1981). The mechanism of action of T. foenum-graecum seeds against Leishmania parasite in both forms amastigote and promastigote is not known, the antileishmanial effect may be due to inhibition of protein synthesis or DNA synthesis. The activity of the antileishmanial plant extracts has been attributed to compounds belong to diverse chemical groups. Among the most promising chemotypes are the benzylisoquinolines, the ß- carboline alkaloids, the iridoid and steroidal glycosides, and the quinines (Iwu, et. al., 1994). The leaf extract of Kalanchoe pinnata used as oral treatment to decrease the ulceration of CL caused by Leishmania amazonensis in BALB/c mice (Da Silva, et. al.,1995), in other study, Chen, et. al. (1994) demonstrated the An oxygenated chalcone, licochalcone A, isolated from the roots of Chinese licorice plant have potent antileishmanial activity against L. major in mice and Leishmania donovani in hamsters. Certainly in this study pretreatment of mice with alcoholic extract of T. foenum-graecum seeds, reduced the size of the lesion and the parasite numbers burdens compared with control. It was concluded from this study that T. foenum-
graecum seeds possesses a potent antileishmanial effects. Further work should be progress to discover the active substance for T. foenum-graecum seeds. References: Alkofahi, A. ; Batshoun, R. ; Owais, W. et. al. (1996). Biological activity of some Jordanian medicinal plant extracts. Phytotherapeutics. 67: 435-442. Al-Rahbi, M.N. (2000). Traditional medicine. Oman Med.J., 16: 62-64. Al-Rawi, A and Chakravarty, H.L. (1988). Medicinal plants of Iraq. 2 nd ed., Baghdad Ministry of agriculture and irrigation. Pp. 109. Bhatti, M. ; Khan, M. T. J. ; Ahmed, B. et. al. (1996). Antibacterial activity of Trigonella foenum-graecum seeds. Phytotherapeu., 67: 372-374. Chen, M.; Christensen, S.B.; Theander, T.G. (1994). Antileishmanial activity of licochalcone A in mice infected with Leishmania major and in hamsters infected with Leishmania donovani Antimicrobial agents and chemotherapy., 38: 1339-1344. Cowan, M.M. (1999). Plant products as antimicrobial agents. Clin. Microbiol. Rev., 12: 564-82. Da Silva, S.A.; Costa, S.S.; Mendonca, S.C. et al. (1995). Therapeutic effect of oral kalanchoe pinnata leaf extract in murine Leishmaniasis. Acta. Trop., 60: 201-211. Harborne, J.B. (1984). Phytochemical methods. 2 nd ed. Chapman and Hall, London. Pp286. Hussein, F.T.K. (1981). Medical plants, cultivation and it s constuent. Al-Markh Comp. Al-Rayid. Pp. 306 (in arabic). Iwu, M.M.; Jackson, J.E.; Schuster, B.G. (1994). Medicinal plants in the fight against leishmaniasis. Parasitology today., 10:65-68. Jarallah, H.M. (2003). Effect of some plant extract and antibiotics with histopathological study on Leishmania major strain. M.Sc. Thesis. Edu. Coll. Univ. Basrah. Pp116. Jarallah, H.M. (2005). Effects of Trigonella Foenum-Graecum seeds extracts on promastigote of Leishmania major. Basrah J. Agric. Sci., 18(2): 9-16. Kagan, I.G. and Norman, L. (1970). Manual of clinical microbiology. Am. Soc. Microbiol., Washington, USA. Pp. 479. Khan, F. U. ; Durrani, F. R. ; Sultan, A. ; Khan, R. U. and Naz, S. (2009). Effect of Fenugreek (Trigonella Foenum-Graecum) seed extract on visceral organs of broiler chicks. J. Agric.& Bio. Sci., 4(1): 58-60. Meredith, S.E.; Kroon, C.M.; Sondorp, et. al. (1995). Leish-KIT, a stable DAT based on freeze dried antigen for serodiagnosis of visceral leishmaniasis. J. Clin. Microbiol., 33: 1742-1745. Pringle, G. (1957). Oriental sore in Iraq: Historical and epidemiological problems. Bull.End.Dis., 2: 41-76. Schnur, L.E.; Zuckerman, A. and Montillio, B. (1973). Dissemination of leishmaniasis to the organs of Syrian hamsters following intrasplenic inoculation of promastigotes. Exp. Parasitol., 34: 432-447.
Sukkar, F. (1978). Kala-azar in Iraq., Bull. End. Dis. Iraq, 19(1-4): 29-38. WHO, (2000). Leishmaniasis control. Communicable disease. 1-3. WHO, (1990). The leishmaniasis. Techn. Report seri, No.743 Geneva. WHO, (1998).Quality control methods for medicinal plant materials. WHO. Geneva. Pp. 115. الخالصة تم دراسة تأثير المستخلص الكحولي لبذور نبات الحلبة على اآلفات المتقرحة لداء اللشممانيا الللمدا المتسمبن عم سممةلة Leishmania major فممي الراممرام تلمختبرومم نممو BALB/c المحقونممة تلروبيممال وممالمور المسممو للمريلي.تم عزل سةلة Leishmania major م مروض عراقي مصاب وداء اللشمانيا الللدا المروض وعيش في قروة روري تعود إلى اهوار البصرة.تم إعماء المستخلص الكحولي لهذا النبات ع روم الحقم دا مال ا فم. اظهر المسمتخلص الكحمولي لبمذور نبمات الحلبمة نتماده حيمدق حيمن قلمال مم تممور ونممو القمرح الللدومة وتحلامهما للرارام المعاللة عندما تم مقارنتها مع فارام السيمرة التي كانت ذات زوادة في تحلام القرح وتكثر سوءال.