ANTIDIABETIC ACTIVITY OF CLERODENDRUM PHILIPPINUM SCHAUER LEAVES IN STREPTOZOTOCIN INDUCED DIABETIC RATS

Authors

  • Mihir K. Kar University Department of Pharmaceutical Sciences (UDPS), Utkal University, Vani Vihar, Bhubaneswar 751004
  • Trupti R. Swain S. C. B. Medical College
  • Sagar K. Mishra Utkal University

Keywords:

Clerodendrum philippinum Schauer, Antidiabetic activity, Streptozotocin

Abstract

Objective: The present study has been undertaken to evaluate the antidiabetic activity of Clerodendrum philippinum Schauer leaves.

Methods: The fresh leaves were collected from Kuruan village of Jajpur district in the state of Odisha, India and extracted successively with n-hexane, methanol and water. The effect of extracts at the dose level of 400 mg/kg body weight was studied in normal, glucose loaded and streptozotocin-induced diabetic rats.

Results: The test extracts showed significant reduction of blood glucose level in normal, glucose loaded and streptozotocin-induced diabetic rats. Methanol extract demonstrated maximum blood glucose lowering potential as compared to other extracts.

Conclusion: The leaf of Clerodendrum philippinum Schauer is endowed with blood sugar lowering potential in both normal and diabetic rats.

 

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References

Venkatanarasimman B, Rajeswari T, Padmapriya B. Antibacterial potential of crude leaf extract of Clerodendrum philippinum Schauer. Int J Pharm Biol Arch 2012;3:307-10.

Satapathy KB, Chand PK. Herbal cure of diabetes. Germany: Lap Lambert AG and Co; 2010. p. 217.

Shrivastava N, Patel T. Clerodendrum and heathcare: an overview. Med Aromatics Plant Sci Biotechnol 2007;1:209-23.

Anonymous. The Wealth of India, Raw Materials. Vol. 2. New Delhi: Council of Scientific and Industrial Research; 2001. p. 69.

Panthong A, Kanjanapothi D, Taylor WC. Ethnobotanical review of medicinal plants from Thai traditional books. Part 1. Plants with antiinflammatory, antiasthmatic and antihypertensive properties. J Ethnopharmacol 1986;18:213-28.

Chen PM, Yung LL, Hsiaq K, Chen CM, Yeh HM, Chuang MH. In vitro induction of differentiation in HL-60 leukemic cell line by Clerodendron fragrans. Am J Chin Med 1988;16:139-44.

Rao DM, Rao UVUB, Sudharshanam G. Ethno-medico-botanical studies from Rayalaseema region of southern eastern ghats, Andhra Pradesh, India. Ethnobotanical Leaflets 2006;10:198-207.

Sharma N, Verma HN. Effect of leaf extracts of Clerodendrum spp. on fruit rotting fungi. Fitoterapia 1991;62:517-8.

Lalitha KG, Sathish R, Gayathri R, Karthikeyan S, Kalaiselvi P, Muthuboopathi G, et al. Effect of leaf extracts of Clerodendrum spp. on fruit rotting fungi. Int J Pharm Res 2010;2:13-5.

Shrestha I, Joshi N. Medicinal plants of the Lele village of Lalitpur District, Nepal. Int J Pharmacogn 1993;31:130-4.

Barua AS, Chowdhury A, Adityachaudhury N. Chemical investigations of Clerodendron fragrans and Clerodendron siphonanthus. Indian J Chem 1989;28:878-9.

Hoang TH, Ha VH, Nguyen HK, Pyne SG. Flavonoids with antioxidant effects extracted recently from leaves of Clerodendron fragrans. Tap Chi Duoc Hoc 2000;3:10-2.

Gao LM, Wei XM, He YQ. Studies on chemical constituents in leafs of Clerodendron fragrans. Zhongguo Zhong Yao ZaZhi 2003;28:948-51.

Taoubi K, Fauvel MT, Gleye J, Fouraste I. Caffeic acid heteroside esters from verbenaceae. Bull Liaison Groupe Polyphenols 1992;16:174-7.

Singh P, Singh CL. Chemical investigations of Clerodendron fragrans. J Indian Chem Soc 1981;58:626-7.

Akihisa T, Matsubara Y, Ghosh P, Thakur S, Shimizu N, Tamura T, et al. The 24-alpha and 24-beta-epimers of 24-ethylcholesta-5,22-dien-3-beta-ol in two Clerodendrum species. Phytochemistry 1988;27:1169-72.

Akihisa T, Ghosh P, Thakur S, Oshikiri S, Tamura T, Matsumoto T. 24-beta-methylcholesta-5,22e,25-trien-3-beta-ol and 24-alpha-ethyl-5-alpha-cholest-22-e-en-3-beta-ol from Clerodendrum fragrans. Phytochemistry 1988;27:241-4.

Akihisa T, Matsubara Y, Ghosh P, Thakur S, Tamura T, Matsumoto T. Sterols of some Clerodendrum species (Verbenaceae): Occurrence of the 24-alpha-and 24-beta-epimers of 24-ethylsterolslacking a delta 25-bond. Steroids 1989;53:625-38.

Pari L, Satheesh MA. Antidiabetic activity of Boerhaavia diffusa L: effect on hepatic key enzymes in experimental diabetes. J Ethnopharmacol 2004;91:109–13.

Kokate CK, Purohit AP, Gokhale SB. Pathway to screen phytochemical nature of natural drugs. In: A text book of pharmacognosy. 19th ed. Pune: Nirali Prakashan; 2007. p. 607-11.

Trease GE, Evans MC. Text book of Pharmacognosy. 12th ed. London: Balliere-Tindal; 1989. p. 343-83.

Adetuyi AO, Popoola AV. Extraction and dyes ability potential studies of the colourant in zanthoxylum zanthoxyloides plant on cotton fabric. J Sci Eng Technol 2001;8:3291-9.

Harbone JB, Baxter HH. Phytochemical Dictionary: A hand Book of Bioactive Compound from plants. Washington: Taylor and Francis; 1993. p. 237.

Jain S, Bhatia G, Barik R, Kumar P, Jain A, Dixit VK. Antidiabetic activity of Paspalum scrobiculatum Linn in alloxan induced diabetic rats. J Ethnopharmacol 2010;127:325–8.

Arulselvan P, Subramanian S. Beneficial effects of Murraya koenigii leaves on antioxidant defense system and ultra structural changes of pancreatic βcells in experimental diabetes in rats. Chem Biol Interact 2007;165:155–64.

Kar DM, Maharana L, Pattnaik S, Dash GK. Studies on hypoglycaemic activity of Solanum xanthocarpum Schrad & Wendl fruit extract in rats. J Ethnopharmacol 2006;108:251-6.

Senthilkumar P, Sudha S, Prakash S. Antidiabetic activity of aqueous extract of Padina boergesenii in streptozotocin-induced diabetic rats. Int J Pharm Pharm Sci 2014;6:418-22.

Rout SP, Kar DM, Mandal PK. Hypoglycaemic activity of aerial parts of Argemone mexicana L in experimental rat models. Int J Pharm Pharm Sci 2011;3 Suppl 5:533-40.

Ngueguim TF, Massa ZB, Kouamouo J, Tchuidjang A, Dzeufiet DPD, Kamtchouing P, et al. Antidiabetic and antioxidant effects of Annona muricata (Annonaceae), aqueous extract on streptozotocin-induced diabetic rats. J Ethnopharmacol 2014;151:784-90.

Dheer R, Bhatnagar P. A study of the antidiabetic activity of Barleria prionitis Linn. Indian J Pharmacol 2010;42:70-3.

Gerspach AC, Steinert RE, Schonenberger L, Graber-Maier A, Beglinger C. The role of the gut sweet taste receptor in regulating GLP-1, PYY, and CCK release in humans. Am J Physiol: Endocrinol Metab 2011;301:317-25.

Mace OJ, Affleck J, Patel N, Kellett GL. Sweet taste receptors in rat small intestine stimulate glucose absorption through apical GLUT2. J Physiol 2011;582:379-92.

Povi L, Batomayena B, Hodé TA, Kwashie E, Kodjo A, Messanvi G. Phytochemical screening, antioxidant and hypoglycemic activity of Coccoloba uvifera leaves and Waltheria indica roots extracts. Int J Pharm Pharm Sci 2015;7:279-83.

Tundis R, Loizzo MR, Menichini F. Natural products as alpha-amylase and alpha-glucosidase inhibitors and their hypoglycaemic potential in the treatment of diabetes: an update. Mini Rev Med Chem 2010;10:315-31.

Kumar S, Narwal S, Kumar V, Prakash O. α-glucosidase inhibitors from plants: A natural approach to treat diabetes. Pharmacogn Rev 2011;5:19-29.

Sales PM, Souza PM, Simeoni LA, Silveira D. α-Amylase inhibitors: a review of raw material and isolated compounds from plant source. J Pharm Pharm Sci 2012;15:141-83.

Dou F, Xi M, Wang J, Tian X, Hong L, Tang H, et al. Alpha-glucosidase and alpha-amylase inhibitory activities of saponins from traditional Chinese medicines in the treatment of diabetes mellitus. Pharmazie 2013;68:300-4.

Mythili MD, Vyas R, Akila G, Gunasekaran S. Effect of streptozotocin on the ultrastructure of rat pancreatic islets. Microsc Res Tech 2004;63:274-81.

Published

01-09-2015

How to Cite

Kar, M. K., T. R. Swain, and S. K. Mishra. “ANTIDIABETIC ACTIVITY OF CLERODENDRUM PHILIPPINUM SCHAUER LEAVES IN STREPTOZOTOCIN INDUCED DIABETIC RATS”. International Journal of Pharmacy and Pharmaceutical Sciences, vol. 7, no. 9, Sept. 2015, pp. 386-9, https://mail.innovareacademics.in/journals/index.php/ijpps/article/view/7428.

Issue

Vol 7, Issue 9, 2015

Section

Original Article(s)