Bactericidal, fungicidal and anthelmintic activities of Alstonia scholaris bark extracts

Authors

  • Naveen Kumar H N Dept. of Biotechnology, The Oxford College of Science, Bangalore - 102 Karnataka India
  • Badarinath D Kulkarni Dept. of Biotechnology, The Oxford College of Science, Bangalore - 102 Karnataka India
  • JOY HARRIS HOSKERI Dept. of Biotechnology, The Oxford College of Science, Bangalore - 102 Karnataka India
  • Shruthi S. D Department of Biotechnology, The Oxford College of Science, Bangalore – 560 102, Karnataka, India. ,Department of P.G. Studies and Research in Biotechnology and Bioinformatics, Kuvempu University, Shankaraghatta – 577 451, Shimoga, Karnataka, India.
  • Tarveen Jandoo Consultant Medical Writer, New Delhi, India.
  • Vedamurthy A B Dept. of Biotechnology, The Oxford College of Science, Bangalore - 102 Karnataka India

Keywords:

Bactericidal activity, Fungicidal activity, Anthelmintic activity, Alstonia scholaris, Apocynaceae

Abstract

Plant based medicines are effective against many human infectious diseases either by paralysing or killing the pathogen. In the present study, petroleum ether, chloroform, ethanol and aqueous extracts of Alstonia scholaris bark were screened for their bactericidal, fungicidal and anthelmintic properties. Antibacterial activity revealed that chloroform extract at the 20 mg/ml showed significant antibacterial effect. Nevertheless, petroleum ether, ethanol and aqueous extracts also showed antibacterial effect against E. coli and S. dyscentreae, but less effective than chloroform extract. All the extracts were not as potent as the standard drug ciprofloxacin. Fungicidal activity revealed that among all the test extracts, ethanol extract at 20 mg/ml showed significant fungicidal effect against Rhizopus. . Interestingly, petroleum ether and ethanol extracts at 20 mg/ml showed more significant fungicidal action when compared to standard drug sulphamethoxazole. Anthelmintic activity of A. scholaris extracts was carried out at four different concentrations viz., 2.5, 5.0, 10.0 and 20.0 mg/ml to evaluate their effect in inducing paralysis and death in Pheretima posthuma. Anthelmintic activity revealed that petroleum ether extract at 20 mg/ml induced paralysis in worms within 12 min and death within 25.33 min. However, chloroform, ethanol and aqueous extracts at 20 mg/ml also showed significant anthelmintic activity. Among all the extracts of A. scholaris, chloroform extract was most potent at concentration 20 mg/ml but less efective than standard drug albendazole. This investigation revealed that all the extracts of A. scholaris showed efficient bactericidal, fungicidal and anthelmintic activity against the test pathogens indicating the medicinal property of A. scholaris.

References

World Health Organization. WHO Traditional Medicine Strategy 2002-2005. World Health Organization Document, WHO/EDM/TRM/2002.1, Geneva, Switzerland.; 2002.

Samy RP, Pushparaj PN, Gopalakrishnakone PA. Compilation of bioactive compounds from Ayurveda. Bioinformation. 2008;3(3):100-110.

Sukh D. Ethnotherapeutics and modern drug development: Potential of Ayurveda. Curr Sci. 1997;73(11):909-928.

Samy RP, Ignacimuthu S. Antibacterial activity of some folklore medicinal plants used by tribals in Western Ghats of India. J Ethnopharmacol. 2000;69(1):63-71.

Nadkarni KM. Indian Materia Medica. Vol I, Bombay Popular Prakashan, Bombay, India.1991; p.80–83.

Kirtikar KR, Basu BD. Indian Medicinal Plants, Vol. II, Dehradun. 1980; p.111-113.

Shah VK, Chauhan MD. Abhinav Madhumeh Vigyana, 1st ed. Varanasi, Chaukhamba Orientalia.; 2003.

Gandhi M, Vinayak VK. Preliminary evaluation of extracts of Alstonia scholaris bark for in vivo antimalarial activity in mice. J Ethnopharmacol. 1990; 29(1):51-57.

Lim-Sylianco CY, Jocano AP, Linn CM. Antimutagenicity of twenty Philippine plants using the micronucleus test in mice. Phillippine J Sci. 1990;177:231-235.

Goyal M, Varshney A. Effects of natural products isolated from three species of Alstonia on some gram-positive and gram-negative bacteria. Indian Drug. 1995;32:69-72.

Patil S, Juvekar AR, Joglekar SN, Shamkuwar PB, Nimbkar SR. Study of antidiarrhoeal activity of Alstonia scholaris bark. Indian Drugs, 1999;36:463-466.

Iwo I, Soemardji AA, Retnoningrum DS, Sukrasno UM. Immunostimulating effect of pule (Alstonia scholaris L. RBr., Apocynaceae) bark extracts. Clin Hemorheol Microcirc. 2000;23(2-4):177-183.

Gupta RS, Sharma R, Sharma A, Bhatnager AK, Dobhal MP, Joshi YC, Sharma MC. Effect of Alstonia scholaris bark extract on testicular function of Wistar rats. Asian J. Androl. 2002; 4(3):175-178.

Jagetia GC, Baliga MS. Induction of developmental toxicity in mice treated with Alstonia scholaris (Sapthaparna) In utero. Birth Defects Res B Dev Reprod Toxicol. 2003;68(6):472-478.

Jagetia GC, Baliga MS. Evaluation of anticancer activity of the alkaloid fraction of Alstonia scholaris (Sapthaparna) in vitro and in vivo. Phytother Res. 2006;20(2):103-109.

Shang JH, Cai XH, Zhao YL, Feng T, Luo XD. Pharmacological evaluation of Alstonia scholaris: anti-tussive, anti-asthmatic and expectorant activities. J Ethnopharmacol. 2010;16:129(3):293-298.

Sinnathambi A, Papiya MM, Sathiyanarayanan L, Prasad T. Antidiabetic and antihyperlipidemic activity of leaves of Alstonia scholaris Linn. RBr. Euro J Integ Med. 2010;2(1):23-32.

Shang JH, Cai XH, Feng T, Zhao YL, Wang JK, Zhang LY, Yan M, Luo XD. Pharmacological evaluation of Alstonia scholaris: anti-inflammatory and analgesic effects. J Ethnopharmacol. 2010;129(2):174-181.

Guynot ME, Marin S, Sanchis V, Ramos AJ. Modified atmosphere packaging for prevention of mold spoilage of bakery products with different pH and water activity levels. J Food Prot. 2003;66:1864-1872.

Cohen ML. Epidemiology of drug resistance: implications for a post-antimicrobial era. Science 1992;257:1050-1055.

Perry BD, Randolph TF, McDermott JJ, Sones KR, Thornton PK. Investing in Animal Health Research to Alleviate Poverty. International Livestock Research Institute (ILRI), Nairobi. 2002; p. 148 -149.

Perry BD, Randolph TF. Improving the assessment of the economic impact of parasitic diseases and of their control in production animals. Veter Parasit. 1999;84(3-4):145-168.

Bundy DA. Immunoepidemiology of intestinal helminthic infection I: The global burden of intestinal nematode disease. Transact Royal Soc Trop Med Hyg. 1994;88(3):259-261.

Tagbota S, Townson S. Antiparasitic properties of medicinal and other naturally occurring products. Adv Parasit. 2001;50:199-205.

Niranjan S, Ranju G, Uma SS, Umesh KS, Amit J. Anthelmintic activity of Platycladus orientalisleaves extract. Int J Parasit Res. 2010;2(2):01-03.

Geert S, Dorny P. Anthelmintic resistance in helminthes of animals of man in the tropics. Bullet des Sean, Academ Royal des Sci Dutre Mer. 1995;3:401-423.

Coles GC. Nematode control practices and anthelmintic resistance on British sheep farms. J Brit Vet Assoc Vet Rec. 1997;141:91-93.

Waghorn GC, McNabb WC. Consequences of plant phenolic compounds for productivity and health of ruminants. ProcNut Soc. 2003;62:383-392.

Satyavati GV, Raina MK, Sharma M. Medicinal Plants of India. Ind Coun Med Res. Vol. 1. New Delhi, India. 1976; p. 201-206.

Lewis WH, Elvin LMPH. Medicinal Botany Plants Affecting Man’s Health. John Wiley & Sons, New York; 1977.

Nadkarni AK. Indian Materia Medica. Popular Prakashan. Ed 3, Bombay, India; 1954.

Chopra RN, Nayyar SL, Chopra IC. Glossary of Indian Medicinal Plants. Coun Sci Ind Res. New Delhi, India. 1956; p.160-161.

Said M. Hamdard Pharmacopea of Eastern Medicine. Hamdard National Foundation. Karachi, Pakistan. 1969; p. 78-91.

Akhtar MS, Zafar I, Khan MN, Muhammad L. Anthelmintic activity of medicinal plants with particular reference to their use in animals in Indo-Pakistan subcontinent. Small Rum Res. 2000;38:99-107.

Thorn GW, Adams RD, Brundwal E, Isselbacher KJ, Petersdort RG. Harrison Principles of Internal Medicine, McGraw Hill Co. New York. 1977; p. 1088- 1089.

Vigar Z. Atlas of Medical Parasitology, PG Publishing House, Singapore. 1984; p. 216-217.

Ajaiyeoba EO, Onocha PA, Olarenwaju OT. In vitro anthelmintic properties of Buchholzia coriaceae and Gynandropsis gynandra extract. Pharm Bio. 2001;39:217-220.

Sollmann T. Anthelmintics: their efficiency as tested on earth worms. J Pharm Exp Ther. 1918;112:129-170.

Jain ML, Jain SR. Therapeutic utility of Ocimum basilicum var album. Plant Medicine. 1972;22:66-70.

Dash GK, Suresh P, Kar DM, Ganpaty S, Panda SB. Evaluation of Evolvulus alsinoids Linn for anthelmintic and antimicrobial activities. J Nat Remed. 2002;2:182-185.

Shivkar YM, Kumar VL. Anthelmintic activity of latex of Calotropis procera. Pharm Bio. 2003;41:263-65.

Mali RG, Shailaja M, Patil KS. Anthelmintic activity of root bark of Capparis spinosa. Ind J Nat Prod. 2005;21:50-51.

Martin RJ. γ-amino butyric acid and piperazine activated single channel current from Ascaris suum body muscle. Brit J Pharm. 1985;84:445-461.

Bauer AW, Kirby WM M, Sherris JC, Jurck M. Antibiotic susceptibility testing by a standardized single disk method. Am. J. Clin. Pathol. 1966;45(4):493-496.

Nagalakshmi HS, Arijit Das, Sourav B. Assessment of Antimicrobial properties and phytochemical contents of leaf extracts of Plectranthus amboinicus (Lour.) Spreng. Int J Green Herb Chem. 2012;1(2):101-107.

Shabana C, Dar A, Shakeel A, Rahman A. Evaluation of Alstonia scholaris for broncho vasodilator activity. J Ethnopharm. 2005;97:469-476.

Downloads

Published

31-03-2013

How to Cite

1.
Naveen Kumar H N, Badarinath D Kulkarni, JOY HARRIS HOSKERI, Shruthi S. D, Tarveen Jandoo, Vedamurthy A B. Bactericidal, fungicidal and anthelmintic activities of Alstonia scholaris bark extracts. ijp [Internet]. 2013 Mar. 31 [cited 2024 Nov. 22];5(1):18-25. Available from: https://ijp.arjournals.org/index.php/ijp/article/view/224

Issue

Section

Original Research Articles