EVALUATION OF PLANT EXTRACTS AGAINST LUNG CANCER USING H460 CELL LINE

Authors

  • TRIPATHY G Government Polytechnic, Bhubaneswar
  • PRADHAN D University Department of Pharmaceutical Sciences, Utkal University
  • PRADHAN S University Department of Pharmaceutical Sciences, Utkal University
  • DASMOHAPATRA T University Department of Pharmaceutical Sciences, Utkal University

Abstract

Mammalian tumor cells show imperviousness to chemotherapy and its serious symptoms lessens the clinical adequacy of an extensive assortment of anticancer drugs. Plant-derived compounds show numerous valuable impacts and can restrain a few phases of malignancy of cancer. Despite there is paramount progress in cancer therapeutics in the last decades, the need to find, grow new and synergistic plant predicated anticancer specialists are in the developing stage. In the present study, we endeavored to exploit bioactive compounds of two plants viz. Limonia acidissima and Syzygium cumini, investigated their antiproliferative properties for lung cancer and evaluated the haemolytic activity. Methanol extracts of these plants were experimented for cytotoxic activity and found that L.acidissima and S.cumini selectively inhibited H 460 cell proliferation and found that the two plants are non-haemolytic. Our study deduce that the potential bioactive compounds of these plants have vibrant chance to fight lung cancer as were seen to be non-haemolytic to blood cells and they are very much recorded as a traditional medicine for various therapeutic uses.

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References

REFERENCES

Jacob E. Natural products-based drug discovery: Some bottlenecks and

considerations. Curr Sci 2009;96(6):753-4.

Butler MS. The role of natural product chemistry in drug discovery.

J Nat Prod 2004;67(12):2141-53.

Dev S. Ethnotherapeutic and modern drug development: The potential of

Ayurveda. Curr Sci 1997;73:909-28. Devi KV, Pai RS. Antiretrovirals:

Need for an effective drug delivery. Indian J Pharm Sci 2006;68:1-6.

Newman DJ, Cragg GM, Snader KM. Natural products as sources of

new drugs over the period 1981-2002. J Nat Prod 2003;66(7):1022-37.

Llango K, Chitra V. Wound healing and anti-oxidant activities of the

fruit pulp of Limonia acidissima Linn. (Rutaceae) in rats. Trop J Pharm

Res 2010;37:120-5.

Senthilkumar KL, Kumawat KB, Rajkumar M, Senthilkumar.

Antidiarrhoeal activity of bark extracts of Limonia acidissima Linn.

Res J Pharm Biol Chem 2010;1(4):550-3.

Pradhan D, Tripathy G, Pattnaik S. Anti-cancer activity of Limonia

acidissima Linn. (Rutaceae) fruit extracts on human breast cancer cell

lines. Trop J Pharm Res 2012;13(3):413-9.

Pradhan D, Tripathy G. Screening of antiproliferative effect of Limonia

acidissima Linn. fruit extracts on human breast cancer cell lines. Afr J

Pharm Pharmacol 2013;6(7):468-73.

Tripathy G, Pradhan D. Estimation of immunomodulatory activity of

Limonia acidissima Linn. Asian J Pharm Clin Res 2014;7(1):219-21.

Rang HP, Dale MM, Ritter JM, editors. Pharmacology. Edinburgh:

Churchill Livingstone; 1999.

Kirtikar KR, Basu BD. Indian Medicinal Plants. Vol. I. Dehradun,

India: International Book Distributors; 2005. p. 478-9.

Saima Y, Das AK, Sarkar KK, Sen AK, Sur P. An antitumor

pectic polysaccharide from Feronia limonia. Int J Biol Macromol

;27(5):333-5.

Rubinstein LV, Shoemaker RH, Paull KD, Simon RM, Tosini S,

Skehan P, et al. Comparison of in vitro anticancer-drug-screening

data generated with a tetrazolium assay versus a protein assay

against a diverse panel of human tumor cell lines. J Natl Cancer Inst

;82(13):1113-8.

Rastogi R, Mehrotra B. Compendium of Indian Medicinal Plants.

Lucknow, India: Central Drug Research Institute; 2014. p. 388-9.

Tanaka M, Chiu W, Nagashima Y, Taguchi T. Application of

antioxidative maillard reaction products from histidine and glucose to

sardine products. Nippon Suisan Gakkaishi 1988;54(8):1409-14.

Tripathy G, Pradhan D. In-vitro anti breast cancer activity of Syzygium

cumini against MCF-7 cell line. JIPBS 2015;2(2):119-24.

Kokate C. Practical Pharmacognosy. New Delhi: Vallabh Prakashan;

p. 135.

Harbone J. Phytochemical Methods: A Guide to Modern Technique of

Plant Analysis. London: Chapman and Hall Ltd.; 1998. p. 91.

Romijn JC, Verkoelen CF, Schroeder FH. Application of the MTT

assay to human prostate cancer cell lines in vitro: Establishment of test

conditions and assessment of hormone-stimulated growth and druginduced

cytostatic and cytotoxic effects.

Prostate 1988;12(9):99-110.

Gebrelibanos M. In-vitro erythrocyte haemolysis inhibition properties

of Senna singueana extracts. Momona Ethiop J Sci 2012;4(2):16-28.

Hoque M, Dave S, Gupta P, Saleemuddin M. Oleic acid may be the

key contributor in the BAMLET-induced erythrocyte hemolysis and

tumoricidal action. PLoS One 2013;8(3):e68390.

Raj CN, Balasubramaniam A. Pharmacogostic and antimicrobial

studies of the leaves of Tabernaemontana divaricata R.br. Pharmacol

Online 2011;2:1171-7.

Borra RC, Lotufo MA, Gagioti SM, Barros Fde M, Andrade PM.

A simple method to measure cell viability in proliferation and

cytotoxicity assays. Braz Oral Res 2009;23:255-62.

Podolak I, Galanty A, Sobolewska D. Saponins as cytotoxic agents: A

review. Phytochem Rev 2010;9(3):425-474.

Published

01-03-2016

How to Cite

G, T. ., P. . D, P. . S, and D. . T. “EVALUATION OF PLANT EXTRACTS AGAINST LUNG CANCER USING H460 CELL LINE”. Asian Journal of Pharmaceutical and Clinical Research, vol. 9, no. 2, Mar. 2016, pp. 227-9, https://mail.innovareacademics.in/journals/index.php/ajpcr/article/view/10456.

Issue

Vol 9 Issue 2 (March-April) 2016

Section

Original Article(s)

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