International Journal of Anatomy and Physiology

International Journal of Anatomy and Physiology ISSN: 2326-7275 Vol. 6 (6), pp. 001-007, June, 2017. © International Scholars Journals

Full Length Research Paper

Investigations on DNA protective and antioxidant potential of chloroform and ethyl acetate fractions of Koelreuteria paniculata Laxm.

Manish Kumar¹, Subodh Kumar² and Satwinderjeet Kaur¹*

¹Department of Botanical and Environmental Sciences, Guru Nanak Dev University, Amritsar-143005, Punjab, India.

²Department of Chemistry, Guru Nanak Dev University, Amritsar-143005, Punjab, India.

Accepted 17 March, 2017

Abstract

Reactive oxygen (ROS) species have been known as a contributory factor in the etiology of cancer and various neurodegenerative diseases. ROS are produced as a result of normal metabolic processes occurring in the human body. Therapy using free radical scavengers have the potential to prevent, delay many disorders. The crude extracts and natural pure compounds from plants are reported to have antioxidant activity. Keeping this in mind, the chloroform fraction (KCF) and ethyl acetate fraction (KEA fraction) isolated from leaves of Koelreuteria paniculata (Sapindaceae) was investigated for its genoprotective potential against the DNA damage induced by Fenton’s reagent in pUC18 plasmid DNA. Further, the fractions were examined for their superoxide anion radical scavenging, 2, 2- Diphenyl-1-picrylhydrazyl (DPPH) radical scavenging, ABTS radical scavenging and reducing power potential. The fractions significantly protected the DNA damage induced by the hydroxyl radicals generated by Fenton’s reagent. The KCF and KEA fractions scavenged the superoxide anions by 19.59% (EC₅₀ = N.D) and 67.12% (EC₅₀ 167.59 µg/ml) respectively, DPPH radicals by 79.96% (EC₅₀ 121.98 µg/ml) and 86.04% (EC₅₀ 105 µg/ml) respectively; ABTS cation radicals by 87.63% (EC₅₀ 75.48) and 94.3% (EC₅₀ 62.12) respectively and showed reducing potential of 95.27% (EC₅₀ 60.94 µg/ml) and 80.03% (EC₅₀ 72.70 µg/ml) respectively.

Key words: Reactive oxygen species, Fenton’s reagent, genoprotective potential, DNA damage.