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Chemical constituents from the rhizomes of Curcuma zedoaria and assessment of their biological activities
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Chemical Sciences Journal

ISSN: 2150-3494

Open Access

Chemical constituents from the rhizomes of Curcuma zedoaria and assessment of their biological activities


10TH ANNUAL Chemistry & Mass Spectrometry Congress

OCTOBER 18-19, 2017 OSAKA, JAPAN

Omer Abdalla Ahmed Hamdi

Al-Neelain University, Sudan

Scientific Tracks Abstracts: Chem Sci J

Abstract :

Phytochemical investigation of C. zedoaria resulted in the isolation of 21 compounds. Isolated compounds include 18 sesquiterpenes and three labdane diterpenes. Various chromatographic techniques were used for the detection and isolation of the compounds. Extensive spectroscopic methods including NMR, IR, UV, GC-MS, LC-MS were used for the identification of the isolated compounds. Isolated compounds were subjected to cytotoxicity, anti-oxidant and neuroprotective assays. Curcumenol and dehydrocurdione showed the highest protection (100%) against hydrogen peroxide induced oxidative stress in NG108-15 cells at the concentrations of 4 and 8 �µM, respectively. In the oxygen radical antioxidant capacity assay, zerumbone epoxide showed the highest antioxidant activity with a Trolox Equivalent (TE) of 35.41 �µM per 100 �µg of sample. In the MTT based cytotoxicity assay against four cancer cell lines (Ca 41 Ski, MCF-7, PC-3 and HT-29), curcumenone and curcumenol displayed strong anti-proliferative activity (IC50 8.3 and 9.3 �µg/ml, respectively). A quantum chemical study was performed to investigate their relationship with cytotoxic activity and revealed that the dipole moment (�µ), molecular volume (V), molecular area (A), polarizability (�±) and hydrophobicity (log P) are the most important descriptors that influence the cytotoxic activity of the compounds under investigation. The two most active compounds; curcumenol and curcumenone were investigated for their binding to Human Serum Albumin (HSA). The spectroflurometric analysis, in conjunction with molecular docking study suggested that both curcumenol and curcumenone could bind to binding sites I and II of HSA with intermediate affinity while site I was the preferred binding site for both molecules.

Biography :

Omer Abdalla Ahmed Hamdi has completed his PhD from University Malaya in Malaysia. He is the Director of Center of Natural Product Research and Drug Discovery. He has published more than 12 papers in reputed journals.
Email:omerhamdi2001@hotmail.com

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