First Ayurvedic Approach Towards Green Drugs: Anti Cervical Cancer-Cell Properties of Clerodendrum viscosum Root Extract

Author(s): Chong Sun, Swami Nirmalananda, Charles E. Jenkins, Shawon Debnath, Rema Balambika, Jimmie E. Fata, Krishnaswami S. Raja

Journal Name: Anti-Cancer Agents in Medicinal Chemistry
(Formerly Current Medicinal Chemistry - Anti-Cancer Agents)

Volume 13 , Issue 10 , 2013

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The concept of Ayurvedic expert guided drug discovery and development is defined and put to test systematically for the first time in literature. Western Science has explored only ~5% of the approximately 25,000 species of higher plants for drug leads. The ancient medical science of Ayurveda has however employed a much larger spectrum of plants for clinical treatment. Clerodendrum viscosum (CV), a commonly growing weed in the Indian subcontinent has been employed by S. Nirmalananda (Ayurvedic expert) for the treatment of cervical cancer. Here we isolate and characterize a water extract fraction (Cv-AP) from the root of CV and evaluate its anticervical cancer cell bioactivity. Our results indicate that Cv-AP possesses pro-apoptotic, anti-proliferative, and anti-migratory activity in a dose-dependent fashion against cervical cancer cell lines. In contrast, primary fibroblasts (control healthy cells), when exposed to similar concentrations of this extract, fail to undergo apoptosis and remain relatively unaffected. These findings suggest that Clerodendrum viscosum (CV) is a readily available source of components with potent anti-cancer activity and selective bioactivity against cervical cancer cells. The major component in CV-AP was identified as a glycoprotein via SDS Page and Concanavalin-A binding studies. This study serves to illustrate that systematic collaboration with Ayurveda is a practical and powerful strategy in drug discovery and development.

Keywords: Ayurveda, cervical cancer, clerodendrum viscosum, drug discovery, green drug.

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Article Details

Year: 2013
Published on: 06 December, 2013
Page: [1469 - 1476]
Pages: 8
DOI: 10.2174/18715206113139990138
Price: $65

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