Thymoquinone Effects on Cell Viability, Apoptosis and VEGF-A Gene Expression Level in AGS(CRL-1739) Cell Line

Author(s):

Mohsen Rashid, Forough Sanjarin* and Farzaneh Sabouni   Pages 820 - 826 ( 7 )

Abstract:

<P>Background: Cancer is one of the most fatal diseases across the world and it was reported that 90% of cancer fatality depends on its angiogenesis potential. Black seed or Nigella sativa L. is a medicinal plant native to southwest Asia. N. sativa has been used for medicinal purposes for centuries and predominantly has bioactive components like Thymoquinone, which is used as a candidate for anti-cancer and anti-angiogenesis drugs. </P><P> Methods: Callus was induced from leaf tissue, after that alcoholic extracts were prepared from three-month-old calluses. Thymoquinone content was measured by HPLC methods. AGS cell line was cultured and treated with standard Thymoquinone and extracts from callus. Then, cell proliferation, expression of angiogenic factor (VEGF-A gene), and apoptosis test were done by MTT assay, real-time PCR and Annexin-v kit, respectively. </P><P> Results: HPLC found the maximum amount of Thymoquinone in the extract of leaf calluses, which were grown in the dark. MTT assay revealed that particular doses of extracts reduced cell proliferation. Real-time and Fluorescence- Activated Cell Sorting (FACS) results demonstrated that standard Thymoquinone and callus extracts down-regulated the VEGF-A gene expression, and all three induced apoptosis in the AGS cell line. </P><P> Conclusion: It has been shown that TQ has pro-apoptotic and anti-metastatic effects on stomach cancer cell line, and these properties can introduce it as an anti-cancer drug in the near future.</P>

Keywords:

Thymoquinone, cell viability, apoptosis, VEGF-A gene expression, AGS cell line, HPLC methods.

Affiliation:

Plant Bioproducts Department, Institute of Agricultural Biotechnology (IAB), National Institute of Genetic Engineering and Biotechnology, Tehran, Plant Bioproducts Department, Institute of Agricultural Biotechnology (IAB), National Institute of Genetic Engineering and Biotechnology, Tehran, Department of Molecular Medicine, National Institute of Genetic Engineering and Biotechnology, Tehran

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