Zakaria A.M., Zein H.S. u.a.
Sydowia Vol. 70 E-Book/S 99-105
Effect of Agaricus bisporus exo-polysaccharides on MCF-7 breast ca
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In: Sydowia 70, (2018): 99-105, ISSN 0082-0598, DOI 10.12905/0380.sydowia70-2018-0099, Published online on May 4th, 2018

Effect of Agaricus bisporus exo-polysaccharides on MCF-7 breast cancer cell-line
Amal M. Zakaria, Haggag S. Zein, Olfat S. Barakat & Salah E. Mohammeden

Zakaria A.M., Zein H.S., Barakat O.S. & Mohammeden S.E. (2018) Effect of Agaricus bisporus exo-polysaccharides on MCF- 7 breast cancer cell-line. – Sydowia 70: 99–105.

The cultivated mushroom Agaricus bisporus is nowadays one of the most widely consumed mushrooms, which contains a high level of bioactive compounds with different pharmaceutical values. The current work aims to maximize the exopolysaccharide production from Agaricus bisporus using different substrate additives, and study their effect on gene expression, cell cycle and cell proliferation of MCF7 breast cancer cell line. Different substrate additives (tryptone, peptone, yeast extract, MgSO4, glucose, and sucrose) were investigated individually using submerged culture for production of mycelia and exopolysaccharides. Medium containing tryptone additive produced the highest yield of mycelial biomass, while highest amount of exopolysaccharides was produced from medium containing sucrose additive. Polysaccharide extract was applied on MCF-7 cell line using different con­centrations and showed no cytotoxic effect with a decrease of cells proliferation activity by 30 % using 8000 µg/ml extract con­centration. QPCR was used for evaluation of different apoptotic gene expression; TNFa, p53, Caspase9, Bcl2, and Bax. The extract induced genes activity by 2 fold for TNFa and Caspase9, one fold for p53 and Bax, and only 0.8 fold for Bcl2. Assessment of ap­optosis and cell cycle using flow cytometry revealed that polysaccharides arrest G1/G2 phase, resulting in 5.5 % apoptosis in treated cells.

Key words: Agaricus bisporus, polysaccharides, anti-proliferation, cell-cycle arresting, gene expression.
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