Dietary Chemoprevention Agent Sulforaphane Inhibits Growth, Survival and Tumorigenic Activity in Human Neuroblastoma

Bayat Mokhtari, Reza

14 December 2010

Objective: To evaluate the anti-tumor and histone deacetylase (HDAC) inhibitory activity of the dietary isothiocyanate, sulforaphane (SFN) in the paediatric cancer,neuroblastoma (NB). Materials and Methods: NB cell line (NUB-7), fibroblasts (FLF; negative control) and MCF-7 (positive control), were treated with SFN for up to 7 days and effects on growth, cytotoxicity, differentiation and tumorigenicity assessed. HDAC inhibition was determined by histone (H3/ H4) acetylation. Results: 10 μM SFN significantly decreased in vitro growth and survival of NUB-7 to 10.22 ± 0.71% (p < 0.001) with no significant effect on FLF. SFN induced G1, G2 and S phase cell cycle arrests and stimulated H3/H4 histone acetylation. SFN markedly decreased NUB-7 clonogenicity and tumorigenicity in vivo. Conclusion: Results suggest that low dose SFN reduces proliferation, survival and tumorigenicity of NB NUB-7. As a dietary factor of negligible intrinsic toxicity SFN is a promising therapeutic agent for the treatment of NB.

Neuroblastoma

Sulforaphane

Apotosis

Cell cycle arrest

Differentiation

Dietary Compond

chemoprevention

Tumorigenic activity

0564

Dietary Chemoprevention Agent Sulforaphane Inhibits Growth, Survival and Tumorigenic Activity in Human Neuroblastoma

Bayat Mokhtari, Reza

14 December 2010

Objective: To evaluate the anti-tumor and histone deacetylase (HDAC) inhibitory activity of the dietary isothiocyanate, sulforaphane (SFN) in the paediatric cancer,neuroblastoma (NB). Materials and Methods: NB cell line (NUB-7), fibroblasts (FLF; negative control) and MCF-7 (positive control), were treated with SFN for up to 7 days and effects on growth, cytotoxicity, differentiation and tumorigenicity assessed. HDAC inhibition was determined by histone (H3/ H4) acetylation. Results: 10 μM SFN significantly decreased in vitro growth and survival of NUB-7 to 10.22 ± 0.71% (p < 0.001) with no significant effect on FLF. SFN induced G1, G2 and S phase cell cycle arrests and stimulated H3/H4 histone acetylation. SFN markedly decreased NUB-7 clonogenicity and tumorigenicity in vivo. Conclusion: Results suggest that low dose SFN reduces proliferation, survival and tumorigenicity of NB NUB-7. As a dietary factor of negligible intrinsic toxicity SFN is a promising therapeutic agent for the treatment of NB.

Neuroblastoma

Sulforaphane

Apotosis

Cell cycle arrest

Differentiation

Dietary Compond

chemoprevention

Tumorigenic activity

0564