The Effect of Quercetin on Induction of Apoptosis and Cell Proliferation in Experimental Rat Colon Carcinoma

Neuroblastoma (NB) is the most common extra-cranial solid tumor of pediatric age. The prognosis for high-risk NB patients remains poor, and new treatment strategies are desirable. The olive leaf extract (OLE) is constituted by phenolic compounds, whose health beneficial effects were reported. Here, the anti-tumor effects of OLE were investigated in vitro on a panel of NB cell lines in terms of (i) reduction of cell viability; (ii) inhibition of cell proliferation through cell cycle arrest; (iii) induction of apoptosis; and (iv) inhibition of cell migration. Furthermore, cytotoxicity experiments, by combining OLE with the chemotherapeutic topotecan, were also performed. OLE reduced the cell viability of NB cells in a time- and dose-dependent manner in 2D and 3D models. NB cells exposed to OLE underwent inhibition of cell proliferation, which was characterized by an arrest of the cell cycle progression in G0/G1 phase and by the accumulation of cells in the sub-G0 phase, which is peculiar of apoptotic death. This was confirmed by a dose-dependent increase of Annexin V+ cells (peculiar of apoptosis) and upregulation of caspases 3 and 7 protein levels. Moreover, OLE inhibited the migration of NB cells. Finally, the anti-tumor efficacy of the chemotherapeutic topotecan, in terms of cell viability reduction, was greatly enhanced by its combination with OLE. In conclusion, OLE has anti-tumor activity against NB by inhibiting cell proliferation and migration and by inducing apoptosis.

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Down-regulation of Androgen Receptor by 3,3′-Diindolylmethane Contributes to Inhibition of Cell Proliferation and Induction of Apoptosis in Both Hormone-Sensitive LNCaP and Insensitive C4-2B Prostate Cancer Cells

Cancer Research ◽

10.1158/0008-5472.can-06-2011 ◽

2006 ◽

Vol 66 (20) ◽

pp. 10064-10072 ◽

Cited By ~ 76

Author(s):

Mohammad M.R. Bhuiyan ◽

Yiwei Li ◽

Sanjeev Banerjee ◽

Fakhara Ahmed ◽

Zhiwei Wang ◽

...

Keyword(s):

Prostate Cancer ◽

Cell Proliferation ◽

Androgen Receptor ◽

Cancer Cells ◽

Prostate Cancer Cells ◽

Down Regulation ◽

Hormone Sensitive ◽

Induction Of Apoptosis

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Induction of apoptosis in human colon carcinoma COLO 205 cells by the recombinant α subunit of C-phycocyanin

Biotechnology Letters ◽

10.1007/s10529-010-0464-9 ◽

2010 ◽

Vol 33 (3) ◽

pp. 637-644 ◽

Cited By ~ 8

Author(s):

Weihong Lu ◽

Ping Yu ◽

Jianrong Li

Keyword(s):

Colon Carcinoma ◽

Human Colon ◽

Α Subunit ◽

Human Colon Carcinoma ◽

Induction Of Apoptosis

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shRNA against CD44 inhibits cell proliferation, invasion and migration, and promotes apoptosis of colon carcinoma cells

Oncology Reports ◽

10.3892/or.2011.1532 ◽

2011 ◽

Cited By ~ 6

Author(s):

Hyeong Kim

Keyword(s):

Cell Proliferation ◽

Colon Carcinoma ◽

Carcinoma Cells ◽

Invasion And Migration ◽

Colon Carcinoma Cells ◽

And Migration

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Integrated control of cell proliferation and cell death by the c- myc oncogene

Philosophical Transactions of the Royal Society B Biological Sciences ◽

10.1098/rstb.1994.0105 ◽

1994 ◽

Vol 345 (1313) ◽

pp. 269-275 ◽

Cited By ~ 96

Keyword(s):

Cell Proliferation ◽

Cell Death ◽

Transcriptional Activation ◽

Dynamic Equilibrium ◽

Growth Arrest ◽

Deletion Mapping ◽

Potent Inducer ◽

Cellular Environment ◽

Induction Of Apoptosis ◽

Induced Apoptosis

Regulation of multicellular architecture involves a dynamic equilibrium between cell proliferation, differentiation with consequent growth arrest, and cell death. Apoptosis is one particular form of active cell death that is extremely rapid and characterized by auto-destruction of chromatin, cellular blebbing and condensation, and vesicularization of internal components. The c- myc proto-oncogene encodes an essential component of the cell’s proliferative machinery and its deregulated expression is implicated in most neoplasms. Intriguingly, c- myc can also act as a potent inducer of apoptosis. Myc-induced apoptosis occurs only in cells deprived of growth factors or forcibly arrested with cytostatic drugs. Myc-induced apoptosis is dependent upon the level at which it is expressed and deletion mapping shows that regions of c-Myc required for apoptosis overlap with regions necessary for co-transformation, autoregulation, inhibition of differentiation, transcriptional activation and sequence-specific DNA binding. Moreover, induction of apoptosis by c-Myc requires association with c-Myc’s heterologous partner, Max. All of this strongly implies that c-Myc drives apoptosis through a transcriptional mechanism: presumably by modulation of target genes. Two simple models can be invoked to explain the induction of apoptosis by c-Myc. One holds that death arises from a conflict in growth signals which is generated by the inappropriate or unscheduled expression of c-Myc under conditions that would normally promote growth arrest. In this ‘Conflict’ model, induction of apoptosis is not a normal function of c-Myc but a pathological manifestation of its deregulation. It thus has significance only for models of carcinogenic progression in which myc genes are invariably disrupted. The other model holds that induction of apoptosis is a normal obligate function of c-Myc which is modulated by specific survival factors. Thus, every cell that enters the cycle invokes an obligate abort suicide pathway which must be continuously suppressed by signals from the immediate cellular environment for the proliferating cell to survive. Evidence will be presented supporting this second ‘Dual Signal’ model for cell growth and survival, and its widespread implications will be discussed.

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