Sodium Butyrate (NaBu) is regarded as a potential reagent for cancer therapy. In this study, a specific breast cancer cell population that is resistant NaBu treatment was identified. These cells possess cancer stem cell characters, such as the capability of sphere formation in vitro and high tumor incident rate (85%) in mouse model. Forty percent of the NaBu resistant cells express the cancer stem cells marker, the CD133, whereas only 10% intact cells present the CD133 antigen. Furthermore, the endogenous expressing c-MET contributes to the survival of cancer stem cell population from the treatment of NaBu. The CD133+ group also presents a higher level of c-MET. A combination treatment of MET siRNA and NaBu efficiently prohibited the breast cancer progression, and the incident rate of the tumor decrease to 18%. This study may help to develop a new and alternative strategy for breast cancer therapy

A Bardelli

A Fotovati

B Peruzzi

Bo Sun

C Pellizzaro

E Lengyel

E Matteucci

E Vincan

F Lallemand

J Easmon

JM Swiercz

K Nohara

M Tokunou

Masaru Katoh

MR Finkbeiner

MZ Ratajczak

N Puri

P Grudzien

R Bu

Rui Liu

SMK Pulukuri

V Chopin

VA Soldatenkov

WW Hwang-Verslues

Xuan Zhu

Y Miyata

Zhong-Dang Xiao

PLoS ONE

English

PubMed

Sodium butyrate (NaBu) is regarded as a potential reagent for cancer therapy. In this study, a specific breast cancer cell population that is resistant NaBu treatment was identified. These cells possess cancer stem cell characters, such as the capability of sphere formation in vitro and high tumor incident rate (85%) in mouse model. Forty percent of the NaBu resistant cells express the cancer stem cells marker, the CD133, whereas only 10% intact cells present the CD133 antigen. Furthermore, the endogenous expressing c-MET contributes to the survival of cancer stem cell population from the treatment of NaBu. The CD133+ group also presents a higher level of c-MET. A combination treatment of MET siRNA and NaBu efficiently prohibited the breast cancer progression, and the incident rate of the tumor decrease to 18%. This study may help to develop a new and alternative strategy for breast cancer therapy

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c-MET protects breast cancer cells from apoptosis induced by sodium butyrate.

<div><p>Sodium Butyrate (NaBu) is regarded as a potential reagent for cancer therapy. In this study, a specific breast cancer cell population that is resistant NaBu treatment was identified. These cells possess cancer stem cell characters, such as the capability of sphere formation <em>in vitro</em> and high tumor incident rate (85%) in mouse model. Forty percent of the NaBu resistant cells express the cancer stem cells marker, the CD133, whereas only 10% intact cells present the CD133 antigen. Furthermore, the endogenous expressing c-MET contributes to the survival of cancer stem cell population from the treatment of NaBu. The CD133+ group also presents a higher level of c-MET. A combination treatment of MET siRNA and NaBu efficiently prohibited the breast cancer progression, and the incident rate of the tumor decrease to 18%. This study may help to develop a new and alternative strategy for breast cancer therapy.</p> </div

Bo Sun (177052)

Rui Liu (54031)

Zhong-Dang Xiao (188222)

Xuan Zhu (188226)

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c-MET Protects Breast Cancer Cells from Apoptosis Induced by Sodium Butyrate

Crossref

Sun Bo

Liu Rui

Xiao Zhong-Dang

Zhu Xuan

Public Library of Science (PLOS)

New Faculty Start-Up Program on Science Research; Southeast University; Key Project of Fujian Social Development [2010Y0054]Sodium Butyrate (NaBu) is regarded as a potential reagent for cancer therapy. In this study, a specific breast cancer cell population that is resistant NaBu treatment was identified. These cells possess cancer stem cell characters, such as the capability of sphere formation in vitro and high tumor incident rate (85%) in mouse model. Forty percent of the NaBu resistant cells express the cancer stem cells marker, the CD133, whereas only 10% intact cells present the CD133 antigen. Furthermore, the endogenous expressing c-MET contributes to the survival of cancer stem cell population from the treatment of NaBu. The CD133+ group also presents a higher level of c-MET. A combination treatment of MET siRNA and NaBu efficiently prohibited the breast cancer progression, and the incident rate of the tumor decrease to 18%. This study may help to develop a new and alternative strategy for breast cancer therapy

Sun, Bo

Liu, Rui

Xiao, Zhong-Dang

Zhu, Xuan

朱铉

Xiamen University Institutional Repository

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c-MET Protects Breast Cancer Cells from Apoptosis Induced by Sodium Butyrate

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