Research Papers:
Phenformin has anti-tumorigenic effects in human ovarian cancer cells and in an orthotopic mouse model of serous ovarian cancer
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Abstract
Amanda L. Jackson1,*, Wenchuan Sun2,*, Joshua Kilgore3, Hui Guo2,4, Ziwei Fang2,5, Yajie Yin2, Hannah M. Jones2, Timothy P. Gilliam2, Chunxiao Zhou2,6 and Victoria L. Bae-Jump2,6
1Division of Gynecologic Oncology, University of Cincinnati, Cincinnati, OH, USA
2Division of Gynecologic Oncology, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA
3Houston Methodist Gynecologic Oncology Associates, Houston, TX, USA
4Department of Gynecologic Oncology, Shandong Cancer Hospital & Institute, Jinan, P.R. China
5Department of Obstetrics, Beijing Obstetrics and Gynecology Hospital, Capital Medical University, Beijing, P.R. China
6Lineberger Comprehensive Cancer Center, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA
*These authors have contributed equally to this work
Correspondence to:
Victoria L. Bae-Jump, email: [email protected]
Chunxiao Zhou, email: [email protected]
Keywords: ovarian cancer, phenformin, AMPK/mTOR pathway, cell proliferation, apoptosis
Received: August 06, 2017 Accepted: September 30, 2017 Published: October 24, 2017
ABSTRACT
Obesity and diabetes have been associated with increased risk and worse outcomes in ovarian cancer (OC). The biguanide metformin is used in the treatment of type 2 diabetes and is also believed to have anti-tumorigenic benefits. Metformin is highly hydrophilic and requires organic cation transporters (OCTs) for entry into human cells. Phenformin, another biguanide, was taken off the market due to an increased risk of lactic acidosis over metformin. However, phenformin is not reliant on transporters for cell entry; and thus, may have increased potency as both an anti-diabetic and anti-tumorigenic agent than metformin. Thus, our goal was to evaluate the effect of phenformin on established OC cell lines, primary cultures of human OC cells and in an orthotopic mouse model of high grade serous OC. In three OC cell lines, phenformin significantly inhibited cellular proliferation, induced cell cycle G1 arrest and apoptosis, caused cellular stress, inhibited adhesion and invasion, and activation of AMPK and inhibition of the mTOR pathway. Phenformin also exerted anti-proliferative effects in seven primary cell cultures of human OC. Lastly, phenformin inhibited tumor growth in an orthotopic mouse model of serous OC, coincident with decreased Ki-67 staining and phosphorylated-S6 expression and increased expression of caspase 3 and phosphorylated-AMPK. Our findings demonstrate that phenformin has anti-tumorigenic effects in OC as previously demonstrated by metformin but it is yet to be determined if it is superior to metformin for the potential treatment of this disease.
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