Volume 8, Issue 8(Suppl)

J Cancer Sci Ther

ISSN: 1948-5956 JCST, an open access journal

Page 97

Notes:

Breast Cancer Congress 2016

September 19-21, 2016

conferenceseries

.com

Breast Cancer

September 19-21, 2016 Phoenix, USA

2

nd

World Congress on

A new isoform oh the znf217 oncogene: deciphering the functional impact and the prognostic

value in breast cancer

Aurélie Bellanger

1,2

, Caterina F. Donini

2,3

, Julie Vendrell

1,2

and

Pascale A Cohen

1,2

1

Université Lyon 1, Lyon, France 

2

INSERM U1052, CNRS UMR5286, Centre de Recherche en Cancérologie de Lyon, Lyon, France

3

Département Cancer et Environnement, Centre Léon Bérard, Lyon, France

B

reast cancer is the most frequently diagnosed cancer and represents the main cause of women death by cancer. Our group

and others have shown that the ZNF217 candidate oncogene provides a selective advantage to cancer cells by inducing

resistance to chemotherapy, in particular by interfering with survival pathways or by deregulating apoptotic signals. High

expression levels of ZNF217 have also been associated with invasion/migration

in vitro

and metastases development

in vivo

in

nude mice. Our group has reported that high levels of

ZNF217

mRNA represent a new biomarker for poor prognosis associated

with shorter relapse-free survival in breast cancer. By classic PCR and further sequencing, we have found and validated the

existence of a new ZNF217 isoform in a panel of breast tumors samples. We aimed at elucidating the impact that plays this new

isoform in breast cancer, in comparison with that of ZNF217 wild-type (WT). We have cloned this ZNF217 variant sequence

in a eukaryotic expression vector and MDA-MB-231 breast cancer cells were stably transfected with the ZNF217-WT or the

ZNF217 isoform encoding plasmids. Ectopic expression of ZNF217 isoform or ZNF217-WT was validated by RT-qPCR in

MDA-MB-231 transfected cells, and several cellular clones were established. We then aimed at investigating and comparing the

phenotype displayed by ZNF217 isoform transfected cells in regards with ZNF217-WT transfected cells. Finally, we investigated

by RT-qPCR the pattern of expression of ZNF217-WT and ZNF217 isoform in a set of 113 primary breast tumors samples.

Biography

Prof P.A. Cohen is Professor in Molecular Biology and Biotechnology in the University of Lyon, France since 2005. She is also Principal Investigator and manages

a team in the CRCL Cancer Research Center of Lyon CRCL UMR INSERM 1052-CNRS 5286, France. She got a degree in Pharmacy (1991), a PhD in Biomedical

Sciences (1995, Univ. Montpellier, France). She was Post-doctoral fellow in the Cancer Research Campaign Laboratories, University of Dundee, Scotland, U.K.

(1996-98, Advisor: Prof. D.P. Lane, F.R.S.) and in Sanofi-Research company (Montpellier, France), Immuno-Oncology Department (1998-99). Currently, her

projects are dedicated to breast cancer research: In vitro, in vivo, genomics and translational medicine approaches to decipher pharmacologic resistance to

anticancer therapies, the deleterious role of the ZNF217 oncogene, the identification of new prognostic or predictive biomarkers, and the impact of environmental

factors exposure on tumor progression. She got several honors such as Exceptional Class Professor Distinction and her research work has been awarded by many

prizes. She is also committed in several national and international education programs and is frequently requested as external scientific referee for international

scientific journals or committees.

Aurélie Bellanger et al., J Cancer Sci Ther 2016, 8:8(Suppl)

http://dx.doi.org/10.4172/1948-5956.C1.082