Src Inhibition with Saracatinib Reverses Fulvestrant Resistance in ER-positive Ovarian Cancer Models in Vitro and in Vivo

Overview

Journal Clin Cancer Res

Specialty Oncology

Date 2012 Aug 17

PMID 22896656

Citations 38

Authors

Fiona Simpkins

Pedro Hevia-Paez

Jun Sun

Wendy Ullmer

Candace A Gilbert

Thiago da Silva

Ali Pedram

Ellis R Levin

Isildinha M Reis

Brian Rabinovich

Diana Azzam

Xiang-Xi Xu

Tan A Ince

Ji-Yeon Yang

Roel G W Verhaak

Yiling Lu

Gordon B Mills

Joyce M Slingerland

Affiliations

Soon will be listed here.

Abstract

Purpose: More effective, less toxic treatments for recurrent ovarian cancer are needed. Although more than 60% of ovarian cancers express the estrogen receptor (ER), ER-targeted drugs have been disappointing due to drug resistance. In other estrogen-sensitive cancers, estrogen activates Src to phosphorylate p27 promoting its degradation and increasing cell-cycle progression. Because Src is activated in most ovarian cancers, we investigated whether combined Src and ER blockade by saracatinib and fulvestrant would circumvent antiestrogen resistance.

Experimental Design: ER and Src were assayed in 338 primary ovarian cancers. Dual ER and Src blockade effects on cell cycle, ER target gene expression, and survival were assayed in ERα+ ovarian cancer lines, a primary human ovarian cancer culture in vitro, and on xenograft growth.

Results: Most primary ovarian cancers express ER. Src activity was greater in ovarian cancer lines than normal epithelial lines. Estrogen activated Src, ER-Src binding, and ER translocation from cytoplasm to nucleus. Estrogen-mediated mitogenesis was via ERα, not ERβ. While each alone had little effect, combined saracatinib and fulvestrant increased p27 and inhibited cyclin E-Cdk2 and cell-cycle progression. Saracatinib also impaired induction of ER-target genes c-Myc and FOSL1; this was greatest with dual therapy. Combined therapy induced autophagy and more effectively inhibited ovarian cancer xenograft growth than monotherapy.

Conclusions: Saracatinib augments effects of fulvestrant by opposing estrogen-mediated Src activation and target gene expression, increasing cell-cycle arrest, and impairing survival, all of which would oppose antiestrogen resistance in these ER+ ovarian cancer models. These data support further preclinical and clinical evaluation of combined fulvestrant and saracatinib in ovarian cancer.

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