Ovarian carcinoma patient derived xenografts reproduce their tumor of origin and preserve an oligoclonal structure.

Pierre-Emmanuel Colombo,Béatrice Orsetti,Mario B Lambros,Jorge S Reis-Filho,Alan Mackay,Tien-Tuan Nguyen,Rui Bras-Gonçalves,Stanislas Du Manoir,Didier Pourquier,Frédéric Bibeau,Charles Theillet,Florence Boissière

doi:10.18632/oncotarget.5069

Abstract

Advanced Epithelial Ovarian Cancer (EOC) patients frequently relapse by 24 months and develop resistant disease. Research on EOC therapies relies on cancer cell lines established decades ago making Patient Derived Xenografts (PDX) attractive models, because they are faithful representations of the original tumor. We established 35 ovarian cancer PDXs resulting from the original graft of 77 EOC samples onto immuno-compromised mice. PDXs covered the diversity of EOC histotypes and graft take was correlated with early patient death. Fourteen PDXs were characterized at the genetic and histological levels. PDXs reproduced phenotypic features of the ovarian tumors of origin and conserved the principal characteristics of the original copy number change (CNC) profiles over several passages. However, CNC fluctuations in specific subregions comparing the original tumor and the PDXs indicated the oligoclonal nature of the original tumors. Detailed analysis by CGH, FISH and exome sequencing of one case, for which several tumor nodules were sampled and grafted, revealed that PDXs globally maintained an oligoclonal structure. No overgrowth of a particular subclone present in the original tumor was observed in the PDXs. This suggested that xenotransplantation of ovarian tumors and growth as PDX preserved at least in part the clonal diversity of the original tumor. We believe our data reinforce the potential of PDX as exquisite tools in pre-clinical assays.

Highlights

Epithelial Ovarian Cancer (EOC) is the leading cause of gynaecologic cancer-related mortality in women worldwide [1]
We assessed Patient Derived Xenografts (PDX) take at passage 1 (P1) and at passage 3 (P3)
Eleven and 16 grafts were under assessment (UA) at P1 and P3 respectively and were not included in the statistical analyses

Summary

Introduction

Epithelial Ovarian Cancer (EOC) is the leading cause of gynaecologic cancer-related mortality in women worldwide [1]. Its insidious progression explains why 75% of the patients present at diagnosis with tumour spread throughout the abdominal cavity [1]. Despite frequent complete clinical response, most patients with advanced stages relapse after a mean period of 18 months and develop treatment resistant disease [1,2,3]. Ovarian tumors are stratified according to 5 histological types, tumor grading and disease stages. Whilst type I EOCs present frequent KRAS activation, occasional TP53 mutations and a relatively favorable outcome, type II present a reverse picture with rare KRAS activation, over 95% of TP53 mutations and an adverse outcome [6]

Methods

Results

Conclusion