Oops, you're using an old version of your browser so some of the features on this page may not be displaying properly.

MINIMAL Requirements: Google Chrome 24+Mozilla Firefox 20+Internet Explorer 11Opera 15–18Apple Safari 7SeaMonkey 2.15-2.23

Poster Display session

6P - Unveiling the impact of intra-tumor heterogeneity in treatment response to achieve personalized medicine for endometrial cancer patients

Date

23 Feb 2023

Session

Poster Display session

Presenters

Beatriz Villafranca Magdalena

Citation

Annals of Oncology (2023) 8 (1suppl_1): 100854-100854. 10.1016/esmoop/esmoop100854

Authors

B. Villafranca Magdalena1, M. Denizli2, C. Masferrer-Ferragutcasas1, M. Rebull1, G. Parra3, Á. García4, S. Cabrera4, A. Gil-Moreno4, C. P Moiola1, E. Colas1

Author affiliations

  • 1 VHIR - Vall d'Hebron Institut de Recerca, Barcelona/ES
  • 2 VHIR - Vall d'Hebron Institut de Recerca, 08035 - Barcelona/ES
  • 3 Barcelona Institute of Science and Technology, Barcelona/ES
  • 4 Hospital Universitario Vall d'Hebron, Barcelona/ES

Resources

Login to get immediate access to this content.

If you do not have an ESMO account, please create one for free.

Abstract 6P

Background

Mortality in patients with high-risk and recurrent endometrial cancer (EC) is high since treatment options are limited, and tumors are extremely chemoresistant. In this study, we unveil the possible impact of molecular ITH in treatment response in EC; and we incorporate the molecular ITH of the tumor in the definition of a personalized medicine for EC patients.

Methods

Patient-derived xenograft (PDX) models were generated from 32 different tumor areas of a total of 13 EC patients. PDX tumors and a patient counterpart were analyzed by whole exome sequencing (WES) to unveil single nucleotide variation (SNV) and copy number variation (CNV) alterations. A bioinformatic pipeline was conducted to find the best candidate’s drugs targeting the specific mutated genes of each tumor area. Viability assays were performed to assess the efficacy of the selected drugs in organoids derived from patient-derived xenograft (PDX) organoids and mice models representing ITH.

Results

All EC models presented molecular ITH. A subset of the most relevant altered tumor drivers and pathogenic genes were used to select drugs targeting specific ITH genes or homogenously altered genes in the primary tumor. Targeted drugs and standard chemotherapy were tested in deep and superficial areas of two EC patients using their PDXOs. A relevant difference between the IC50 of both areas (50 μM vs 12 μM) was encountered when assessing the efficacy of the Geldanamycin, which is a HSP90 inhibitor, targeting the ITH alteration of the deep area of one patient.

Conclusions

We have established a workflow for the identification of specific drugs targeting the molecular ITH in EC. Our preliminary results indicate that ITH might have an important role in treatment response.

Legal entity responsible for the study

Vall d’Hebron Institute of Research.

Funding

Instituto de Salud Carlos III (ISCIII).

Disclosure

All authors have declared no conflicts of interest.

This site uses cookies. Some of these cookies are essential, while others help us improve your experience by providing insights into how the site is being used.

For more detailed information on the cookies we use, please check our Privacy Policy.

Customise settings
  • Necessary cookies enable core functionality. The website cannot function properly without these cookies, and you can only disable them by changing your browser preferences.