Abstract 5725
Background
One limitation in the breast cancer research field is that there are few in vitro models of breast cancer able to predict drug response and thus clinical patients’ outcome, mainly because the present models do not take account of the tumor heterogeneity. To address this issue, we developed an in vitro 3D organoid culture system using primary human breast cancer tissue that could be used to recapitulate in vivo organs. A major difficulty in the development of such models is to identify in vitro conditions that preserve the breast cancer phenotypes observed in vivo.
Methods
We isolated organoids from breast cancer patients and optimized the organoids growing conditions. By immunofluorescence assay we confirmed the receptor status, and the preservation of epithelial (E-cadherin) or the fibroblasts components included in the tissue microenvironment (TME) (alfa-SMA and FAP). Here we used organoids as mimic of tumor burden for drug penetration studies. In particular, we studied doxorubicin (DOX) penetration and biodistribution, by several means: immunofluorescence studies, caspase assay, and cell viability.
Results
We demonstrated by IF studies, that miR-340, an oncosuppressor miR, was able to modulate DOX penetration. At the same time, miR-340 induced an increase in DOX sensitivity assessed by caspase-3 assay, PARP cleavage, as well as p38 phosphorylation. Breast cancer organoids have also been used to better understand the role of the TME in breast cancer response to therapy. We assessed drug sensitivity in the presence or absence of conditioned media obtained from cancer activated fibroblasts (CAFs). We found that organoids treated with conditioned media exhibit lower level of caspase 3 activation compared to the control upon palbociclib treatment, suggesting the importance role of TME in drug resistance.
Conclusions
Thus, organoids can be considered as a new tool for studying breast cancer and developing personalized medicine approaches and to test possible use of RNA therapeutics.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
Gerolama Condorelli.
Funding
AIRC.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
5037 - CXCR4, CCR2 and CCR5 expression in subsets of tumor cells with stem and/or EMT features
Presenter: Olga Savelieva
Session: Poster Display session 1
Resources:
Abstract
5729 - Expression of mutant p53 affects cancer cell sensitivity to topotecan
Presenter: Rimma Mingaleeva
Session: Poster Display session 1
Resources:
Abstract
5680 - Aptamer-mediated exosomes detection for early breast cancer identification.
Presenter: Cristina Quintavalle
Session: Poster Display session 1
Resources:
Abstract
2460 - MicroRNA-181c promotes tamoxifen resistance in breast cancer cells via upregulation Akt/mTOR axis
Presenter: Alexander Scherbakov
Session: Poster Display session 1
Resources:
Abstract
3751 - Spatio-temporal separation of tumor infiltrating CD8+ T-cells and HER2/neu+ tumor cells in tumor-immune milieu of infiltrating ductal carcinoma of the breast
Presenter: Sandhya Sreedharan
Session: Poster Display session 1
Resources:
Abstract
4664 - Large genomic rearrangements in BRCA1 and BRCA2 genes in the Portuguese population.
Presenter: Joao Pinto
Session: Poster Display session 1
Resources:
Abstract
4611 - Non-BRCA1/2 hereditary breast and ovarian cancer: findings from a multidisciplinary program
Presenter: Ana Monteiro
Session: Poster Display session 1
Resources:
Abstract
5340 - Quantitative imaging and characterization of collagen patterns in high grade serous ovarian carcinoma (HGSOC)
Presenter: Ruby Huang
Session: Poster Display session 1
Resources:
Abstract
4209 - Semiquantitative assessment of vimentin expression in prostate cancer (PC)
Presenter: Marina Puchinskaya
Session: Poster Display session 1
Resources:
Abstract
3309 - Heat Shock Protein 90 chaperones and Protein Kinase D3 regulates androgen-independent prostate cancer development
Presenter: Attila Varga
Session: Poster Display session 1
Resources:
Abstract