Clonal Heterogeneity in ER+ Breast Cancer Reveals the Proteasome and PKC As Potential Therapeutic Targets

Overview

Journal NPJ Breast Cancer

Date 2023 Dec 2

PMID 38042915

Authors

Lukas Beumers

Efstathios-Iason Vlachavas

Simone Borgoni

Luisa Schwarzmuller

Luca Penso-Dolfin

Birgitta E Michels

Emre Sofyali

Sara Burmester

Daniela Heiss

Heike Wilhelm

Yosef Yarden

Dominic Helm

Rainer Will

Angela Goncalves

Stefan Wiemann

Affiliations

Soon will be listed here.

Abstract

Intratumoral heterogeneity impacts the success or failure of anti-cancer therapies. Here, we investigated the evolution and mechanistic heterogeneity in clonal populations of cell models for estrogen receptor positive breast cancer. To this end, we established barcoded models of luminal breast cancer and rendered them resistant to commonly applied first line endocrine therapies. By isolating single clones from the resistant cell pools and characterizing replicates of individual clones we observed inter- (between cell lines) and intra-tumor (between different clones from the same cell line) heterogeneity. Molecular characterization at RNA and phospho-proteomic levels revealed private clonal activation of the unfolded protein response and respective sensitivity to inhibition of the proteasome, and potentially shared sensitivities for repression of protein kinase C. Our in vitro findings are consistent with tumor-heterogeneity that is observed in breast cancer patients thus highlighting the need to uncover heterogeneity at an individual patient level and to adjust therapies accordingly.

Citing Articles

CD4FOXP3Exon2 regulatory T cell frequency predicts breast cancer prognosis and survival.

Fusco C, Di Rella F, Liotti A, Colamatteo A, Ferrara A, Gigantino V Sci Adv. 2025; 11(3):eadr7934.

PMID: 39813341 PMC: 11734725. DOI: 10.1126/sciadv.adr7934.

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