Expression of Phosphorylated BRD4 Is Markedly Associated with the Activation Status of the PP2A Pathway and Shows a Strong Prognostic Value in Triple Negative Breast Cancer Patients

Overview

Journal Cancers (Basel)

Publisher MDPI

Specialty Oncology

Date 2021 Apr 3

PMID 33809005

Citations 9

Authors

Marta Sanz-Alvarez

Ion Cristobal

Melani Luque

Andrea Santos

Sandra Zazo

Juan Madoz-Gurpide

Cristina Carames

Cheng-Ming Chiang

Jesus Garcia-Foncillas

Pilar Eroles

Joan Albanell

Federico Rojo

Affiliations

Soon will be listed here.

Abstract

The bromodomain-containing protein 4 (BRD4), a member of the bromodomain and extra-terminal domain (BET) protein family, has emerged in the last years as a promising molecular target in many tumors including breast cancer. The triple negative breast cancer (TNBC) represents the molecular subtype with the worst prognosis and a current therapeutic challenge, and TNBC cells have been reported to show a preferential sensitivity to BET inhibitors. Interestingly, BRD4 phosphorylation (pBRD4) was found as an alteration that confers resistance to BET inhibition and PP2A proposed as the phosphatase responsible to regulate pBRD4 levels. However, the potential clinical significance of pBRD4, as well as its potential correlation with the PP2A pathway in TNBC, remains to be investigated. Here, we evaluated the expression levels of pBRD4 in a series of 132 TNBC patients. We found high pBRD4 levels in 34.1% of cases (45/132), and this alteration was found to be associated with the development of patient recurrences ( = 0.007). Interestingly, BRD4 hyperphosphorylation predicted significantly shorter overall ( < 0.001) and event-free survival ( < 0.001). Moreover, multivariate analyses were performed to confirm its independent prognostic impact in our cohort. In conclusion, our findings show that BRD4 hyperphosphorylation is an alteration associated with PP2A inhibition that defines a subgroup of TNBC patients with unfavorable prognosis, suggesting the potential clinical and therapeutic usefulness of the PP2A/BRD4 axis as a novel molecular target to overcome resistance to treatments based on BRD4 inhibition.

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