Nuclear PDCD4 Expression Defines a Subset of Luminal B-Like Breast Cancers with Good Prognosis

Overview

Journal Horm Cancer

Date 2020 Jul 8

PMID 32632815

Citations 8

Authors

Santiago Madera

Maria F Chervo

Violeta A Chiauzzi

Matias G Pereyra

Leandro Venturutti

Franco Izzo

Agustina Roldan Deamicis

Pablo Guzman

Agustina Dupont

Juan Carlos Roa

Mauro E Cenciarini

Sabrina Barchuk

Silvina Figurelli

Daniel Lopez Della Vecchia

Claudio Levit

Gabriel Lebersztein

Fabiana Anfuso

Teresa Castiglioni

Eduardo Cortese

Sandra Ares

Ernesto Gil Deza

Felipe G Gercovich

Cecilia J Proietti

Roxana Schillaci

Rosalia I Cordo Russo

Patricia V Elizalde

Affiliations

Soon will be listed here.

Abstract

The hormone receptor-positive (estrogen and/or progesterone receptor (PR)-positive) and HER2-negative breast cancer (BC) subtype is a biologically heterogeneous entity that includes luminal A-like (LumA-like) and luminal B-like (LumB-like) subtypes. Decreased PR levels is a distinctive biological feature of LumB-like tumors. These tumors also show reduced sensitivity to endocrine therapies and poorer prognosis than LumA-like tumors. Identification of biomarkers to accurately predict disease relapse in these subtypes is crucial in order to select effective therapies. We identified the tumor suppressor PDCD4 (programmed cell death 4), located in the nucleus (NPDCD4), as an independent prognostic factor of good clinical outcome in LumA-like and LumB-like subtypes. NPDCD4-positive LumB-like tumors presented overall and disease-free survival rates comparable to those of NPDCD4-positive LumA-like tumors, indicating that NPDCD4 improves the outcome of LumB-like patients. In contrast, NPDCD4 loss increased the risk of disease recurrence and death in LumB-like compared with LumA-like tumors. This, along with our results showing that LumB-like tumors present lower NPDCD4 positivity than LumA-like tumors, suggests that NPDCD4 loss contributes to endocrine therapy resistance in LumB-like BCs. We also revealed that PR induces PDCD4 transcription in LumB-like BC, providing a mechanistic explanation to the low PDCD4 levels in LumB-like BCs lacking PR. Finally, PDCD4 silencing enhanced BC cell survival in a patient-derived explant model of LumB-like disease. Our discoveries highlight NPDCD4 as a novel biomarker in LumA- and LumB-like subtypes, which could be included in the panel of immunohistochemical markers used in the clinic to accurately predict the prognosis of LumB-like tumors.

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