TRAIL-receptor 2—a novel negative regulator of p53

Anna Willms; Hella Schupp; Michelle Poelker; Alshaimaa Adawy; Jan Frederik Debus; Torsten Hartwig; Tim Krichel; Jürgen Fritsch; Steven Singh; Henning Walczak; Silvia von Karstedt; Heiner Schäfer; Anna Trauzold

doi:10.1038/s41419-021-04048-1

Cell Death and Disease (Jul 2021)

TRAIL-receptor 2—a novel negative regulator of p53

Anna Willms,
Hella Schupp,
Michelle Poelker,
Alshaimaa Adawy,
Jan Frederik Debus,
Torsten Hartwig,
Tim Krichel,
Jürgen Fritsch,
Steven Singh,
Henning Walczak,
Silvia von Karstedt,
Heiner Schäfer,
Anna Trauzold

Affiliations

Anna Willms: Institute for Experimental Cancer Research, University of Kiel
Hella Schupp: Institute for Experimental Cancer Research, University of Kiel
Michelle Poelker: Institute for Experimental Cancer Research, University of Kiel
Alshaimaa Adawy: Institute for Experimental Cancer Research, University of Kiel
Jan Frederik Debus: Institute for Experimental Cancer Research, University of Kiel
Torsten Hartwig: Centre for Cell Death, Cancer and Inflammation, UCL Cancer Institute, University College London
Tim Krichel: Institute for Experimental Cancer Research, University of Kiel
Jürgen Fritsch: Department of Infection Prevention and Infectious Diseases, University of Regensburg
Steven Singh: Institute for Experimental Cancer Research, University of Kiel
Henning Walczak: Centre for Cell Death, Cancer and Inflammation, UCL Cancer Institute, University College London
Silvia von Karstedt: CECAD Cluster of Excellence, University of Cologne
Heiner Schäfer: Institute for Experimental Cancer Research, University of Kiel
Anna Trauzold: Institute for Experimental Cancer Research, University of Kiel

DOI: https://doi.org/10.1038/s41419-021-04048-1
Journal volume & issue: Vol. 12, no. 8
pp. 1 – 12

Abstract

Read online

Abstract TNF-related apoptosis-inducing ligand (TRAIL) receptor 2 (TRAIL-R2) can induce apoptosis in cancer cells upon crosslinking by TRAIL. However, TRAIL-R2 is highly expressed by many cancers suggesting pro-tumor functions. Indeed, TRAIL/TRAIL-R2 also activate pro-inflammatory pathways enhancing tumor cell invasion, migration, and proliferation. In addition, nuclear TRAIL-R2 (nTRAIL-R2) promotes malignancy by inhibiting miRNA let-7-maturation. Here, we show that TRAIL-R2 interacts with the tumor suppressor protein p53 in the nucleus, assigning a novel pro-tumor function to TRAIL-R2. Knockdown of TRAIL-R2 in p53 wild-type cells increases the half-life of p53 and the expression of its target genes, whereas its re-expression decreases p53 protein levels. Interestingly, TRAIL-R2 also interacts with promyelocytic leukemia protein (PML), a major regulator of p53 stability. PML-nuclear bodies are also the main sites of TRAIL-R2/p53 co-localization. Notably, knockdown or destruction of PML abolishes the TRAIL-R2-mediated regulation of p53 levels. In summary, our finding that nTRAIL-R2 facilitates p53 degradation and thereby negatively regulates p53 target gene expression provides insight into an oncogenic role of TRAIL-R2 in tumorigenesis that particularly manifests in p53 wild-type tumors.

Published in Cell Death and Disease

ISSN: 2041-4889 (Online)
Publisher: Nature Publishing Group
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General): Cytology
Website: http://www.nature.com/cddis/index.html

About the journal