FOXO3-mediated chemo-protection in high-stage neuroblastoma depends on wild-type TP53 and SESN3

M Rupp,U Kiechl-Kohlendorfer,P Obexer,H Fiegl,M J Ausserlechner,B Rass,J Hagenbuchner

doi:10.1038/onc.2017.288

M Rupp, U Kiechl-Kohlendorfer + Show 5 more

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https://doi.org/10.1038/onc.2017.288

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Abstract

Forkhead box O class transcription factors are homeostasis regulators that control cell death, longevity and therapy-resistance. In neuroblastoma (NB), nuclear FOXO3 correlates with stage M disease and poor prognosis. To analyze whether FOXO3 contributes to drug-resistance in this childhood cancer, we investigated how different high-stage-derived NB cells respond to the activation of an ectopic FOXO3 allele. We found endogenous FOXO3 mostly localized to the nucleus—upon activation of an ectopic, 4OHT-activated FOXO3(A3)ER fusion protein two of the cell lines underwent apoptosis, whereas in the others FOXO3-activation even increased survival during drug-treatment. In the latter cell type, FOXO3 did not induce the BH3-only protein BCL2L11/BIM due to impaired binding of FOXO3 to the BIM-promoter, but still activated other FOXO3 targets. It was shown before that FOXO3 and TP53 physically interact with each other at two different regions—the TP53-N-terminus binds to the FOXO3-DNA binding domain (DBD) and the FOXO3-C-terminus interacts with the TP53-DBD. Interestingly, cell lines that undergo FOXO3-induced cell death carry homozygous point mutations in the TP53-DBD near the structural hotspot-mutation-site R175H, which abrogated FOXO3–TP53 interaction. In contrast, in FOXO3-death-resistant cells no point mutations in the TP53-DBD were found—in these cells FOXO3–TP53 complexes are formed and FOXO3-binding to the BIM-promoter, but not the induction of the detoxifying protein SESN3, were prevented, which in turn increased chemo-protection in this type of high-stage-derived NB cells. Our combined data suggest that FOXO3 steps in as a death inducer in case of TP53-mutation, whereas functional TP53 alters FOXO3-target-promoter-recognition, which prevents death induction by FOXO3 and instead increases chemo-protection and survival of NB cells. This novel mechanism may explain the low incidence of TP53 mutation in high-stage NB at diagnosis and suggests FOXO3 as a therapeutic target for this childhood malignancy.

Highlights

The mammalian forkhead box O (FOXO) transcription factor family consists of four members, FOXO1/FKHR, FOXO3/FKHRL1, FOXO4/ AFX and FOXO6, which are involved in multiple cellular processes ranging from apoptosis induction to longevity.[1]
Since ectopic FOXO3 binds to the SESN3-promoter and induces its transcription (Figures 2b and c) we studied whether the FOXO3-mediated pro-survival phenotype during chemotherapy might involve SESN3
We identified a subtype of NB cells, where FOXO3-activation protected the cancer cells against DNAdamaging chemotherapeutic agents

Summary

INTRODUCTION

The mammalian forkhead box O (FOXO) transcription factor family consists of four members, FOXO1/FKHR, FOXO3/FKHRL1, FOXO4/ AFX and FOXO6, which are involved in multiple cellular processes ranging from apoptosis induction to longevity.[1]. One binding partner of FOXO3 is the tumor protein TP53/p53 which is mutated in over 50% of cancer types.[20] In NB, mutations of TP53 are rare at diagnosis (less than 2% of patients), but frequent loss of function is observed in relapsed tumors.[21] FOXO3 and TP53 share numerous target genes such as CDKN1/P21CIP1, GADD45A or BBC3/PUMA; they are involved in the same cellular processes like cell-cycle-arrest, DNA-damage-repair and apoptosis.[22,23,24,25]

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