Inhibition of CBP synergizes with the RNA-dependent mechanisms of Azacitidine by limiting protein synthesis

Jeannine Diesch,Mark Van Der Garde,Marcus Buschbeck,Matthias Muhar,Carolina Martínez Herráez,Johannes Zuber,Antonio Gentilella,Lurdes Zamora,René Winkler,Joan J Bech-Serra,Raquel Casquero,Carolina De La Torre,Philipp Rathert,Katharina S Götze,Nigel Brooks,Michael Maher,Marguerite-Marie Le Pannérer,Michaela Fellner

doi:10.1038/s41467-021-26258-z

Abstract

The nucleotide analogue azacitidine (AZA) is currently the best treatment option for patients with high-risk myelodysplastic syndromes (MDS). However, only half of treated patients respond and of these almost all eventually relapse. New treatment options are urgently needed to improve the clinical management of these patients. Here, we perform a loss-of-function shRNA screen and identify the histone acetyl transferase and transcriptional co-activator, CREB binding protein (CBP), as a major regulator of AZA sensitivity. Compounds inhibiting the activity of CBP and the closely related p300 synergistically reduce viability of MDS-derived AML cell lines when combined with AZA. Importantly, this effect is specific for the RNA-dependent functions of AZA and not observed with the related compound decitabine that is only incorporated into DNA. The identification of immediate target genes leads us to the unexpected finding that the effect of CBP/p300 inhibition is mediated by globally down regulating protein synthesis.

Highlights

The nucleotide analogue azacitidine (AZA) is currently the best treatment option for patients with high-risk myelodysplastic syndromes (MDS)
We have chosen the MDS-derived secondary acute myeloid leukemia (sAML) cell line SKK-1 that has been well characterized in our laboratory[36]
SKK1 cells have been isolated from a patient with MDS-derived sAML and harbour mutations in splicing factor U2AF1 and the chromatin regulator BCOR37

Summary

Introduction

The nucleotide analogue azacitidine (AZA) is currently the best treatment option for patients with high-risk myelodysplastic syndromes (MDS). Compounds inhibiting the activity of CBP and the closely related p300 synergistically reduce viability of MDS-derived AML cell lines when combined with AZA. This effect is specific for the RNA-dependent functions of AZA and not observed with the related compound decitabine that is only incorporated into DNA. AZA disrupts the RNA-dependent interaction of the complex containing hnRNPK, DNMT2 and NSUN3 with Polymerase 2 on actively transcribed genes[25].

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Conclusion