PDBsum entry 7o2i

RNA binding protein

PDB id: 7o2i

Contents

Protein chains

200 a.a.

238 a.a.

Ligands

V22

DMS

Waters ×23

References listed in PDB file

Key reference

• Title: Small-Molecule inhibition of mettl3 as a strategy against myeloid leukaemia.
• Authors: E.Yankova, W.Blackaby, M.Albertella, J.Rak, E.De braekeleer, G.Tsagkogeorga, E.S.Pilka, D.Aspris, D.Leggate, A.G.Hendrick, N.A.Webster, B.Andrews, R.Fosbeary, P.Guest, N.Irigoyen, M.Eleftheriou, M.Gozdecka, J.M.L.Dias, A.J.Bannister, B.Vick, I.Jeremias, G.S.Vassiliou, O.Rausch, K.Tzelepis, T.Kouzarides.
• Ref.: Nature, 2021, 593, 597-601. [DOI no: 10.1038/nm.4416]
• PubMed id: 33902106

Abstract

N⁶-methyladenosine (m⁶A) is an abundant internal RNA modification^1,2 that is catalysed predominantly by the METTL3-METTL14 methyltransferase complex^3,4. The m⁶A methyltransferase METTL3 has been linked to the initiation and maintenance of acute myeloid leukaemia (AML), but the potential of therapeutic applications targeting this enzyme remains unknown^5-7. Here we present the identification and characterization of STM2457, a highly potent and selective first-in-class catalytic inhibitor of METTL3, and a crystal structure of STM2457 in complex with METTL3-METTL14. Treatment of tumours with STM2457 leads to reduced AML growth and an increase in differentiation and apoptosis. These cellular effects are accompanied by selective reduction of m⁶A levels on known leukaemogenic mRNAs and a decrease in their expression consistent with a translational defect. We demonstrate that pharmacological inhibition of METTL3 in vivo leads to impaired engraftment and prolonged survival in various mouse models of AML, specifically targeting key stem cell subpopulations of AML. Collectively, these results reveal the inhibition of METTL3 as a potential therapeutic strategy against AML, and provide proof of concept that the targeting of RNA-modifying enzymes represents a promising avenue for anticancer therapy.