New drug target discovered for Acute Myeloid Leukaemia
STORM Therapeutics announced the publication of data in the internationally renowned scientific journal Nature linking an essential RNA-modifying enzyme to acute myeloid leukaemia (AML).
The study has found an unexpected new drug target for AML that could open new avenues to develop effective treatments against this potentially lethal disease. Data show that inhibiting the METTL3 gene destroys human and mouse AML cells without harming non-leukaemic blood cells. The paper, entitled “Promoter-bound METTL3 maintains myeloid leukaemia via m6A-dependent translation control’, goes on to reveal why METTL3 is required for AML cell survival, by deciphering the new mechanism it uses to regulate several other leukaemia genes.
Professor Tony Kouzarides, Founder of STORM Therapeutics and joint project leader from the Gurdon Institute, University of Cambridge, commented: “This is an important milestone in the understanding of RNA epigenetics and its links to disease. These findings highlight the importance of RNA modifying enzymes in cancer, and in particular in leukaemia. New treatments for AML are desperately needed and we have been looking for genes that would be good drug targets. We identified the methyl transferase enzyme METTL3 as a highly viable target against AML. Our study will inspire pharmaceutical efforts to find drugs that specifically inhibit METTL3 to treat AML.”
STORM has established a pipeline of drug discovery programmes to develop novel, first-in-class drugs for the treatment of specific cancers and other diseases with high unmet medical need. It is focusing on two classes of RNA modifying enzymes, RNA methyltransferases and terminal uridyltransferases (TUTases), and has already advanced two undisclosed targets in drug discovery.
Keith Blundy, CEO of STORM Therapeutics, said: “STORM leads the field of harnessing the power of RNA epigenetics as a new area of important biology. Our ambition is to become a world leading therapeutics company tackling diseases through modulating RNA modifying enzymes. Publication of these data, in such a prestigious journal as Nature, is validation of the world class science on which the Company was founded.”
This publication represents results obtained from research conducted in collaboration by: Wellcome Trust Sanger Institute, The Gurdon Institute and Department of Pathology at the University of Cambridge, Cold Spring Harbor Laboratory and STORM Therapeutics.
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Isaia Barbieri, Konstantinos Tzelepis , Luca Pandolfini , Alan Hendrick et al. Promoter-bound METTL3 maintains myeloid leukaemiaby m6A-dependent translation control. Nature. DOI: 10.1038/nature24678