Hongjiao Xu scite author profile

Graphical AbstractHighlights d Structure-guided design and optimization yield potent FTO inhibitors d mRNA m 6 A acts as the major effector of the inhibitor/FTO axis in AML cells d FTO inhibitor FB23-2 displays therapeutic effects in PDX AML models d Targeting epitranscriptomic RNA methylation holds potential to treat AML SUMMARY FTO, an mRNA N 6 -methyladenosine (m 6 A) demethylase, was reported to promote leukemogenesis. Using structure-based rational design, we have developed two promising FTO inhibitors, namely FB23 and FB23-2, which directly bind to FTO and selectively inhibit FTO's m 6 A demethylase activity. Mimicking FTO depletion, FB23-2 dramatically suppresses proliferation and promotes the differentiation/apoptosis of human acute myeloid leukemia (AML) cell line cells and primary blast AML cells in vitro. Moreover, FB23-2 significantly inhibits the progression of human AML cell lines and primary cells in xeno-transplanted mice. Collectively, our data suggest that FTO is a druggable target and that targeting FTO by small-molecule inhibitors holds potential to treat AML. SignificanceAs the most abundant internal mRNA modification, m 6 A impacts various biological processes. As a major m 6 A demethylase, FTO is overexpressed in certain subtypes of AMLs and promotes leukemogenesis. Thus, the development of effective inhibitors to target FTO's aberrant m 6 A demethylase activity is urgently needed for leukemia therapy. Here we report two selective FTO inhibitors that efficiently reverse/suppress FTO-mediated aberrant epitranscriptome in AML cells and significantly inhibit AML progression in vivo. Our studies provide the proof-of-concept evidence demonstrating that small-molecule inhibitors targeting oncogenic FTO represent a promising targeted therapeutic strategy for the effective treatment of AML. Moreover, given the overexpression of FTO in various cancers, our work may have a broad impact on cancer therapy by targeting the FTO-mediated epitranscriptome.

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Crystal structures of two phytohormone signal-transducing α/β hydrolases: karrikin-signaling KAI2 and strigolactone-signaling DWARF14

Zhao

et al. 2013

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Identification and mechanism of ABA receptor antagonism

Melcher

et al. 2010

Nat Struct Mol Biol

150

159

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The phytohormone abscisic acid (ABA) functions through a family of fourteen PYR/PYL receptors, which were identified by resistance to pyrabactin, a synthetic inhibitor of seed germination. ABA activates these receptors to inhibit type 2C protein phosphatases, such as ABI1, yet it remains unclear whether these receptors can be antagonized. Here we demonstrate that pyrabactin is an agonist of PYR1 and PYL1, but unexpectedly an antagonist of PYL2. Crystal structures of the PYL2–pyrabactin and PYL1–pyrabactin–ABI1 complexes reveal the mechanism responsible for receptor-selective activation and inhibition, which enables us to design mutations that convert PYL1 to a pyrabactin-inhibited receptor and PYL2 to a pyrabactin-activated receptor, and to identify new pyrabactin-based ABA receptor agonists. Together, our results establish a new concept of ABA receptor antagonism, illustrate its underlying mechanisms, and provide a rational framework for discovering novel ABA receptor ligands.

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Tumors exploit FTO-mediated regulation of glycolytic metabolism to evade immune surveillance

et al. 2021

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Hongjiao Xu

Small-Molecule Targeting of Oncogenic FTO Demethylase in Acute Myeloid Leukemia

Crystal structures of two phytohormone signal-transducing α/β hydrolases: karrikin-signaling KAI2 and strigolactone-signaling DWARF14

Identification and mechanism of ABA receptor antagonism

Tumors exploit FTO-mediated regulation of glycolytic metabolism to evade immune surveillance

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