Literature DB >> 32040554

Gilteritinib is a clinically active FLT3 inhibitor with broad activity against FLT3 kinase domain mutations.

Theodore C Tarver1, Jason E Hill2, Leena Rahmat3, Alexander E Perl4, Erkut Bahceci2, Kenichi Mori5, Catherine C Smith1.   

Abstract

Gilteritinib is the first FMS-like tyrosine kinase 3 (FLT3) tyrosine kinase inhibitor (TKI) approved as monotherapy in acute myeloid leukemia with FLT3 internal tandem duplication and D835/I836 tyrosine kinase domain (TKD) mutations. Sequencing studies in patients have uncovered less common, noncanonical (NC) mutations in FLT3 and have implicated secondary TKD mutations in FLT3 TKI resistance. We report that gilteritinib is active against FLT3 NC and TKI resistance-causing mutations in vitro. A mutagenesis screen identified FLT3 F691L, Y693C/N, and G697S as mutations that confer moderate resistance to gilteritinib in vitro. Analysis of patients treated with gilteritinib revealed that 2/9 patients with preexisting NC FLT3 mutations responded and that secondary TKD mutations are acquired in a minority (5/31) of patients treated with gilteritinib. Four of 5 patients developed F691L mutations (all treated at <200 mg). These studies suggest that gilteritinib has broad activity against FLT3 mutations and limited vulnerability to resistance-causing FLT3 TKD mutations, particularly when used at higher doses.
© 2020 by The American Society of Hematology.

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Year:  2020        PMID: 32040554      PMCID: PMC7013266          DOI: 10.1182/bloodadvances.2019000919

Source DB:  PubMed          Journal:  Blood Adv        ISSN: 2473-9529


  36 in total

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Authors:  N von Bubnoff; C Rummelt; H Menzel; M Sigl; C Peschel; J Duyster
Journal:  Leukemia       Date:  2010-06-03       Impact factor: 11.528

2.  Quizartinib, an FLT3 inhibitor, as monotherapy in patients with relapsed or refractory acute myeloid leukaemia: an open-label, multicentre, single-arm, phase 2 trial.

Authors:  Jorge Cortes; Alexander E Perl; Hartmut Döhner; Hagop Kantarjian; Giovanni Martinelli; Tibor Kovacsovics; Philippe Rousselot; Björn Steffen; Hervé Dombret; Elihu Estey; Stephen Strickland; Jessica K Altman; Claudia D Baldus; Alan Burnett; Alwin Krämer; Nigel Russell; Neil P Shah; Catherine C Smith; Eunice S Wang; Norbert Ifrah; Guy Gammon; Denise Trone; Deborah Lazzaretto; Mark Levis
Journal:  Lancet Oncol       Date:  2018-05-31       Impact factor: 41.316

3.  Activity of ponatinib against clinically-relevant AC220-resistant kinase domain mutants of FLT3-ITD.

Authors:  Catherine C Smith; Elisabeth A Lasater; Xiaotian Zhu; Kimberly C Lin; Whitney K Stewart; Lauren E Damon; Sara Salerno; Neil P Shah
Journal:  Blood       Date:  2013-02-21       Impact factor: 22.113

4.  Clonal Selection with RAS Pathway Activation Mediates Secondary Clinical Resistance to Selective FLT3 Inhibition in Acute Myeloid Leukemia.

Authors:  Martin Carroll; Catherine C Smith; Alexander E Perl; Christine M McMahon; Timothy Ferng; Jonathan Canaani; Eunice S Wang; Jennifer J D Morrissette; Dennis J Eastburn; Maurizio Pellegrino; Robert Durruthy-Durruthy; Christopher D Watt; Saurabh Asthana; Elisabeth A Lasater; RosaAnna DeFilippis; Cheryl A C Peretz; Lisa H F McGary; Safoora Deihimi; Aaron C Logan; Selina M Luger; Neil P Shah
Journal:  Cancer Discov       Date:  2019-05-14       Impact factor: 39.397

5.  Identification of a novel activating mutation (Y842C) within the activation loop of FLT3 in patients with acute myeloid leukemia (AML).

Authors:  Thomas Kindler; Frank Breitenbuecher; Stefan Kasper; Eli Estey; Francis Giles; Eric Feldman; Gerhard Ehninger; Gary Schiller; Virginia Klimek; Stephen D Nimer; Alois Gratwohl; Chuna Ram Choudhary; Constan Mueller-Tidow; Hubert Serve; Harald Gschaidmeier; Pamela S Cohen; Christoph Huber; Thomas Fischer
Journal:  Blood       Date:  2004-09-02       Impact factor: 22.113

6.  Identifying and characterizing a novel activating mutation of the FLT3 tyrosine kinase in AML.

Authors:  Jingrui Jiang; J Guillermo Paez; Jeffrey C Lee; Ronghai Bo; Richard M Stone; Daniel J DeAngelo; Ilene Galinsky; Brian M Wolpin; Anna Jonasova; Paula Herman; Edward A Fox; Titus J Boggon; Michael J Eck; Ellen Weisberg; James D Griffin; D Gary Gilliland; Matthew Meyerson; William R Sellers
Journal:  Blood       Date:  2004-06-03       Impact factor: 22.113

7.  FMS-like tyrosine kinase 3-internal tandem duplication tyrosine kinase inhibitors display a nonoverlapping profile of resistance mutations in vitro.

Authors:  Nikolas von Bubnoff; Richard A Engh; Espen Aberg; Jana Sänger; Christian Peschel; Justus Duyster
Journal:  Cancer Res       Date:  2009-03-24       Impact factor: 12.701

8.  Crenolanib is a selective type I pan-FLT3 inhibitor.

Authors:  Catherine Choy Smith; Elisabeth A Lasater; Kimberly C Lin; Qi Wang; Melissa Quino McCreery; Whitney K Stewart; Lauren E Damon; Alexander E Perl; Grace R Jeschke; Mayumi Sugita; Martin Carroll; Scott C Kogan; John Kuriyan; Neil P Shah
Journal:  Proc Natl Acad Sci U S A       Date:  2014-03-12       Impact factor: 11.205

9.  Clonal evolution of AML on novel FMS-like tyrosine kinase-3 (FLT3) inhibitor therapy with evolving actionable targets.

Authors:  Pashtoon M Kasi; Mark R Litzow; Mrinal M Patnaik; Shahrukh K Hashmi; Naseema Gangat
Journal:  Leuk Res Rep       Date:  2016-01-12

10.  Selective inhibition of FLT3 by gilteritinib in relapsed or refractory acute myeloid leukaemia: a multicentre, first-in-human, open-label, phase 1-2 study.

Authors:  Alexander E Perl; Jessica K Altman; Jorge Cortes; Catherine Smith; Mark Litzow; Maria R Baer; David Claxton; Harry P Erba; Stan Gill; Stuart Goldberg; Joseph G Jurcic; Richard A Larson; Chaofeng Liu; Ellen Ritchie; Gary Schiller; Alexander I Spira; Stephen A Strickland; Raoul Tibes; Celalettin Ustun; Eunice S Wang; Robert Stuart; Christoph Röllig; Andreas Neubauer; Giovanni Martinelli; Erkut Bahceci; Mark Levis
Journal:  Lancet Oncol       Date:  2017-06-20       Impact factor: 41.316
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  16 in total

1.  Antileukemic efficacy of a potent artemisinin combined with sorafenib and venetoclax.

Authors:  Blake S Moses; Samantha McCullough; Jennifer M Fox; Bryan T Mott; Søren M Bentzen; MinJung Kim; Jeffrey W Tyner; Rena G Lapidus; Ashkan Emadi; Michelle A Rudek; Tami J Kingsbury; Curt I Civin
Journal:  Blood Adv       Date:  2021-02-09

2.  The Irreversible FLT3 Inhibitor FF-10101 Is Active Against a Diversity of FLT3 Inhibitor Resistance Mechanisms.

Authors:  Timothy T Ferng; Daisuke Terada; Makoto Ando; Theodore C Tarver; Fihr Chaudhary; Kimberly C Lin; Aaron C Logan; Catherine C Smith
Journal:  Mol Cancer Ther       Date:  2022-05-04       Impact factor: 6.261

3.  Understanding gilteritinib resistance to FLT3-F691L mutation through an integrated computational strategy.

Authors:  Shibo Zhou; Bo Yang; Yufeng Xu; Aihua Gu; Juan Peng; Jinfeng Fu
Journal:  J Mol Model       Date:  2022-08-06       Impact factor: 2.172

4.  FDA Approval Summary: Gilteritinib for Relapsed or Refractory Acute Myeloid Leukemia with a FLT3 Mutation.

Authors:  E Dianne Pulte; Kelly J Norsworthy; Yaping Wang; Qing Xu; Hisham Qosa; Ramadevi Gudi; Donna Przepiorka; Wentao Fu; Olanrewaju O Okusanya; Kirsten B Goldberg; R Angelo De Claro; Ann T Farrell; Richard Pazdur
Journal:  Clin Cancer Res       Date:  2021-02-25       Impact factor: 13.801

Review 5.  Mitochondrial metabolism as a target for acute myeloid leukemia treatment.

Authors:  Svetlana B Panina; Jingqi Pei; Natalia V Kirienko
Journal:  Cancer Metab       Date:  2021-04-21

6.  A Novel 2-Carbon-Linked Dimeric Artemisinin With Potent Antileukemic Activity and Favorable Pharmacology.

Authors:  Amanda B Kagan; Blake S Moses; Bryan T Mott; Ganesha Rai; Nicole M Anders; Michelle A Rudek; Curt I Civin
Journal:  Front Oncol       Date:  2022-01-11       Impact factor: 6.244

Review 7.  Gilteritinib in the treatment of relapsed and refractory acute myeloid leukemia with a FLT3 mutation.

Authors:  Serena Chew; Melissa C Mackey; Elias Jabbour
Journal:  Ther Adv Hematol       Date:  2020-06-03

Review 8.  Molecular Mechanisms of Resistance to FLT3 Inhibitors in Acute Myeloid Leukemia: Ongoing Challenges and Future Treatments.

Authors:  Sebastian Scholl; Maximilian Fleischmann; Ulf Schnetzke; Florian H Heidel
Journal:  Cells       Date:  2020-11-17       Impact factor: 6.600

9.  Gilteritinib overcomes lorlatinib resistance in ALK-rearranged cancer.

Authors:  Hayato Mizuta; Koutaroh Okada; Mitsugu Araki; Jun Adachi; Ai Takemoto; Justyna Kutkowska; Kohei Maruyama; Noriko Yanagitani; Tomoko Oh-Hara; Kana Watanabe; Keiichi Tamai; Luc Friboulet; Kazuhiro Katayama; Biao Ma; Yoko Sasakura; Yukari Sagae; Mutsuko Kukimoto-Niino; Mikako Shirouzu; Satoshi Takagi; Siro Simizu; Makoto Nishio; Yasushi Okuno; Naoya Fujita; Ryohei Katayama
Journal:  Nat Commun       Date:  2021-02-24       Impact factor: 14.919

10.  The AML microenvironment catalyzes a stepwise evolution to gilteritinib resistance.

Authors:  Sunil K Joshi; Tamilla Nechiporuk; Daniel Bottomly; Paul D Piehowski; Julie A Reisz; Janét Pittsenbarger; Andy Kaempf; Sara J C Gosline; Yi-Ting Wang; Joshua R Hansen; Marina A Gritsenko; Chelsea Hutchinson; Karl K Weitz; Jamie Moon; Francesca Cendali; Thomas L Fillmore; Chia-Feng Tsai; Athena A Schepmoes; Tujin Shi; Osama A Arshad; Jason E McDermott; Ozgun Babur; Kevin Watanabe-Smith; Emek Demir; Angelo D'Alessandro; Tao Liu; Cristina E Tognon; Jeffrey W Tyner; Shannon K McWeeney; Karin D Rodland; Brian J Druker; Elie Traer
Journal:  Cancer Cell       Date:  2021-06-24       Impact factor: 38.585
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