A novel irreversible FLT3 inhibitor, FF-10101, shows excellent efficacy against AML cells with FLT3 mutations

Yamaura, Takeshi; Nakatani, Toshiyuki; Uda, Ken; Ogura, Hideki; Shin, Wigyon; Kurokawa, Naoya; Saito, Koichi; Fujikawa, Norie; Date, Tadamasa; Takasaki, Masaya; Terada, Daisuke; Hirai, Atsushi; Akashi, Akimi; Chen, Fangli; Adachi, Yayoi; Ishikawa, Yuichi; Hayakawa, Fumihiko; Hagiwara, Shinji; Naoe, Tomoki; Kiyoi, Hitoshi

doi:10.1182/blood-2017-05-786657

Cited by 107 publications

(90 citation statements)

References 33 publications

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“…In contrast, because many type I inhibitors are designed to bind to only the ATP‐binding site, they can bind to the active conformation of FLT3; however, they have more broad‐kinase inhibitory activities than type II inhibitors, due to the similarity of binding sites among kinases. To resolve these problems, we developed a novel FLT3 inhibitor, FF‐10101, in collaboration with FUJIFILM (Kanagawa, Japan), which was designed to form a covalent binding between the C695 residue of FLT3 (Figure ).yyyy This covalent bond formation of FF‐10101 induces irreversible inhibition of FLT3 and potent and selective inhibitory activity, and maintains the binding ability both to the active and inactive conformations of FLT3. The unique binding of FF‐10101 also provides broad and potent inhibitory effects on various FLT3 mutations, including the gatekeeper mutation F691L.…”

Section: Covalent‐binding Type Flt3 Inhibitorsupporting

confidence: 85%

FLT3 mutations in acute myeloid leukemia: Therapeutic paradigm beyond inhibitor development

2019

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FMS‐like tyrosine kinase 3 (FLT3) is a type III receptor tyrosine kinase that plays an important role in hematopoietic cell survival, proliferation and differentiation. The most clinically important point is that mutation of the FLT3 gene is the most frequent genetic alteration and a poor prognostic factor in acute myeloid leukemia (AML) patients. There are two major types of FLT3 mutations: internal tandem duplication mutations in the juxtamembrane domain (FLT3‐ITD) and point mutations or deletion in the tyrosine kinase domain (FLT3‐TKD). Both mutant FLT3 molecules are activated through ligand‐independent dimerization and trans‐phosphorylation. Mutant FLT3 induces the activation of multiple intracellular signaling pathways, mainly STAT5, MAPK and AKT signals, leading to cell proliferation and anti–apoptosis. Because high‐dose chemotherapy and allogeneic hematopoietic stem cell transplantation cannot sufficiently improve the prognosis, clinical development of FLT3 kinase inhibitors expected. Although several FLT3 inhibitors have been developed, it takes more than 20 years from the first identification of FLT3 mutations until FLT3 inhibitors become clinically available for AML patients with FLT3 mutations. To date, three FLT3 inhibitors have been clinically approved as monotherapy or combination therapy with conventional chemotherapeutic agents in Japan and/or Europe and United states. However, several mechanisms of resistance to FLT3 inhibitors have already become apparent during their clinical trials. The resistance mechanisms are complex and emerging resistant clones are heterogenous. Further basic and clinical studies are required to establish the best therapeutic strategy for AML patients with FLT3 mutations.

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Section: Covalent‐binding Type Flt3 Inhibitorsupporting

confidence: 85%

FLT3 mutations in acute myeloid leukemia: Therapeutic paradigm beyond inhibitor development

2019

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“…However, inhibitor resistance, largely though acquired mutations in the Flt3 kinase domain, has limited their clinical utility 8 . Compounds that inhibit common Flt3 resistance mutants have also been developed and are in clinical trials, such as FF-10101 9 and PLX3397 10 .…”

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Selective Inhibition of the Myeloid Src-Family Kinase Fgr Potently Suppresses AML Cell Growth in Vitro and in Vivo

et al. 2018

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Acute myelogenous leukemia (AML) is the most common hematologic malignancy in adults, and is often associated with constitutive tyrosine kinase signaling. These pathways involve the non-receptor tyrosine kinases Fes, Syk and the three Src-family kinases expressed in myeloid cells (Fgr, Hck, and Lyn). In this study, we report remarkable anti-AML efficacy of an N-phenylbenzamide kinase inhibitor, TL02–59. This compound potently suppressed the proliferation of bone marrow samples from twenty of twenty-six AML patients, with a striking correlation between inhibitor sensitivity and expression levels of the myeloid Src family kinases Fgr, Hck, and Lyn. No correlation was observed with Flt3 expression or mutational status, with the four most sensitive patient samples wild-type for Flt3. Kinome-wide target specificity profiling coupled with in vitro kinase assays demonstrated a narrow overall target specificity profile for TL02–59, with picomolar potency against the myeloid Src-family member Fgr. In a mouse xenograft model of AML, oral administration of TL02–59 for three weeks at 10 mg/kg completely eliminated leukemic cells from the spleen and peripheral blood while significantly reducing bone marrow engraftment. These results identify Fgr as a previously unrecognized kinase inhibitor target in AML, and TL02–59 as a possible lead compound for clinical development in AML cases that overexpress this kinase independent of Flt3 mutations.

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“…FLT3/ITD and FLT3/TKD are ideal targets for small molecule inhibitors. Multiple FLT3 inhibitors are in clinical development, including sorafenib, lestaurtinib, sunitinib, tandutinib, quizartinib, midostaurin, gilteritinib, crenolanib, cabozantinib, Sel24-B489, G-749, AMG 925, TTT-3002, and FF-10101 [22][23][24][25][26][27][28][29][30]. Midostaurin and gilteritinib have been approved by FDA for Flt3 mutated AML [31].…”

Section: Introductionmentioning

confidence: 99%

Gilteritinib: a novel FLT3 inhibitor for acute myeloid leukemia

2019

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FMS-like tyrosine kinase 3- internal tandem duplication (FLT3-ITD) remains as one of the most frequently mutated genes in acute myeloid leukemia (AML), especially in those with normal cytogenetics. The FLT3-ITD and FLT3-TKD (tyrosine kinase domain) mutations are biomarkers for high risk AML and are associated with drug resistance and high risk of relapse. Multiple FLT3 inhibitors are in clinical development, including lestaurtinib, tandutinib, quizartinib, midostaurin, gilteritinib, and crenolanib. Midostaurin and gilteritinib have been approved by FDA for Flt3 mutated AML. Gilteritinib (ASP2215, Xospata) is a small molecule dual inhibitor of FLT3/AXL. The ADMIRAL study showed that longer overall survival and higher response rate are associated with gilteritinib in comparison with salvage chemotherapy for relapse /refractory (R/R) AML. These data from the ADMIRAL study may lead to the therapy paradigm shift and establish gilteritinib as the new standard therapy for R/R FLT3-mutated AML. Currently, multiple clinical trials are ongoing to evaluate the combination of gilteritinib with other agents and regimens. This study summarized clinical trials of gilteritinib for AML.

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A novel irreversible FLT3 inhibitor, FF-10101, shows excellent efficacy against AML cells with FLT3 mutations

Cited by 107 publications

References 33 publications

FLT3 mutations in acute myeloid leukemia: Therapeutic paradigm beyond inhibitor development

FLT3 mutations in acute myeloid leukemia: Therapeutic paradigm beyond inhibitor development

Selective Inhibition of the Myeloid Src-Family Kinase Fgr Potently Suppresses AML Cell Growth in Vitro and in Vivo

Gilteritinib: a novel FLT3 inhibitor for acute myeloid leukemia

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