Discovery of Oxazol-2-amine Derivatives as Potent Novel FLT3 Inhibitors

Kim, Hyo Jeong; Ryu, Hwani; Song, Jie‐Young; Hwang, Sang‐Gu; Jalde, Shivakumar S; Choi, Ho Jin; Ahn, Joon-Woo

doi:10.3390/molecules25215154

Cited by 4 publications

(3 citation statements)

References 24 publications

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“…A 5-(4-fluorophenyl)-N-phenyloxazol-2-amine (compound 7c ) inhibited the proliferation and increased apoptosis of FLT3 -ITD cells in vitro and reduced the in vivo growth of tumors obtained by xenotransplantation of the FLT3 -ITD MV4-11 AML cell line, without causing obvious toxicities [ 54 ]. Similar to other FLT3 inhibitors [ 80 ], compound 7c induced downregulation of DDR genes belonging to the homologous recombination (BRCA1, BRCA2, BARD1 and RAD51) and non-homologous end joining (XRCC4, XRCC5 and XRCC6) pathways and accumulation of DNA damage [ 54 ]. As a consequence, compound 7c sensitized FLT3 -ITD AML cells to treatment with the PARP inhibitor olaparib [ 54 , 81 ].…”

Section: Novel Molecules Targeting Proliferative Mechanisms In Acute ...mentioning

confidence: 99%

“…Similar to other FLT3 inhibitors [ 80 ], compound 7c induced downregulation of DDR genes belonging to the homologous recombination (BRCA1, BRCA2, BARD1 and RAD51) and non-homologous end joining (XRCC4, XRCC5 and XRCC6) pathways and accumulation of DNA damage [ 54 ]. As a consequence, compound 7c sensitized FLT3 -ITD AML cells to treatment with the PARP inhibitor olaparib [ 54 , 81 ].…”

Section: Novel Molecules Targeting Proliferative Mechanisms In Acute ...mentioning

confidence: 99%

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Targeting Proliferation Signals and the Cell Cycle Machinery in Acute Leukemias: Novel Molecules on the Horizon

et al. 2023

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Uncontrolled proliferative signals and cell cycle dysregulation due to genomic or functional alterations are important drivers of the expansion of undifferentiated blast cells in acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) cells. Therefore, they are largely studied as potential therapeutic targets in the field. We here present the most recent advancements in the evaluation of novel compounds targeting cell cycle proteins or oncogenic mechanisms, including those showing an antiproliferative effect in acute leukemia, independently of the identification of a specific target. Several new kinase inhibitors have been synthesized that showed effectiveness in a nanomolar to micromolar concentration range as inhibitors of FLT3 and its mutant forms, a highly attractive therapeutic target due to its driver role in a significant fraction of AML cases. Moreover, we introduce novel molecules functioning as microtubule-depolymerizing or P53-restoring agents, G-quadruplex-stabilizing molecules and CDK2, CHK1, PI3Kd, STAT5, BRD4 and BRPF1 inhibitors. We here discuss their mechanisms of action, including the downstream intracellular changes induced by in vitro treatment, hematopoietic toxicity, in vivo bio-availability and efficacy in murine xenograft models. The promising activity profile demonstrated by some of these candidates deserves further development towards clinical investigation.

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Section: Novel Molecules Targeting Proliferative Mechanisms In Acute ...mentioning

confidence: 99%

Section: Novel Molecules Targeting Proliferative Mechanisms In Acute ...mentioning

confidence: 99%

Targeting Proliferation Signals and the Cell Cycle Machinery in Acute Leukemias: Novel Molecules on the Horizon

et al. 2023

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“…Meanwhile, the FLT3 inhibitor AIU2008 also downregulated the HR and NHEJ pathways, synergizing with PARP inhibitors to inhibit leukemic cell growth 70 . Other compounds with FLT3 inhibitory activity showed synthetic lethality with PARP inhibitors involving the aforementioned DNA repair pathways, inhibition of STAT5 signaling, and YAP1 deacetylation 71,72 . On the other hand, use of a DNA‐PKcs inhibitor such as M3814 was shown to enhance DNA damage signaling, synergize the effects of topoisomerase II inhibitors and sensitize AML cells to P53‐dependent apoptosis, regardless of FLT3 mutational status, the surrounding cellular context, and its combination with cytarabine 73 .…”

Section: Therapy With Flt3 Inhibitors and Dna Repair Inhibitorsmentioning

confidence: 99%

DNA damage accumulation and repair defects in FLT3‐ITD acute myeloid leukemia: Implications for clonal evolution and disease progression

Lagunas‐Rangel

2022

Hematological Oncology

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Acute myeloid leukemia is a group of hematological diseases that have a high mortality rate. During the development of this pathology, hematopoietic cells acquire chromosomal rearrangements and multiple genetic mutations, including FLT3-ITD. FLT3-ITD is a marker associated with a poor clinical prognosis and involves the activation of pathways such as PI3K/AKT, MAPK/ERK, and JAK/STAT that favor the survival and proliferation of leukemic cells. In addition, FLT3-ITD leads to overproduction of reactive oxygen species and defective DNA damage repair, both implicated in the appearance of new mutations and leukemic clones. Thus, the purpose of this review is to illustrate the molecular mechanisms through which FLT3-ITD generates genetic instability and how it facilitates clonal evolution with the generation of more resistant and aggressive cells. Likewise, this article discusses the feasibility of combined therapies with FLT3 inhibitors and inhibitors of DNA repair pathways.

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Next-Generation FLT3 Inhibitors for the Treatment of FLT3-Positive AML

Gill

2023

Pathogenesis and Treatment of Leukemia

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Discovery of Oxazol-2-amine Derivatives as Potent Novel FLT3 Inhibitors

Cited by 4 publications

References 24 publications

Targeting Proliferation Signals and the Cell Cycle Machinery in Acute Leukemias: Novel Molecules on the Horizon

Targeting Proliferation Signals and the Cell Cycle Machinery in Acute Leukemias: Novel Molecules on the Horizon

DNA damage accumulation and repair defects in FLT3‐ITD acute myeloid leukemia: Implications for clonal evolution and disease progression

Next-Generation FLT3 Inhibitors for the Treatment of FLT3-Positive AML

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