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Targeting leukemia-specific dependence on the de novo purine synthesis pathway
Targeting leukemia-specific dependence on the de novo purine synthesis pathway
by Nogami Jumpei , Nakao Fumihiko , Akashi Koichi , Miyawaki Kohta , Semba Yuichiro , Bauer, Daniel E , Yamauchi Takuji , Izumi Yoshihiro , Maeda Takahiro , Sasaki Kensuke , Bamba Takeshi , Pinello Luca , Takahashi Masatomo , Sugio Takeshi
in Acute myeloid leukemia / Apoptosis / Biocompatibility / Biosynthesis / Cell proliferation / Cell survival / CRISPR / DNA biosynthesis / Genomes / Inhibitors / Leukemia / Target recognition / Therapeutic targets
2022
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Targeting leukemia-specific dependence on the de novo purine synthesis pathway
by Nogami Jumpei , Nakao Fumihiko , Akashi Koichi , Miyawaki Kohta , Semba Yuichiro , Bauer, Daniel E , Yamauchi Takuji , Izumi Yoshihiro , Maeda Takahiro , Sasaki Kensuke , Bamba Takeshi , Pinello Luca , Takahashi Masatomo , Sugio Takeshi
in Acute myeloid leukemia / Apoptosis / Biocompatibility / Biosynthesis / Cell proliferation / Cell survival / CRISPR / DNA biosynthesis / Genomes / Inhibitors / Leukemia / Target recognition / Therapeutic targets
2022
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Targeting leukemia-specific dependence on the de novo purine synthesis pathway
Targeting leukemia-specific dependence on the de novo purine synthesis pathway
by Nogami Jumpei , Nakao Fumihiko , Akashi Koichi , Miyawaki Kohta , Semba Yuichiro , Bauer, Daniel E , Yamauchi Takuji , Izumi Yoshihiro , Maeda Takahiro , Sasaki Kensuke , Bamba Takeshi , Pinello Luca , Takahashi Masatomo , Sugio Takeshi
in Acute myeloid leukemia / Apoptosis / Biocompatibility / Biosynthesis / Cell proliferation / Cell survival / CRISPR / DNA biosynthesis / Genomes / Inhibitors / Leukemia / Target recognition / Therapeutic targets
2022

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Targeting leukemia-specific dependence on the de novo purine synthesis pathway
Targeting leukemia-specific dependence on the de novo purine synthesis pathway
Journal Article

Targeting leukemia-specific dependence on the de novo purine synthesis pathway

Nogami Jumpei,
Nakao Fumihiko,
Akashi Koichi,
Miyawaki Kohta,
Semba Yuichiro,
Bauer, Daniel E,
Yamauchi Takuji,
Izumi Yoshihiro,
Maeda Takahiro,
Sasaki Kensuke,
Bamba Takeshi,
Pinello Luca,
Takahashi Masatomo,
Sugio Takeshi
2022
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Overview
Acute myeloid leukemia (AML) is a devastating disease, and clinical outcomes are still far from satisfactory. Here, to identify novel targets for AML therapy, we performed a genome-wide CRISPR/Cas9 screen using AML cell lines, followed by a second screen in vivo. We show that PAICS, an enzyme involved in de novo purine biosynthesis, is a potential target for AML therapy. AML cells expressing shRNA-PAICS exhibited a proliferative disadvantage, indicating a toxic effect of shRNA-PAICS. Treatment of human AML cells with a PAICS inhibitor suppressed their proliferation by inhibiting DNA synthesis and promoting apoptosis and had anti-leukemic effects in AML PDX models. Furthermore, CRISPR/Cas9 screens using AML cells in the presence of the inhibitor revealed genes mediating resistance or synthetic lethal to PAICS inhibition. Our findings identify PAICS as a novel therapeutic target for AML and further define components of de novo purine synthesis pathway and its downstream effectors essential for AML cell survival.
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Publisher
Nature Publishing Group
Subject

Acute myeloid leukemia

/ Apoptosis

/ Biocompatibility

/ Biosynthesis

/ Cell proliferation

/ Cell survival

/ CRISPR

/ DNA biosynthesis

/ Genomes

/ Inhibitors

/ Leukemia

/ Target recognition

/ Therapeutic targets

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