Using Metabolomic Approaches to Explore Chemical Diversity in Rice

Acute myeloid leukemia (AML) is an aggressive and lethal blood cancer originating from rare populations of leukemia stem cells (LSCs). AML relapse after conventional chemotherapy is caused by a remaining population of drug-resistant LSCs. Selective targeting of the chemoresistant population is a promising strategy for preventing and treating AML relapse. Polycomb repressive complex 2 (PRC2) trimethylates histone H3 at lysine 27 to maintain the stemness of LSCs. Here, we show that quiescent LSCs expressed the highest levels of enhancer of zeste (EZH) 1 and EZH2, the PRC2 catalytic subunits, in the AML hierarchy, and that dual inactivation of EZH1/2 eradicated quiescent LSCs to cure AML. Genetic deletion of Ezh1/2 in a mouse AML model induced cell cycle progression of quiescent LSCs and differentiation to LSCs, eventually eradicating AML LSCs. Quiescent LSCs showed PRC2-mediated suppression of Cyclin D, and Cyclin D-overexpressing AML was more sensitive to chemotherapy. We have developed a novel EZH1/2 dual inhibitor with potent inhibitory activity against both EZH1/2. In AML mouse models and patient-derived xenograft models, the inhibitor reduced the number of LSCs, impaired leukemia progression, and prolonged survival. Taken together, these results show that dual inhibition of EZH1/2 is an effective strategy for eliminating AML LSCs.

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Phosphorylation of KRAB-associated Protein 1 (KAP1) at Tyr-449, Tyr-458, and Tyr-517 by Nuclear Tyrosine Kinases Inhibits the Association of KAP1 and Heterochromatin Protein 1α (HP1α) with Heterochromatin

Kubota

Fukumoto

Aoyama

et al. 2013

Journal of Biological Chemistry

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Background:We showed that nuclear tyrosine phosphorylation is involved in chromatin structural changes. Results: Several tyrosine kinases phosphorylate KAP1 at Tyr-449, Tyr-458, and Tyr-517 in the nucleus, resulting in a decrease of KAP1 association with heterochromatin. Conclusion: Tyrosine phosphorylation of KAP1 by nucleus-localized tyrosine kinases, including Src, involves heterochromatin structural changes. Significance: These findings provide a new insight into nuclear tyrosine phosphorylation signals.

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Bcor insufficiency promotes initiation and progression of myelodysplastic syndrome

Tara

Isshiki

Nakajima‐Takagi

et al. 2018

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Abstract BCOR, encoding BCL-6 corepressor (BCOR), is X-linked and targeted by somatic mutations in various hematological malignancies including myelodysplastic syndrome (MDS). We previously reported that mice lacking Bcor exon 4 (BcorΔE4/y) in the hematopoietic compartment developed NOTCH-dependent acute T-cell lymphoblastic leukemia (T-ALL). Here, we analyzed mice lacking Bcor exons 9 and 10 (BcorΔE9-10/y), which express a carboxyl-terminal truncated BCOR that fails to interact with core effector components of polycomb repressive complex 1.1. BcorΔE9-10/y mice developed lethal T-ALL in a similar manner to BcorΔE4/y mice, whereas BcorΔE9-10/y hematopoietic cells showed a growth advantage in the myeloid compartment that was further enhanced by the concurrent deletion of Tet2. Tet2Δ/ΔBcorΔE9-10/y mice developed lethal MDS with progressive anemia and leukocytopenia, inefficient hematopoiesis, and the morphological dysplasia of blood cells. Tet2Δ/ΔBcorΔE9-10/y MDS cells reproduced MDS or evolved into lethal MDS/myeloproliferative neoplasms in secondary recipients. Transcriptional profiling revealed the derepression of myeloid regulator genes of the Cebp family and Hoxa cluster genes in BcorΔE9-10/y progenitor cells and the activation of p53 target genes specifically in MDS erythroblasts where massive apoptosis occurred. Our results reveal a tumor suppressor function of BCOR in myeloid malignancies and highlight the impact of Bcor insufficiency on the initiation and progression of MDS.

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Dual Inhibition of EZH2 and EZH1 Sensitizes PRC2-Dependent Tumors to Proteasome Inhibition

Rizq

Mimura

Oshima

et al. 2017

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Purpose EZH2 and EZH1, the catalytic components of polycomb repressive complex 2 (PRC2), trigger trimethylation of H3K27 (H3K27me3) to repress the transcription of target genes and are implicated in the pathogenesis of various cancers including multiple myeloma and prostate cancer. Here, we investigated the preclinical effects of UNC1999, a dual inhibitor of EZH2 and EZH1, in combination with proteasome inhibitors on multiple myeloma and prostate cancer. Experimental Design In vitro and in vivo efficacy of UNC1999 and the combination with proteasome inhibitors was evaluated in multiple myeloma cell lines, primary patient cells, and in a xenograft model. RNA-seq and ChIP-seq were performed to uncover the targets of UNC1999 in multiple myeloma. The efficacy of the combination therapy was validated in prostate cancer cell lines. Results Proteasome inhibitors repressed EZH2 transcription via abrogation of the RB-E2F pathway, thereby sensitizing EZH2-dependent multiple myeloma cells to EZH1 inhibition by UNC1999. Correspondingly, combination of proteasome inhibitors with UNC1999, but not with an EZH2-specific inhibitor, induced synergistic antimyeloma activity in vitro. Bortezomib combined with UNC1999 remarkably inhibited the growth of myeloma cells in vivo. Comprehensive analyses revealed several direct targets of UNC1999 including the tumor suppressor gene NR4A1. Derepression of NR4A1 by UNC1999 resulted in suppression of MYC, which was enhanced by the combination with bortezomib, suggesting the cooperative blockade of PRC2 function. Notably, this combination also exhibited strong synergy in prostate cancer cells. Conclusions Our results identify dual inhibition of EZH2 and EZH1 together with proteasome inhibition as a promising epigenetics-based therapy for PRC2-dependent cancers.

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Nuclear c-Abl-mediated tyrosine phosphorylation induces chromatin structural changes through histone modifications that include H4K16 hypoacetylation

Aoyama

Fukumoto

Ishibashi

et al. 2011

Experimental Cell Research

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Setdb1 maintains hematopoietic stem and progenitor cells by restricting the ectopic activation of nonhematopoietic genes

Koide

Oshima

Takubo

et al. 2016

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Kazumasa Aoyama

Ezh2 loss in hematopoietic stem cells predisposes mice to develop heterogeneous malignancies in an Ezh1-dependent manner

The loss of Ezh2 drives the pathogenesis of myelofibrosis and sensitizes tumor-initiating cells to bromodomain inhibition

Dual inhibition of EZH1/2 breaks the quiescence of leukemia stem cells in acute myeloid leukemia

Phosphorylation of KRAB-associated Protein 1 (KAP1) at Tyr-449, Tyr-458, and Tyr-517 by Nuclear Tyrosine Kinases Inhibits the Association of KAP1 and Heterochromatin Protein 1α (HP1α) with Heterochromatin

Bcor insufficiency promotes initiation and progression of myelodysplastic syndrome

Dual Inhibition of EZH2 and EZH1 Sensitizes PRC2-Dependent Tumors to Proteasome Inhibition

Nuclear c-Abl-mediated tyrosine phosphorylation induces chromatin structural changes through histone modifications that include H4K16 hypoacetylation

Setdb1 maintains hematopoietic stem and progenitor cells by restricting the ectopic activation of nonhematopoietic genes

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