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12 results on '"Yuki Kagiyama"'

4. Novel working hypothesis for pathogenesis of hematological malignancies: combination of mutations-induced cellular phenotypes determines the disease (cMIP-DD).

Author

Toshio Kitamura, Naoko Watanabe-Okochi, Yutaka Enomoto, Fumio Nakahara, Toshihiko Oki, Yukiko Komeno, Naoko Kato, Noriko Doki, Tomoyuki Uchida, Yuki Kagiyama, Katsuhiro Togami, Kawabata, Kimihito C., Koutarou Nishimura, Yasutaka Hayashi, Reina Nagase, Makoto Saika, Tsuyoshi Fukushima, Shuhei Asada, Takeshi Fujino, and Yuto Izawa

Subjects
HEMATOLOGIC malignancies, PHENOTYPES, GENETIC mutation, EPIGENETICS, LEUKEMIA etiology
Abstract

Recent progress in high-speed sequencing technology has revealed that tumors harbor novel mutations in a variety of genes including those for molecules involved in epigenetics and splicing, some of which were not categorized to previously thought malignancy-related genes. However, despite thorough identification of mutations in solid tumors and hematological malignancies, how these mutations induce cell transformation still remains elusive. In addition, each tumor usually contains multiple mutations or sometimes consists of multiple clones, which makes functional analysis difficult. Fifteen years ago, it was proposed that combination of two types of mutations induce acute leukemia; Class I mutations induce cell growth or inhibit apoptosis while class II mutations block differentiation, co-operating in inducing acute leukemia. This notion has been proven using a variety of mouse models, however most of recently found mutations are not typical class I/II mutations. Although some novel mutations have been found to functionally work as class I or II mutation in leukemogenesis, the classical class I/II theory seems to be too simple to explain the whole story. We here overview the molecular basis of hematological malignancies based on clinical and experimental results, and propose a new working hypothesis for leukemogenesis. [ABSTRACT FROM AUTHOR]

Published
2016
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5. The molecular basis of myeloid malignancies.

Author

Toshio KITAMURA, Daichi INOUE, Naoko OKOCHI-WATANABE, Naoko KATO, Yukiko KOMENO, Yang LU, Yutaka ENOMOTO, Noriko DOKI, Tomoyuki UCHIDA, Yuki KAGIYAMA, Katsuhiro TOGAMI, KAWABATA, Kimihito C., Reina NAGASE, Sayuri HORIKAWA, Yasutaka HAYASHI, Makoto SAIKA, Tomofusa FUKUYAMA, Kumi IZAWA, Toshihiko OKI, and Fumio NAKAHARA

Published
2014
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6. Dual inhibition of enhancer of zeste homolog 1/2 overactivates WNT signaling to deplete cancer stem cells in multiple myeloma.

Author

Nakagawa, Makoto, Fujita, Shuhei, Katsumoto, Takuo, Yamagata, Kazutsune, Ogawara, Yoko, Hattori, Ayuna, Kagiyama, Yuki, Honma, Daisuke, Araki, Kazushi, Inoue, Tatsuya, Kato, Ayako, Inaki, Koichiro, Wada, Chisa, Ono, Yoshimasa, Yamamoto, Masahide, Miura, Osamu, Nakashima, Yasuharu, and Kitabayashi, Issay

Abstract

Multiple myeloma (MM) is an incurable hematological malignancy caused by accumulation of abnormal clonal plasma cells. Despite the recent development of novel therapies, relapse of MM eventually occurs as a result of a remaining population of drug‐resistant myeloma stem cells. Side population (SP) cells show cancer stem cell‐like characteristics in MM; thus, targeting these cells is a promising strategy to completely cure this malignancy. Herein, we showed that SP cells expressed higher levels of enhancer of zeste homolog (EZH) 1 and EZH2, which encode the catalytic subunits of Polycomb repressive complex 2 (PRC2), than non‐SP cells, suggesting that EZH1 as well as EZH2 contributes to the stemness maintenance of the MM cells and that targeting both EZH1/2 is potentially a significant therapeutic approach for eradicating myeloma stem cells. A novel orally bioavailable EZH1/2 dual inhibitor, OR‐S1, effectively eradicated SP cells and had a greater antitumor effect than a selective EZH2 inhibitor in vitro and in vivo, including a unique patient‐derived xenograft model. Moreover, long‐term continuous dosing of OR‐S1 completely cured mice bearing orthotopic xenografts. Additionally, PRC2 directly regulated WNT signaling in MM, and overactivation of this signaling induced by dual inhibition of EZH1/2 eradicated myeloma stem cells and negatively affected tumorigenesis, suggesting that repression of WNT signaling by PRC2 plays an important role in stemness maintenance of MM cells. Our results show the role of EZH1/2 in the maintenance of myeloma stem cells and provide a preclinical rationale for therapeutic application of OR‐S1, leading to significant advances in the treatment of MM. Long‐term continuous administration of OR‐S1 completely cured all mice bearing orthotopic xenografts without eliciting any serious side‐effects. We confirmed this result by counting minimal residual cells by flow cytometric analysis. These results suggest that long‐term continuous administration of OR‐S1 impairs the self‐renewal activity of myeloma stem cells, rendering these cells unable to reconstitute disease and leading to the complete cure of MM. [ABSTRACT FROM AUTHOR]

Published
2019
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7. Selective inhibition of mutant IDH1 by DS-1001b ameliorates aberrant histone modifications and impairs tumor activity in chondrosarcoma

Author

Nakagawa, Makoto, Nakatani, Fumihiko, Matsunaga, Hironori, Seki, Takahiko, Endo, Makoto, Ogawara, Yoko, Machida, Yukino, Katsumoto, Takuo, Yamagata, Kazutsune, Hattori, Ayuna, Fujita, Shuhei, Aikawa, Yukiko, Ishikawa, Takamasa, Soga, Tomoyoshi, Kawai, Akira, Chuman, Hirokazu, Yokoyama, Nobuhiko, Fukushima, Suguru, Yahiro, Kenichiro, Kimura, Atsushi, Shimada, Eijiro, Hirose, Takeshi, Fujiwara, Toshifumi, Setsu, Nokitaka, Matsumoto, Yoshihiro, Iwamoto, Yukihide, Nakashima, Yasuharu, and Kitabayashi, Issay

Published
2019
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8. IDH2 and NPM1 Mutations Cooperate to Activate Hoxa9/Meis1 and Hypoxia Pathways in Acute Myeloid Leukemia.

Author

Yoko Ogawara, Takuo Katsumoto, Yukiko Aikawa, Yutaka Shima, Yuki Kagiyama, Tomoyoshi Soga, Hironori Matsunaga, Takahiko Seki, Kazushi Araki, and Issay Kitabayashi

Subjects
*ACUTE myeloid leukemia, *ISOCITRATE dehydrogenase, *GENETIC mutation, *NUCLEOPHOSMIN, *CANCER stem cells, *GENE expression
Abstract

IDH1 and IDH2 mutations occur frequently in acute myeloid leukemia (AML) and other cancers. The mutant isocitrate dehydrogenase (IDH) enzymes convert α-ketoglutarate (α-KG) to the oncometabolite 2-hydroxyglutarate (2-HG), which dysregulates a set of α-KG-dependent dioxygenases. To determine whether mutant IDH enzymes are valid targets for cancer therapy, we created a mouse model of AML in which mice were transplanted with nucleophosmin1 (NPM)+/- hematopoietic stem/progenitor cells cotransduced with four mutant genes (NPMc, IDH2/R140Q, DNMT3A/R882H, and FLT3/ITD), which often occur simultaneously in human AML patients. Conditional deletion of IDH2/R140Q blocked 2-HG production and maintenance of leukemia stem cells, resulting in survival of the AML mice. IDH2/R140Q was necessary for the engraftment or survival of NPMc+ cells in vivo. Gene expression analysis indicated that NPMc increased expression of Hoxa9. IDH2/R140Q also increased the level of Meis1 and activated the hypoxia pathway in AML cells. IDH2/R140Q decreased the 5hmC modification and expression of some differentiation-inducing genes (Ebf1 and Spib). Taken together, our results indicated that IDH2 mutation is critical for the development and maintenance of AML stem-like cells, and they provided a preclinical justification for targeting mutant IDH enzymes as a strategy for anticancer therapy. [ABSTRACT FROM AUTHOR]

Published
2015
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9. Hes1 promotes blast crisis in chronic myelogenous leukemia through MMP-9 upregulation in leukemic cells.

Author

Fumio Nakahara, Jiro Kitaura, Tomoyuki Uchida, Chiemi Nishida, Katsuhiro Togami, Daichi Inoue, Toshihiro Matsukawa, Yuki Kagiyama, Yutaka Enomoto, Kawabata, Kimihito C., Lai Chen-Yi, Yukiko Komeno, Kumi Izawa, Toshihiko Oki, Genta Nagae, Yuka Harada, Hironori Harada, Makoto Otsu, Hiroyuki Aburatani, and Beate Heissig

Subjects
*CHRONIC myeloid leukemia, *HEMATOPOIETIC system, *GENE expression, *BLOOD plasma, *GENETIC regulation
Abstract

High levels of HES1 expression are frequently found in BCR-ABL+ chronic myelogenous leukemia in blast crisis (CML-BC). In mouse bone marrow transplantation (BMT) models, co-expression of BCR-ABL and Hes1 induces CML-BC-like disease; however, the underlying mechanism remained elusive. Here, based on gene expression analysis, we show that MMP-9 is upregulated by Hes1 in common myeloid progenitors (CMPs). Analysis of promoter activity demonstrated that Hes1 upregulated MMP-9 by activating NF-kB. Analysis of 20 samples from CML-BC patients showed that MMP-9 was highly expressed in three, with two exhibiting high levels of HES1 expression. Interestingly, MMP-9 deficiency impaired the cobblestone area-forming ability of CMPs expressing BCR-ABL and Hes1 that were in conjunction with a stromal cell layer. In addition, CMPs expressing BCR-ABL and Hes1 secreted MMP-9, promoting the release of soluble Kit-ligand (sKitL) from stromal cells, thereby enhancing proliferation of the leukemic cells. In accordance, mice transplanted with CMPs expressing BCR-ABL and Hes1 exhibited high levels of sKitL as well as MMP-9 in the serum. Importantly, MMP-9 deficiency impaired the development of CML-BC-like disease induced by BCR-ABL and Hes1 in mouse BMT models. The present results suggest that Hes1 promotes the development of CML-BC, partly through MMP-9 upregulation in leukemic cells. [ABSTRACT FROM AUTHOR]

Published
2014
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10. Upregulation of CD200R1 in lineage-negative leukemic cells is characteristic of AML1-ETO-positive leukemia in mice.

Author

Kagiyama, Yuki, Kitaura, Jiro, Togami, Katsuhiro, Uchida, Tomoyuki, Inoue, Daichi, Matsukawa, Toshihiro, Izawa, Kumi, Kawabata, Kimihito, Komeno, Yukiko, Oki, Toshihiko, Nakahara, Fumio, Sato, Katsuaki, Aburatani, Hiroyuki, and Kitamura, Toshio

Abstract

Activating mutations of c-Kit are frequently found in acute myeloid leukemia (AML) patients harboring t(8;21) chromosomal translocation generating a fusion protein AML1-ETO. Here we show that an active mutant of c-Kit cooperates with AML1-ETO to induce AML in mouse bone marrow transplantation models. Leukemic cells expressing AML1-ETO with c-Kit were serially transplantable. Transplantation experiments indicated that lineagec-KitSca-1 (KSL) leukemic cells, but not lineage leukemic cells, were enriched for leukemia stem cells (LSCs). Comparison of gene expression profiles between KSL leukemic and normal cells delineated that CD200R1 was highly expressed in KSL leukemic cells as compared with KSL normal cells. Upregulation of CD200R1 was verified in lineage leukemic cells, but not in lineage leukemic cells. CD200R1 expression in the lineage leukemic cells was not correlated with the frequency of LSCs, indicating that CD200R1 is not a useful marker for LSCs in these models. Interestingly, CD200R1 was upregulated in KSL cells transduced with AML1-ETO, but not with other leukemogenic mutants, including c-Kit, AML1, and AML1. Consistently, upregulation of CD200R1 in lineage leukemic cells was observed only in the BM of mice suffering from AML1-ETO-positive leukemia. In conclusion, AML1-ETO upregulated CD200R1 in lineage cells, which was characteristic of AML1-ETO-positive leukemia in mice. [ABSTRACT FROM AUTHOR]

Published
2012
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11. Fyn is not essential for Bcr-Abl-induced leukemogenesis in mouse bone marrow transplantation models.

Author

Doki, Noriko, Kitaura, Jiro, Uchida, Tomoyuki, Inoue, Daichi, Kagiyama, Yuki, Togami, Katsuhiro, Isobe, Masamichi, Ito, Shinichi, Maehara, Akie, Izawa, Kumi, Kato, Naoko, Oki, Toshihiko, Harada, Yuka, Nakahara, Fumio, Harada, Hironori, and Kitamura, Toshio

Abstract

The Bcr-Abl oncogene causes human Philadelphia chromosome-positive (Ph) leukemias, including B-cell acute lymphoblastic leukemia (B-ALL) and chronic myeloid leukemia (CML) with chronic phase (CML-CP) to blast crisis (CML-BC). Previous studies have demonstrated that Src family kinases are required for the induction of B-ALL, but not for CML, which is induced by Bcr-Abl in mice. In contrast, it has been reported that Fyn is up-regulated in human CML-BC compared with CML-CP, implicating Fyn in the blast crisis transition. Here, we aimed to delineate the exact role of Fyn in the induction/progression of Ph leukemias. We found that Fyn is expressed in mouse hematopoietic cells at varying stages of development, including c-kitSca-1Lin cells. Notably, Fyn is highly expressed in some of human lymphomas, but not in human Ph leukemias including CML-BC. In mouse bone marrow transplantation models, mice transplanted with wild-type or Fyn-deficient bone marrow cells transduced with Bcr-Abl showed no differences in the development of B-ALL or CML-like diseases. Similarly, Fyn deficiency failed to impact the development of myeloid CML-BC induced by Bcr-Abl and Hes1. Elevated expression of Fyn was not found in mouse samples of Bcr-Abl-mediated CML- and CML-BC-like diseases. Thus, Fyn is not required for the pathogenesis of Bcr-Abl-mediated leukemias. [ABSTRACT FROM AUTHOR]

Published
2012
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12. Myelodysplastic syndromes are induced by histone methylation-altering ASXL1 mutations

Author

Inoue, Daichi, Kitaura, Jiro, Togami, Katsuhiro, Nishimura, Koutarou, Enomoto, Yutaka, Uchida, Tomoyuki, Kagiyama, Yuki, Kawabata, Kimihito Cojin, Nakahara, Fumio, Izawa, Kumi, Oki, Toshihiko, Maehara, Akie, Isobe, Masamichi, Tsuchiya, Akiho, Harada, Yuka, Harada, Hironori, Ochiya, Takahiro, Aburatani, Hiroyuki, Kimura, Hiroshi, Thol, Felicitas, Heuser, Michael, Levine, Ross L., Abdel-Wahab, Omar, and Kitamura, Toshio

Subjects
Gene mutations -- Physiological aspects -- Research, Myelodysplastic syndromes -- Genetic aspects -- Prognosis -- Risk factors -- Research, Methylation -- Physiological aspects -- Genetic aspects -- Research, Health care industry
Abstract

Recurrent mutations in the gene encoding additional sex combs-like 1 (ASXL1) are found in various hematologic malignancies and associated with poor prognosis. In particular, ASXL1 mutations are common in patients with hematologic malignancies associated with myelodysplasia, including myelodysplastic syndromes (MDSs), and chronic myelomonocytic leukemia. Although loss-of-function ASXL1 mutations promote myeloid transformation, a large subset of ASXL1 mutations is thought to result in stable truncation of ASXL1. Here we demonstrate that C-terminal-truncating Asxl1 mutations (ASXL1-MTs) inhibited myeloid differentiation and induced MDS-like disease in mice. ASXL1-MT mice displayed features of human-associated MDS, including multi-lineage myelodysplasia, pancytopenia, and occasional progression to overt leukemia. ASXL1-MT resulted in derepression of homeobox A9 (Hoxa9) and microRNA-125a (miR-125a) expression through inhibition of polycomb repressive complex 2-mediated (PRC2-mediated) methylation of histone H3K27. miR-125a reduced expression of C-type lectin domain family 5, member a (Clec5a), which is involved in myeloid differentiation. In addition, HOXA9 expression was high in MDS patients with ASXL1-MT, while CLEC5A expression was generally low. Thus, ASXL1-MT-induced MDS-like disease in mice is associated with derepression of Hoxa9 and miR-125a and with Clec5a dysregulation. Our data provide evidence for an axis of MDS pathogenesis that implicates both ASXL1 mutations and miR-125a as therapeutic targets in MDS., Introduction Additional sex combs-like 1 (ASXL1) is 1 of 3 mammalian homo-logs of the Drosophila additional sex combs (Asx), and plays critical roles both in activation and suppression of Hox [...]

Published
2013

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