Your search keyword '"Makoto Yamagishi"' showing total 30 results

1. Progression of adult T‐cell leukemia/lymphoma from smoldering to acute type due to branched subclonal evolution

Author

Koji Jimbo, Makoto Yamagishi, Yutaka Suzuki, Kako Suzuki, Motoko Mizukami, Kazuaki Yokoyama, Aki Sato, Tokiko Nagamura‐Inoue, Yasuhito Nannya, and Kaoru Uchimaru

Subjects

ATL, clonal evolution, HTLV‐I, T‐Cell lymphoma, Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

2. Schlafen 12 restricts HIV-1 latency reversal by a codon-usage dependent post-transcriptional block in CD4+ T cells

Author

Mie Kobayashi-Ishihara, Katarína Frazão Smutná, Florencia E. Alonso, Jordi Argilaguet, Anna Esteve-Codina, Kerstin Geiger, Meritxell Genescà, Judith Grau-Expósito, Clara Duran-Castells, Selina Rogenmoser, René Böttcher, Jennifer Jungfleisch, Baldomero Oliva, Javier P. Martinez, Manqing Li, Michael David, Makoto Yamagishi, Marta Ruiz-Riol, Christian Brander, Yasuko Tsunetsugu-Yokota, Maria J. Buzon, Juana Díez, and Andreas Meyerhans

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Latency is a major barrier towards virus elimination in HIV-1-infected individuals. Yet, the mechanisms that contribute to the maintenance of HIV-1 latency are incompletely understood. Here we describe the Schlafen 12 protein (SLFN12) as an HIV-1 restriction factor that establishes a post-transcriptional block in HIV-1-infected cells and thereby inhibits HIV-1 replication and virus reactivation from latently infected cells. The inhibitory activity is dependent on the HIV-1 codon usage and on the SLFN12 RNase active sites. Within HIV-1-infected individuals, SLFN12 expression in PBMCs correlated with HIV-1 plasma viral loads and proviral loads suggesting a link with the general activation of the immune system. Using an RNA FISH-Flow HIV-1 reactivation assay, we demonstrate that SLFN12 expression is enriched in infected cells positive for HIV-1 transcripts but negative for HIV-1 proteins. Thus, codon-usage dependent translation inhibition of HIV-1 proteins participates in HIV-1 latency and can restrict the amount of virus release after latency reversal.

Published

2023

3. EZH1/2 dual inhibitors suppress HTLV-1-infected cell proliferation and hyperimmune response in HTLV-1-associated myelopathy

Author

Akihito Koseki, Natsumi Araya, Makoto Yamagishi, Junji Yamauchi, Naoko Yagishita, Naoki Takao, Katsunori Takahashi, Yasuo Kunitomo, Daisuke Honma, Kazushi Araki, Kaoru Uchimaru, Tomoo Sato, and Yoshihisa Yamano

Subjects

HTLV-1, HTLV-1-infected cells, HTLV-1 associated myelopathy (HAM), EZH2, epigenetic drug, valemetostat, Microbiology, QR1-502

Abstract

BackgroundHuman T-cell leukemia virus type 1 (HTLV-1) causes HTLV-1-associated myelopathy (HAM), adult T-cell leukemia/lymphoma (ATL), HTLV-1-associated uveitis, and pulmonary diseases. Although both HAM and ATL show proliferation of infected cells, their pathogeneses are quite different. In particular, the pathogenesis of HAM is characterized by hyperimmune responses to HTLV-1-infected cells. Recently, we demonstrated the overexpression of histone methyltransferase EZH2 in ATL cells and the cytotoxic effects of EZH2 inhibitors and EZH1/2 dual inhibitors on these cells. However, these phenomena have never been studied in HAM. Furthermore, what effect these agents have on the hyperimmune response seen in HAM is completely unknown.MethodsIn this study, we investigated histone methyltransferase expression levels in infected cell populations (CD4+ and CD4+CCR4+ cells) from patients with HAM using microarray and RT-qPCR analyses. Next, using an assay system that utilizes the spontaneous proliferation characteristic of peripheral blood mononuclear cells derived from patients with HAM (HAM-PBMCs), we investigated the effects of EZH2 selective inhibitors (GSK126 and tazemetostat) and EZH1/2 dual inhibitors (OR-S1 and valemetostat, also known as DS-3201), particularly on cell proliferation rate, cytokine production, and HTLV-1 proviral load. We also examined the effect of EZH1/2 inhibitors on the proliferation of HTLV-1-infected cell lines (HCT-4 and HCT-5) derived from patients with HAM.ResultsWe found elevated expression of EZH2 in CD4+ and CD4+CCR4+ cells from patients with HAM. EZH2 selective inhibitors and EZH1/2 inhibitors significantly inhibited spontaneous proliferation of HAM-PBMC in a concentration-dependent manner. The effect was greater with EZH1/2 inhibitors. EZH1/2 inhibitors also reduced the frequencies of Ki67+ CD4+ T cells and Ki67+ CD8+ T cells. Furthermore, they reduced HTLV-1 proviral loads and increased IL-10 levels in culture supernatants but did not alter IFN-γ and TNF-α levels. These agents also caused a concentration-dependent inhibition of the proliferation of HTLV-1-infected cell lines derived from patients with HAM and increased annexin-V(+)7-aminoactinomycin D(−) early apoptotic cells.ConclusionThis study showed that EZH1/2 inhibitors suppress HTLV-1-infected cell proliferation through apoptosis and the hyperimmune response in HAM. This indicates that EZH1/2 inhibitors may be effective in treating HAM.

Published

2023

4. RAISING is a high-performance method for identifying random transgene integration sites

Author

Yusaku Wada, Tomoo Sato, Hiroo Hasegawa, Takahiro Matsudaira, Naganori Nao, Ariella L. G. Coler-Reilly, Tomohiko Tasaka, Shunsuke Yamauchi, Tomohiro Okagawa, Haruka Momose, Michikazu Tanio, Madoka Kuramitsu, Daisuke Sasaki, Nariyoshi Matsumoto, Naoko Yagishita, Junji Yamauchi, Natsumi Araya, Kenichiro Tanabe, Makoto Yamagishi, Makoto Nakashima, Shingo Nakahata, Hidekatsu Iha, Masao Ogata, Masamichi Muramatsu, Yoshitaka Imaizumi, Kaoru Uchimaru, Yasushi Miyazaki, Satoru Konnai, Katsunori Yanagihara, Kazuhiro Morishita, Toshiki Watanabe, Yoshihisa Yamano, and Masumichi Saito

Subjects

Biology (General), QH301-705.5

Abstract

Integrating RAISING and CLOVA, an effective method for detection and monitoring clonal integration of viruses and viral vectors is presented.

Published

2022

5. Chronological genome and single-cell transcriptome integration characterizes the evolutionary process of adult T cell leukemia-lymphoma

Author

Makoto Yamagishi, Miyuki Kubokawa, Yuta Kuze, Ayako Suzuki, Akari Yokomizo, Seiichiro Kobayashi, Makoto Nakashima, Junya Makiyama, Masako Iwanaga, Takahiro Fukuda, Toshiki Watanabe, Yutaka Suzuki, and Kaoru Uchimaru

Subjects

Science

Abstract

Characterising the clonal architecture of Adult T-cell leukemia-lymphoma (ATL) remains crucial. Here, the authors develop a capture-based sequencing panel and use deep DNA and single cell RNA sequencing and report distinct genomic and transcriptomic features associated with subclonal evolution.

Published

2021

6. Clonal Selection and Evolution of HTLV-1-Infected Cells Driven by Genetic and Epigenetic Alteration

Author

Makoto Yamagishi, Yutaka Suzuki, Toshiki Watanabe, and Kaoru Uchimaru

Subjects

HTLV-1, genome, epigenome, Microbiology, QR1-502

Abstract

T cells infected with human T-cell leukemia virus type 1 (HTLV-1) acquire various abnormalities during a long latent period and transform into highly malignant adult T-cell leukemia-lymphoma (ATL) cells. This can be described as “clonal evolution”, in which a single clone evolves into ATL cells after overcoming various selective pressures in the body of the infected individuals. Many studies have shown that the genome and epigenome contain a variety of abnormalities, which are reflected in gene expression patterns and define the characteristics of the disease. The latest research findings suggest that epigenomic disorders are thought to begin forming early in infection and evolve into ATL through further changes and accentuation as they progress. Genomic abnormalities profoundly affect clonal dominance and tumor cell characteristics in later events. ATL harbors both genomic and epigenomic abnormalities, and an accurate understanding of these can be expected to provide therapeutic opportunities.

Published

2022

7. Targeting Excessive EZH1 and EZH2 Activities for Abnormal Histone Methylation and Transcription Network in Malignant Lymphomas

Author

Makoto Yamagishi, Makoto Hori, Dai Fujikawa, Takeo Ohsugi, Daisuke Honma, Nobuaki Adachi, Harutaka Katano, Tsunekazu Hishima, Seiichiro Kobayashi, Kazumi Nakano, Makoto Nakashima, Masako Iwanaga, Atae Utsunomiya, Yuetsu Tanaka, Seiji Okada, Kunihiro Tsukasaki, Kensei Tobinai, Kazushi Araki, Toshiki Watanabe, and Kaoru Uchimaru

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Although global H3K27me3 reprogramming is a hallmark of cancer, no effective therapeutic strategy for H3K27me3-high malignancies harboring EZH2WT/WT has yet been established. We explore epigenome and transcriptome in EZH2WT/WT and EZH2WT/Mu aggressive lymphomas and show that mutual interference and compensatory function of co-expressed EZH1 and EZH2 rearrange their own genome-wide distribution, thereby establishing restricted chromatin and gene expression signatures. Direct comparison of leading compounds introduces potency and a mechanism of action of the EZH1/2 dual inhibitor (valemetostat). The synthetic lethality is observed in all lymphoma models and primary adult T cell leukemia-lymphoma (ATL) cells. Opposing actions of EZH1/2-polycomb and SWI/SNF complexes are required for facultative heterochromatin formation. Inactivation of chromatin-associated genes (ARID1A, SMARCA4/BRG1, SMARCB1/SNF5, KDM6A/UTX, BAP1, KMT2D/MLL2) and oncovirus infection (HTLV-1, EBV) trigger EZH1/2 perturbation and H3K27me3 deposition. Our study provides the mechanism-based rationale for chemical dual targeting of EZH1/2 in cancer epigenome. : A mechanism-based, effective strategy for controlling oncogenic H3K27me3 remains an open question. Yamagishi et al. provide the scientific rationale for dual targeting of EZH1+EZH2 in malignancies overexpressing EZH2, such as ATL, PTCL, and DLBCL, or harboring mutations in histone-modifying genes, as well as in pre-cancerous cells epigenomically perturbed by oncovirus infection. Keywords: EZH1, EZH2, H3K27me3, epigenetic drug, malignant lymphoma, adult T cell leukemia-lymphoma (ATL), HTLV-1, polycomb

Published

2019

8. The Nature of the HTLV-1 Provirus in Naturally Infected Individuals Analyzed by the Viral DNA-Capture-Seq Approach

Author

Hiroo Katsuya, Saiful Islam, Benjy Jek Yang Tan, Jumpei Ito, Paola Miyazato, Misaki Matsuo, Yuki Inada, Saori C. Iwase, Yoshikazu Uchiyama, Hiroyuki Hata, Tomoo Sato, Naoko Yagishita, Natsumi Araya, Takaharu Ueno, Kisato Nosaka, Masahito Tokunaga, Makoto Yamagishi, Toshiki Watanabe, Kaoru Uchimaru, Jun-ichi Fujisawa, Atae Utsunomiya, Yoshihisa Yamano, and Yorifumi Satou

Subjects

Biology (General), QH301-705.5

Abstract

Summary: The retrovirus human T-cell leukemia virus type 1 (HTLV-1) integrates into the host DNA, achieves persistent infection, and induces human diseases. Here, we demonstrate that viral DNA-capture sequencing (DNA-capture-seq) is useful to characterize HTLV-1 proviruses in naturally virus-infected individuals, providing comprehensive information about the proviral structure and the viral integration site. We analyzed peripheral blood from 98 naturally HTLV-1-infected individuals and found that defective proviruses were present not only in patients with leukemia, but also in those with other clinical entities. We further demonstrated that clones with defective-type proviruses exhibited a higher degree of clonal abundance than those with full-length proviruses. The frequency of defective-type proviruses in HTLV-1-infected humanized mice was lower than that in infected individuals, indicating that defective proviruses were rare at the initial phase of infection but preferentially selected during persistent infection. These results demonstrate the robustness of viral DNA-capture-seq for HTLV-1 infection and suggest potential applications for other virus-associated cancers in humans. : Katsuya et al. demonstrate that HTLV-1 DNA-capture-seq provides comprehensive information, including the entire viral sequence, integration site, and clonal abundance of infected cells. Infected clones with defective-type proviruses are present in disease states and in asymptomatic carriers, and they proliferate more than full-length proviruses. Keywords: retrovirus, viral oncogenesis, HTLV-1, next-generation sequencing, DNA-capture-seq, viral integration site, clonality analysis, adult T cell leukemia-lymphoma, retroviral latency, HIV-1

Published

2019

9. HTLV-1-Mediated Epigenetic Pathway to Adult T-Cell Leukemia–Lymphoma

Author

Makoto Yamagishi, Dai Fujikawa, Toshiki Watanabe, and Kaoru Uchimaru

Subjects

HTLV-1, ATLL, epigenetics, EZH2, gene expression, gene mutations, Microbiology, QR1-502

Abstract

Human T-cell leukemia virus type 1 (HTLV-1), the first reported human oncogenic retrovirus, is the etiologic agent of highly aggressive, currently incurable diseases such as adult T-cell leukemia–lymphoma (ATL) and HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). HTLV-1 proteins, including Tax and HBZ, have been shown to have critical roles in HTLV-1 pathogenicity, yet the underlying mechanisms of HTLV-1-driven leukemogenesis are unclear. The frequent disruption of genetic and epigenetic gene regulation in various types of malignancy, including ATL, is evident. In this review, we illustrate a focused range of topics about the establishment of HTLV-1 memory: (1) genetic lesion in the Tax interactome pathway, (2) gene regulatory loop/switch, (3) disordered chromatin regulation, (4) epigenetic lock by the modulation of epigenetic factors, (5) the loss of gene fine-tuner microRNA, and (6) the alteration of chromatin regulation by HTLV-1 integration. We discuss the persistent influence of Tax-dependent epigenetic changes even after the disappearance of HTLV-1 gene expression due to the viral escape from the immune system, which is a remaining challenge in HTLV-1 research. The summarized evidence and conceptualized description may provide a better understanding of HTLV-1-mediated cellular transformation and the potential therapeutic strategies to combat HTLV-1-associated diseases.

Published

2018

10. HIV LTR-Driven Antisense RNA by Itself Has Regulatory Function and May Curtail Virus Reactivation From Latency

Author

Mie Kobayashi-Ishihara, Kazutaka Terahara, Javier P. Martinez, Makoto Yamagishi, Ryutaro Iwabuchi, Christian Brander, Manabu Ato, Toshiki Watanabe, Andreas Meyerhans, and Yasuko Tsunetsugu-Yokota

Subjects

HIV, viral antisense RNA, latency, reactivation, latency reversing agents, Microbiology, QR1-502

Abstract

Latently infected T lymphocytes are an important barrier toward eliminating a persistent HIV infection. Here we describe an HIV-based recombinant fluorescent-lentivirus referred to as “rfl-HIV” that enables to analyze sense and antisense transcription by means of fluorescence reporter genes. This model virus exhibited similar transcriptional and functional properties of the antisense transcript as observed with a wild type HIV, and largely facilitated the generation of latently-infected T cells clones. We show that latently-infected cells can be divided into two types, those with and those without antisense transcription. Upon addition of latency reversal agents, only the cells that lack antisense transcripts are readily reactivated to transcribe HIV. Thus, antisense transcripts may exhibit a dominant suppressor activity and can lock an integrated provirus into a non-reactivatable state. These findings could have important implications for the development of strategies to eradicate HIV from infected individuals.

Published

2018

11. Homeostatically maintained resting naïve CD4+ T cells resist latent HIV reactivation

Author

Yasuko Tsunetsugu-Yokota, Mie Kobayashi-Ishihara, Yamato Wada, Kazutaka Terahara, Haruko Takeyama, Ai Kawana-Tachikawa, Kenzo Tokunaga, Makoto Yamagishi, Javier P Martinez, and Andreas Meyerhans

Subjects

HIV, resting state, latency, homeostatic proliferation, naive CD4 T cells, Microbiology, QR1-502

Abstract

Homeostatic proliferation (HSP) is a major mechanism by which long-lived naïve and memory CD4+ T cells are maintained in vivo and suggested to contribute to the persistence of the latent HIV-1 reservoir. However, while many in vitro latency models rely on CD4+ T cells that were initially differentiated via T-cell receptor stimulation (TCR) into memory/effector cells, latent infection of naïve resting CD4+ T cells maintained under HSP conditions has not been fully addressed. Here we describe an in vitro HSP culture system utilizing the cytokines IL-7 and IL-15 that allows studying latency in naïve resting CD4+ T cells. CD4+ T cells isolated from several healthy donors were infected with HIV pseudotypes expressing GFP and cultured under HSP conditions or TCR conditions as control. Cell proliferation, phenotype and GFP expression were analyzed by flow cytometry. RNA expression was quantified by qRT-PCR. Under HSP culture conditions, latently HIV-1 infected naïve cells are in part maintained in the non-dividing (= resting) state. Although a few HIV-1 provirus+ cells were present in these resting GFP negative cells, the estimated level of GFP transcripts per infected cell seems to indicate a block at the post-transcriptional level. Interestingly, neither TCR nor the prototypic HDAC inhibitor SAHA were able to reactivate HIV-1 provirus from these cells. This lack of reactivation was not due to methylation of the HIV LTR. These results point to a mechanism of HIV control in HSP-cultured resting naïve CD4+ T cells that may be distinct from that in TCR-stimulated memory/effector T cells.

Published

2016

12. Inhibition of FLT3 expression by green tea catechins in FLT3 mutated-AML cells.

Author

Bui Thi Kim Ly, Hoang Thanh Chi, Makoto Yamagishi, Yasuhiko Kano, Yukihiko Hara, Kazumi Nakano, Yuko Sato, and Toshiki Watanabe

Subjects

Medicine, Science

Abstract

Acute myeloid leukemia (AML) is a heterogeneous disease characterized by a block in differentiation and uncontrolled proliferation. FLT3 is a commonly mutated gene found in AML patients. In clinical trials, the presence of a FLT3-ITD mutation significantly correlates with an increased risk of relapse and dismal overall survival. Therefore, activated FLT3 is a promising molecular target for AML therapies. In this study, we have shown that green tea polyphenols including (-)-epigallocatechin-3-gallate (EGCG), (-)-epigallocatechin (EGC), and (-)-epicatechin-3-gallate (ECG) suppress the proliferation of AML cells. Interestingly, EGCG, EGC and ECG showed the inhibition of FLT3 expression in cell lines harboring FLT3 mutations. In the THP-1 cells harboring FLT3 wild-type, EGCG showed the suppression of cell proliferation but did not suppress the expression of FLT3 even at the concentration that suppress 100% cell proliferation. Moreover, EGCG-, EGC-and ECG-treated cells showed the suppression of MAPK, AKT and STAT5 phosphorylation. Altogether, we suggest that green tea polyphenols could serve as reagents for treatment or prevention of leukemia harboring FLT3 mutations.

Published

2013

13. Mortality and risk of progression to adult T cell leukemia/lymphoma in HTLV-1–associated myelopathy/tropical spastic paraparesis

Author

Miyuki Kubokawa, Yutaka Suzuki, Tomoo Sato, Toshiki Watanabe, Ayako Arai, Naoko Yagishita, Misako Nagasaka, Yu Uemura, Junji Yamauchi, Yoshihisa Yamano, Eisuke Inoue, Seiichiro Kobayashi, Junya Makiyama, Ayako Takata, Makoto Yamagishi, Daisuke Hasegawa, Natsumi Araya, Kaoru Uchimaru, Ariella Coler-Reilly, Shuntaro Tsutsumi, and Yasuhiro Hasegawa

Subjects

Male, Clone (cell biology), ATLL, Microbiology, Adult T-cell leukemia/lymphoma, Myelopathy, immune system diseases, hemic and lymphatic diseases, Tropical spastic paraparesis, Medicine, Humans, Leukemia-Lymphoma, Adult T-Cell, Prospective Studies, Prospective cohort study, Aged, Human T-lymphotropic virus 1, Multidisciplinary, business.industry, Incidence (epidemiology), virus diseases, Biological Sciences, SMR, medicine.disease, Prognosis, Paraparesis, Tropical Spastic, Standardized mortality ratio, HTLV-1, Cohort, Immunology, Disease Progression, Female, business, HAM/TSP

Abstract

Significance HTLV-1 manifests many diseases, which cause morbidity and mortality in 5∼10% of infected individuals, including the fatal adult T cell leukemia/lymphoma (ATLL) and debilitating myelopathy (HAM/TSP). However, the rarity of these diseases had made it prohibitory to conduct large-scale prospective observational studies. This work enabled calculating the standard mortality ratio of HAM/TSP patients and also identified ATLL as one of the major causes of death among these patients. We also identified the features that lead HAM/TSP patients to develop ATLL: having dominant clonal expansion of HTLV-1–infected cells with ATLL-associated somatic mutations. Furthermore, this manuscript describes genomic changes occurring in HAM/TSP patients at the actual time of their ATLL transformation., Human T cell leukemia virus 1 (HTLV-1) causes the functionally debilitating disease HTLV-1–associated myelopathy/tropical spastic paraparesis (HAM/TSP) as well as adult T cell leukemia lymphoma (ATLL). Although there were concerns that the mortality of HAM/TSP could be affected by the development of ATLL, prospective evidence was lacking in this area. In this 5-y prospective cohort study, we determined the mortality, prevalence, and incidence of ATLL in 527 HAM/TSP patients. The standard mortality ratio of HAM/TSP patients was 2.25, and ATLL was one of the major causes of death (5/33 deaths). ATLL prevalence and incidence in these patients were 3.0% and 3.81 per 1,000 person-y, respectively. To identify patients at a high risk of developing ATLL, flow cytometry, Southern blotting, and targeted sequencing data were analyzed in a separate cohort of 218 HAM/TSP patients. In 17% of the HAM/TSP patients, we identified an increase in T cells positive for cell adhesion molecule 1 (CADM1), a marker for ATLL and HTLV-1–infected cells. Genomic analysis revealed that somatic mutations of HTLV-1–infected cells were seen in 90% of these cases and 11% of them had dominant clone and developed ATLL in the longitudinal observation. In this study, we were able to demonstrate the increased mortality in patients with HAM/TSP and a significant effect of ATLL on their prognosis. Having dominant clonal expansion of HTLV-1–infected cells with ATLL-associated somatic mutations may be important characteristics of patients with HAM/TSP who are at an increased risk of developing ATLL.

Published

2020

14. Chronological genome and single-cell transcriptome integration characterizes the evolutionary process of adult T cell leukemia-lymphoma

Author

Kaoru Uchimaru, Yuta Kuze, Yutaka Suzuki, Junya Makiyama, Ayako Suzuki, Seiichiro Kobayashi, Makoto Nakashima, Masako Iwanaga, Toshiki Watanabe, Miyuki Kubokawa, Akari Yokomizo, Takahiro Fukuda, and Makoto Yamagishi

Subjects

Adult, STAT3 Transcription Factor, Tumour heterogeneity, Somatic cell, Science, Receptors, Antigen, T-Cell, General Physics and Astronomy, Computational biology, Genome, Viral, Biology, medicine.disease_cause, Genome, General Biochemistry, Genetics and Molecular Biology, DNA sequencing, Article, Transcriptome, Clonal Evolution, Jurkat Cells, hemic and lymphatic diseases, Cell Line, Tumor, medicine, Humans, Leukemia-Lymphoma, Adult T-Cell, RNA-Seq, Receptor, Notch1, Gene, Cancer genetics, Cells, Cultured, Cell Proliferation, Mutation, Human T-lymphotropic virus 1, Multidisciplinary, Genetic heterogeneity, General Chemistry, HTLV-I Infections, Clone Cells, T-cell lymphoma, Single-Cell Analysis

Abstract

Subclonal genetic heterogeneity and their diverse gene expression impose serious problems in understanding the behavior of cancers and contemplating therapeutic strategies. Here we develop and utilize a capture-based sequencing panel, which covers host hotspot genes and the full-length genome of human T-cell leukemia virus type-1 (HTLV-1), to investigate the clonal architecture of adult T-cell leukemia-lymphoma (ATL). For chronologically collected specimens from patients with ATL or pre-onset individuals, we integrate deep DNA sequencing and single-cell RNA sequencing to detect the somatic mutations and virus directly and characterize the transcriptional readouts in respective subclones. Characteristic genomic and transcriptomic patterns are associated with subclonal expansion and switches during the clinical timeline. Multistep mutations in the T-cell receptor (TCR), STAT3, and NOTCH pathways establish clone-specific transcriptomic abnormalities and further accelerate their proliferative potential to develop highly malignant clones, leading to disease onset and progression. Early detection and characterization of newly expanded subclones through the integrative analytical platform will be valuable for the development of an in-depth understanding of this disease., Characterising the clonal architecture of Adult T-cell leukemia-lymphoma (ATL) remains crucial. Here, the authors develop a capture-based sequencing panel and use deep DNA and single cell RNA sequencing and report distinct genomic and transcriptomic features associated with subclonal evolution.

Published

2021

15. Targeting Excessive EZH1 and EZH2 Activities for Abnormal Histone Methylation and Transcription Network in Malignant Lymphomas

Author

Kazushi Araki, Kazumi Nakano, Nobuaki Adachi, Makoto Hori, Harutaka Katano, Kunihiro Tsukasaki, Yuetsu Tanaka, Makoto Yamagishi, Takeo Ohsugi, Daisuke Honma, Dai Fujikawa, Tsunekazu Hishima, Seiichiro Kobayashi, Seiji Okada, Kaoru Uchimaru, Masako Iwanaga, Atae Utsunomiya, Toshiki Watanabe, Makoto Nakashima, and Kensei Tobinai

Subjects

0301 basic medicine, Adult, Herpesvirus 4, Human, ARID1A, Lymphoma, H3K27me3, Synthetic lethality, macromolecular substances, Biology, Methylation, General Biochemistry, Genetics and Molecular Biology, Histones, 03 medical and health sciences, Epigenome, 0302 clinical medicine, EZH1, hemic and lymphatic diseases, Histone methylation, Tumor Cells, Cultured, Humans, Enhancer of Zeste Homolog 2 Protein, EZH2, epigenetic drug, lcsh:QH301-705.5, Histone Demethylases, Human T-lymphotropic virus 1, Tumor Suppressor Proteins, DNA Helicases, Polycomb Repressive Complex 2, Nuclear Proteins, SMARCB1 Protein, adult T cell leukemia-lymphoma (ATL), Chromatin, Neoplasm Proteins, DNA-Binding Proteins, 030104 developmental biology, Retroviridae, lcsh:Biology (General), HTLV-1, Cancer research, SMARCA4, malignant lymphoma, polycomb, Reprogramming, Ubiquitin Thiolesterase, 030217 neurology & neurosurgery, Transcription Factors

Abstract

Although global H3K27me3 reprogramming is a hallmark of cancer, no effective therapeutic strategy for H3K27me3-high malignancies harboring EZH2(WT/WT) has yet been established. We explore epigenome and transcriptome in EZH2(WT/WT) and EZH2(WT/Mu) aggressive lymphomas and show that mutual interference and compensatory function of co-expressed EZH1 and EZH2 rearrange their own genome-wide distribution, thereby establishing restricted chromatin and gene expression signatures. Direct comparison of leading compounds introduces potency and a mechanism of action of the EZH1/2 dual inhibitor (valemetostat). The synthetic lethality is observed in all lymphoma models and primary adult T cell leukemia-lymphoma (ATL) cells. Opposing actions of EZH1/2-polycomb and SWI/SNF complexes are required for facultative heterochromatin formation. Inactivation of chromatin-associated genes (ARID1A, SMARCA4/BRG1, SMARCB1/SNF5, KDM6A/UTX, BAP1, KMT2D/MLL2) and oncovirus infection (HTLV-1, EBV) trigger EZH1/2 perturbation and H3K27me3 deposition. Our study provides the mechanism-based rationale for chemical dual targeting of EZH1/2 in cancer epigenome., 論文

Published

2019

16. HTLV-1-Mediated Epigenetic Pathway to Adult T-Cell Leukemia–Lymphoma

Author

Kaoru Uchimaru, Dai Fujikawa, Toshiki Watanabe, and Makoto Yamagishi

Subjects

0301 basic medicine, Microbiology (medical), viruses, lcsh:QR1-502, Review, Gene mutation, Biology, ATLL, Microbiology, lcsh:Microbiology, Adult T-cell leukemia/lymphoma, 03 medical and health sciences, immune system diseases, hemic and lymphatic diseases, microRNA, Tropical spastic paraparesis, medicine, EZH2, Epigenetics, gene mutations, Regulation of gene expression, epigenetics, virus diseases, medicine.disease, Chromatin, 030104 developmental biology, HTLV-1, gene expression, Cancer research

Abstract

Human T-cell leukemia virus type 1 (HTLV-1), the first reported human oncogenic retrovirus, is the etiologic agent of highly aggressive, currently incurable diseases such as adult T-cell leukemia–lymphoma (ATL) and HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). HTLV-1 proteins, including Tax and HBZ, have been shown to have critical roles in HTLV-1 pathogenicity, yet the underlying mechanisms of HTLV-1-driven leukemogenesis are unclear. The frequent disruption of genetic and epigenetic gene regulation in various types of malignancy, including ATL, is evident. In this review, we illustrate a focused range of topics about the establishment of HTLV-1 memory: (1) genetic lesion in the Tax interactome pathway, (2) gene regulatory loop/switch, (3) disordered chromatin regulation, (4) epigenetic lock by the modulation of epigenetic factors, (5) the loss of gene fine-tuner microRNA, and (6) the alteration of chromatin regulation by HTLV-1 integration. We discuss the persistent influence of Tax-dependent epigenetic changes even after the disappearance of HTLV-1 gene expression due to the viral escape from the immune system, which is a remaining challenge in HTLV-1 research. The summarized evidence and conceptualized description may provide a better understanding of HTLV-1-mediated cellular transformation and the potential therapeutic strategies to combat HTLV-1-associated diseases.

Published

2018

17. Homeostatically Maintained Resting Naive CD4+ T Cells Resist Latent HIV Reactivation

Author

Yamato Wada, Ai Kawana-Tachikawa, Kazutaka Terahara, Mie Kobayahi-Ishihara, Kenzo Tokunaga, Andreas Meyerhans, Yasuko Tsunetsugu-Yokota, Javier Martínez, Haruko Takeyama, and Makoto Yamagishi

Subjects

0301 basic medicine, Microbiology (medical), 030106 microbiology, naïve CD4 T cells, Biology, Microbiology, Flow cytometry, Green fluorescent protein, 03 medical and health sciences, Interleukin 21, medicine, Cytotoxic T cell, homeostatic proliferation, Naïve CD4 T cells, latency, Original Research, medicine.diagnostic_test, Cell growth, T-cell receptor, HIV, Provirus, Virology, In vitro, cytokines, Homeostatic proliferation, Cell biology, 030104 developmental biology, Latency, Cytokines

Abstract

Homeostatic proliferation (HSP) is a major mechanism by which long-lived naïve and memory CD4+ T cells are maintained in vivo and suggested to contribute to the persistence of the latent HIV-1 reservoir. However, while many in vitro latency models rely on CD4+ T cells that were initially differentiated via T-cell receptor (TCR) stimulation into memory/effector cells, latent infection of naïve resting CD4+ T cells maintained under HSP conditions has not been fully addressed. Here, we describe an in vitro HSP culture system utilizing the cytokines IL-7 and IL-15 that allows studying latency in naïve resting CD4+ T cells. CD4+ T cells isolated from several healthy donors were infected with HIV pseudotypes expressing GFP and cultured under HSP conditions or TCR conditions as control. Cell proliferation, phenotype, and GFP expression were analyzed by flow cytometry. RNA expression was quantified by qRT-PCR. Under HSP culture conditions, latently HIV-1 infected naïve cells are in part maintained in the non-dividing (= resting) state. Although a few HIV-1 provirus+ cells were present in these resting GFP negative cells, the estimated level of GFP transcripts per infected cell seems to indicate a block at the post-transcriptional level. Interestingly, neither TCR nor the prototypic HDAC inhibitor SAHA were able to reactivate HIV-1 provirus from these cells. This lack of reactivation was not due to methylation of the HIV LTR. These results point to a mechanism of HIV control in HSP-cultured resting naïve CD4+ T cells that may be distinct from that in TCR-stimulated memory/effector T cells. This work was supported by Grants from the Ministry of Health, Labor and Welfare in Japan for AIDS Research and from the Japan Agency for Medical Research and Development, AMED (YT-Y). JM and AM were funded by a grant from the Spanish Ministry of Economy and Competitiveness and FEDER (Grant no. SAF2013-46077-R).

Published

2016

18. Mortality and risk of progression to adult T cell leukemia/lymphoma in HTLV-1-associated myelopathy/tropical spastic paraparesis.

Author

Misako Nagasaka, Makoto Yamagishi, Naoko Yagishita, Natsumi Araya, Seiichiro Kobayashi, Junya Makiyama, Miyuki Kubokawa, Junji Yamauchi, Daisuke Hasegawa, Coler-Reilly, Ariella L. G., Shuntaro Tsutsumi, Yu Uemura, Ayako Arai, Ayako Takata, Eisuke Inoue, Yasuhiro Hasegawa, Toshiki Watanabe, Yutaka Suzuki, Kaoru Uchimaru, and Tomoo Sato

Subjects

*HTLV, *T cells, *CELL adhesion molecules, *PARAPARESIS

Abstract

Human T cell leukemia virus 1 (HTLV-1) causes the functionally debilitating disease HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP) as well as adult T cell leukemia lymphoma (ATLL). Although there were concerns that the mortality of HAM/TSP could be affected by the development of ATLL, prospective evidence was lacking in this area. In this 5-y prospective cohort study, we determined the mortality, prevalence, and incidence of ATLL in 527 HAM/TSP patients. The standard mortality ratio of HAM/TSP patients was 2.25, and ATLL was one of the major causes of death (5/33 deaths). ATLL prevalence and incidence in these patients were 3.0% and 3.81 per 1,000 person-y, respectively. To identify patients at a high risk of developing ATLL, flow cytometry, Southern blotting, and targeted sequencing data were analyzed in a separate cohort of 218 HAM/TSP patients. In 17% of the HAM/TSP patients, we identified an increase in T cells positive for cell adhesion molecule 1 (CADM1), a marker for ATLL and HTLV-1-infected cells. Genomic analysis revealed that somatic mutations of HTLV-1-infected cells were seen in 90% of these cases and 11% of them had dominant clone and developed ATLL in the longitudinal observation. In this study, we were able to demonstrate the increased mortality in patients with HAM/TSP and a significant effect of ATLL on their prognosis. Having dominant clonal expansion of HTLV-1-infected cells with ATLL-associated somatic mutations may be important characteristics of patients with HAM/TSP who are at an increased risk of developing ATLL. [ABSTRACT FROM AUTHOR]

Published

2020

19. Coordinated loss of microRNA group causes defenseless signaling in malignant lymphoma

Author

Takaomi Ishida, Toshiki Watanabe, Harutaka Katano, Seiji Okada, Makoto Yamagishi, Tatsu Shimoyama, Tsunekazu Hishima, Yasunori Ota, and Kazumi Nakano

Subjects

0301 basic medicine, B-cell receptor, Syk, Receptors, Antigen, B-Cell, Biology, Article, 03 medical and health sciences, microRNA, medicine, Humans, Gene Regulatory Networks, PI3K/AKT/mTOR pathway, B cell, Multidisciplinary, breakpoint cluster region, Gene Expression Regulation, Neoplastic, MicroRNAs, 030104 developmental biology, medicine.anatomical_structure, Cell Transformation, Neoplastic, Cancer cell, Immunology, Cancer research, Biological Assay, Lymphoma, Large B-Cell, Diffuse, Signal transduction, Signal Transduction

Abstract

Biological robustness is exposed to stochastic perturbations, which should be controlled by intrinsic mechanisms; the promiscuous signaling network without appropriate alleviation is the true nature of cancer cells. B cell receptor (BCR) signaling is a major source of gene expression signature important for B cell. It is still unclear the mechanism by which the expression of functionally important genes is continuously deregulated in malignant lymphomas. Using RISC-capture assay, we reveal that multiple BCR signaling factors are persistently regulated by microRNA (miRNA) in human B cells. Clinical samples from patients with diffuse large B-cell lymphoma (DLBCL, n = 83) show loss of an essential miRNA set (miR-200c, miR-203, miR-31). Conventional screening and RISC profiling identify multiple targets (CD79B, SYK, PKCβII, PLCγ1, IKKβ, NIK, MYD88, PI3K class I (α/β/δ/γ), RasGRP3); signaling network habitually faces interference composed by miRNA group in normal B cells. We demonstrate that simultaneous depletion of the key miRNAs enhances translation of the multiple targets and causes chronic activation of NF-κB, PI3K-Akt and Ras-Erk cascades, leading to B cell transformation. This study suggests that compensatory actions by multiple miRNAs rather than by a single miRNA ensure robustness of biological processes.

Published

2015

20. Standardization of Quantitative PCR for Human T-Cell Leukemia Virus Type 1 in Japan: a Collaborative Study

Author

Daisuke Sasaki, Ryuji Kubota, Shigeru Saito, Atae Utsunomiya, Haruka Momose, Kazu Okuma, Kumiko Araki, Chieko Matsumoto, Isao Hamaguchi, Ki-Ryang Koh, Kazuo Itabashi, Akihiko Okayama, Masako Iwanaga, Madoka Kuramitsu, Takuo Mizukami, Yoshihisa Yamano, Noriaki Kaneko, Hiroo Hasegawa, Makoto Nakashima, Makoto Yamagishi, Masao Ogata, Rieko Sobata, Kisato Nosaka, Masahiro Satake, Isao Naruse, Kaoru Uchimaru, Kazumi Umeki, Shimeru Kamihira, Kazunari Yamaguchi, Yoshiaki Okada, Tadanori Yamochi, Tomoo Sato, Shuji Izumo, Yasuko Sagara, Manabu Mochizuki, Toshiki Watanabe, Masaki Ochiai, and Saeko Mizusawa

Subjects

Microbiology (medical), Leukemia, T-Cell, Virus Integration, Real-Time Polymerase Chain Reaction, Jurkat Cells, Japan, Proviruses, Virology, Cell Line, Tumor, Tropical spastic paraparesis, medicine, Humans, Human T-lymphotropic virus 1, biology, Provirus, Viral Load, biology.organism_classification, medicine.disease, HTLV-I Infections, Leukemia, genomic DNA, Real-time polymerase chain reaction, DNA, Viral, Leukocytes, Mononuclear, Viral load

Abstract

Quantitative PCR (qPCR) analysis of human T-cell leukemia virus type 1 (HTLV-1) was used to assess the amount of HTLV-1 provirus DNA integrated into the genomic DNA of host blood cells. Accumulating evidence indicates that a high proviral load is one of the risk factors for the development of adult T-cell leukemia/lymphoma and HTLV-1-associated myelopathy/tropical spastic paraparesis. However, interlaboratory variability in qPCR results makes it difficult to assess the differences in reported proviral loads between laboratories. To remedy this situation, we attempted to minimize discrepancies between laboratories through standardization of HTLV-1 qPCR in a collaborative study. TL-Om1 cells that harbor the HTLV-1 provirus were serially diluted with peripheral blood mononuclear cells to prepare a candidate standard. By statistically evaluating the proviral loads of the standard and those determined using in-house qPCR methods at each laboratory, we determined the relative ratios of the measured values in the laboratories to the theoretical values of the TL-Om1 standard. The relative ratios of the laboratories ranged from 0.84 to 4.45. Next, we corrected the proviral loads of the clinical samples from HTLV-1 carriers using the relative ratio. As expected, the overall differences between the laboratories were reduced by half, from 7.4-fold to 3.8-fold on average, after applying the correction. HTLV-1 qPCR can be standardized using TL-Om1 cells as a standard and by determining the relative ratio of the measured to the theoretical standard values in each laboratory.

Published

2015

21. Identification of TL-Om1, an Adult T-Cell Leukemia (ATL) Cell Line, as Reference Material for Quantitative PCR for Human T-Lymphotropic Virus 1

Author

Toshiki Watanabe, Isao Hamaguchi, Kazuya Takizawa, Kazunari Yamaguchi, Kumiko Araki, Tadanori Yamochi, Kazuo Sugamura, Takuo Mizukami, Madoka Kuramitsu, Sanaz Firouzi, Makoto Yamagishi, Kazu Okuma, and Haruka Momose

Subjects

Microbiology (medical), viruses, T-cell leukemia, Real-Time Polymerase Chain Reaction, Genome, Japan, Proviruses, immune system diseases, hemic and lymphatic diseases, Virology, Cell Line, Tumor, Humans, Digital polymerase chain reaction, Gene, Human T-lymphotropic virus 1, biology, Chromosome, virus diseases, Provirus, Reference Standards, Viral Load, biology.organism_classification, Molecular biology, Real-time polymerase chain reaction

Abstract

Quantitative PCR (qPCR) for human T-lymphotropic virus 1 (HTLV-1) is useful for measuring the amount of integrated HTLV-1 proviral DNA in peripheral blood mononuclear cells. Many laboratories in Japan have developed different HTLV-1 qPCR methods. However, when six independent laboratories analyzed the proviral load of the same samples, there was a 5-fold difference in their results. To standardize HTLV-1 qPCR, preparation of a well-defined reference material is needed. We analyzed the integrated HTLV-1 genome and the internal control (IC) genes of TL-Om1, a cell line derived from adult T-cell leukemia, to confirm its suitability as a reference material for HTLV-1 qPCR. Fluorescent in situ hybridization (FISH) showed that HTLV-1 provirus was monoclonally integrated in chromosome 1 at the site of 1p13 in the TL-Om1 genome. HTLV-1 proviral genome was not transferred from TL-Om1 to an uninfected T-cell line, suggesting that the HTLV-1 proviral copy number in TL-Om1 cells is stable. To determine the copy number of HTLV-1 provirus and IC genes in TL-Om1 cells, we used FISH, digital PCR, and qPCR. HTLV-1 copy numbers obtained by these three methods were similar, suggesting that their results were accurate. Also, the ratio of the copy number of HTLV-1 provirus to one of the IC genes, RNase P, was consistent for all three methods. These findings indicate that TL-Om1 cells are an appropriate reference material for HTLV-1 qPCR.

Published

2015

22. Molecular Hallmarks of Adult T Cell Leukemia

Author

Toshiki Watanabe and Makoto Yamagishi

Subjects

Microbiology (medical), Genome, epigenetics, Molecular pathology, T-cell leukemia, lcsh:QR1-502, Review Article, Cell cycle, Biology, Microbiology, lcsh:Microbiology, Crosstalk (biology), immune system diseases, HTLV-1, ATL, hemic and lymphatic diseases, Immunology, microRNA, Cancer research, Epigenetics, Signal transduction, Reprogramming, Signal Transduction, miRNA

Abstract

The molecular hallmarks of adult T cell leukemia (ATL) comprise outstanding deregulations of signaling pathways that control the cell cycle, resistance to apoptosis, and proliferation of leukemic cells, all of which have been identified by early excellent studies. Nevertheless, we are now confronted the therapeutic difficulties of ATL that is a most aggressive T cell leukemia/lymphoma. Using next-generation strategies, emerging molecular characteristics such as specific surface markers and an additional catalog of signals affecting the fate of leukemic cells have been added to the molecular hallmarks that constitute an organizing principle for rationalizing the complexities of ATL. Although human T cell leukemia virus type 1 (HTLV-1) is undoubtedly involved in ATL leukemogenesis, most leukemic cells do not express the viral protein Tax. Instead, cellular gene expression changes dominate homeostasis disorders of infected cells and characteristics of ATL. In this review, we summarize the state of the art of ATL molecular pathology, which supports the biological properties of leukemic cells. In addition, we discuss the recent discovery of two molecular hallmarks of potential generality; an abnormal microRNA (miRNA) pattern and epigenetic reprogramming, which strongly involve the imbalance of the molecular network of lymphocytes. Global analyses of ATL have revealed the functional impact of crosstalk between multifunctional pathways. Clinical and biological studies on signaling inhibitory agents have also revealed novel oncogenic drivers that can be targeted in future. ATL cells, by deregulation of such pathways and their interconnections, may become masters of their own destinies. Recognizing and understanding of the widespread molecular applicability of these concepts will increasingly affect the development of novel strategies for treating ATL.

Published

2012

23. HIV-1-encoded antisense RNA suppresses viral replication for a prolonged period

Author

Tadanori Yamochi, Mie Kobayashi-Ishihara, Yuka Matsuda, Takaomi Ishida, Ryutaro Takahashi, Kazumi Nakano, Toshiki Watanabe, Takuma Hara, Ariko Miyake, and Makoto Yamagishi

Subjects

Gene Expression Regulation, Viral, lcsh:Immunologic diseases. Allergy, Time Factors, HIV Infections, Biology, Transfection, Virus Replication, Proviruses, Genes, Reporter, Transcription (biology), RNA interference, Virology, Gene expression, Sense (molecular biology), Humans, RNA, Antisense, RNA, Messenger, Promoter Regions, Genetic, HIV Long Terminal Repeat, Cell Nucleus, Research, NF-kappa B, RNA, Reverse Transcription, Molecular biology, Antisense RNA, Antisense Orientation, HEK293 Cells, Infectious Diseases, Viral replication, Mutation, HIV-1, Leukocytes, Mononuclear, Nucleic Acid Conformation, RNA, Viral, RNA Interference, lcsh:RC581-607, Plasmids

Abstract

Background Recent evidence proposes a novel concept that mammalian natural antisense RNAs play important roles in cellular homeostasis by regulating the expression of several genes. Identification and characterization of retroviral antisense RNA would provide new insights into mechanisms of replication and pathogenesis. HIV-1 encoded-antisense RNAs have been reported, although their structures and functions remain to be studied. We have tried to identify and characterize antisense RNAs of HIV-1 and their function in viral infection. Results Characterization of transcripts of HEK293T cells that were transiently transfected with an expression plasmid with HIV-1NL4–3 DNA in the antisense orientation showed that various antisense transcripts can be expressed. By screening and characterizing antisense RNAs in HIV-1NL4–3-infected cells, we defined the primary structure of a major form of HIV-1 antisense RNAs, which corresponds to a variant of previously reported ASP mRNA. This 2.6 kb RNA was transcribed from the U3 region of the 3′ LTR and terminated at the env region in acutely or chronically infected cell lines and acutely infected human peripheral blood mononuclear cells. Reporter assays clearly demonstrated that the HIV-1 LTR harbours promoter activity in the reverse orientation. Mutation analyses suggested the involvement of NF-κΒ binding sites in the regulation of antisense transcription. The antisense RNA was localized in the nuclei of the infected cells. The expression of this antisense RNA suppressed HIV-1 replication for more than one month. Furthermore, the specific knockdown of this antisense RNA enhanced HIV-1 gene expression and replication. Conclusions The results of the present study identified an accurate structure of the major form of antisense RNAs expressed from the HIV-1NL4–3 provirus and demonstrated its nuclear localization. Functional studies collectively demonstrated a new role of the antisense RNA in viral replication. Thus, we suggest a novel viral mechanism that self-limits HIV-1 replication and provides new insight into the viral life cycle.

Published

2012

24. EZH2 dependent epigenetic landscape in adult T cell leukemia and Tax immortalized cells

Author

Kazumi Nakano, Shota Nakagawa, Dai Fujikawa, Kaoru Uchimaru, Makoto Yamagishi, Ai Soejima, Seiichirou Kobayashi, Naoya Kurokawa, Toshiki Watanabe, and Yuetsu Tanaka

Subjects

Genetics, Epigenetic regulation of neurogenesis, EZH2, macromolecular substances, Biology, Cell biology, Transcriptome, Infectious Diseases, hemic and lymphatic diseases, Virology, microRNA, Gene silencing, Oral Presentation, Epigenetics, Transcription factor, Reprogramming

Abstract

Epigenetic regulations globally determine gene transcription. Recent studies have revealed that expression changes and genetic mutations of epigenetic factors cause epigenetic imbalance in cancers. We previously reported that aberrant expression of Polycomb repressive complex 2 (PRC2) components causes constitutive NF-κB activation through silencing of miR-31 in ATL cells. However, the underlying mechanisms by which the epigenetic imbalance is induced and maintained remain to be elucidated. Here, we conducted ChIP-on-chip and transcriptome analyses of ATL and normal CD4+ T cells and found that the epigenetic reprogramming closely associates with ATL specific gene expression signature. Leukemic cell-specific silencing of cell cycle regulator, CDNK1A, was correlated with H3K27me3 level. In addition, orchestrated loss of microRNAs and multiple transcription factors appears to be mediated by the epigenetic mechanism. EZH2 upregulation and H3K27me3 accumulation were found in HTLV-1-infected populations derived from ATL patients as well as asymptomatic carriers. Furthermore, EZH2 inhibition blocked Tax-dependent cell growth and its immortalization in vitro. Intriguingly, the Tax-triggered immortalizing cells partially mimicked the methylation pattern observed in ATL cells, suggesting that the epigenetic alterations are closely involved in immortalization of infected cells and disease progression. In parallel, we found that over expression of PRC2 core components was induced by active signaling cascades including NF-κB in ATL cells. Collectively, our results suggest a coherent positive feedback mechanism comprised of PRC2 and NF-κB signaling, which stabilizes the epigenetic rearrangement and phenotypic outcomes in HTLV-1 infected cells. Since pharmacological inhibition of EZH2 selectively killed ATL and HTLV-1 infected cells in ex vivo culture, targeting the epigenetic elements will hold great promise in treatment and prevention of ATL and HTLV-1-related diseases.

Published

2015

25. Targeting EZH2 in cancer therapy.

Author

Makoto Yamagishi, Kaoru Uchimaru, Yamagishi, Makoto, and Uchimaru, Kaoru

Published

2017

26. Homeostatically Maintained Resting Naive CD4+ T Cells Resist Latent HIV Reactivation.

Author

Yasuko Tsunetsugu-Yokota, Mie Kobayahi-Ishihara, Yamato Wada, Kazutaka Terahara, Haruko Takeyama, Ai Kawana-Tachikawa, Kenzo Tokunaga, Makoto Yamagishi, Martinez, Javier P., and Meyerhans, Andreas

Subjects

T cells, CELL proliferation, T-cell receptor genes

Abstract

Homeostatic proliferation (HSP) is a major mechanism by which long-lived naïve and memory CD4+ T cells are maintained in vivo and suggested to contribute to the persistence of the latent HIV-1 reservoir. However, while many in vitro latency models rely on CD4+ T cells that were initially differentiated via T-cell receptor (TCR) stimulation into memory/effector cells, latent infection of naïve resting CD4+ T cells maintained under HSP conditions has not been fully addressed. Here, we describe an in vitro HSP culture system utilizing the cytokines IL-7 and IL-15 that allows studying latency in naïve resting CD4+ T cells. CD4+ T cells isolated from several healthy donors were infected with HIV pseudotypes expressing GFP and cultured under HSP conditions or TCR conditions as control. Cell proliferation, phenotype, and GFP expression were analyzed by flow cytometry. RNA expression was quantified by qRT-PCR. Under HSP culture conditions, latently HIV-1 infected naïve cells are in part maintained in the non-dividing (= resting) state. Although a few HIV-1 provirusC cells were present in these resting GFP negative cells, the estimated level of GFP transcripts per infected cell seems to indicate a block at the post-transcriptional level. Interestingly, neither TCR nor the prototypic HDAC inhibitor SAHA were able to reactivate HIV-1 provirus from these cells. This lack of reactivation was not due to methylation of the HIV LTR. These results point to a mechanism of HIV control in HSP-cultured resting naïve CD4+ T cells that may be distinct from that in TCR-stimulated memory/effector T cells. [ABSTRACT FROM AUTHOR]

Published

2016

27. HTLV-1 Tax disrupts the host epigenome by interacting with a Polycomb group protein EZH2

Author

Naoya Kurokawa, Toshiki Watanabe, Yuetsu Tanaka, Takaomi Ishida, Makoto Yamagishi, Dai Fujikawa, Ai Soejima, and Kazumi Nakano

Subjects

Genetics, biology, EZH2, Epigenome, Cell biology, Histone, Infectious Diseases, Histone methyltransferase, Virology, Poster Presentation, Gene expression, microRNA, biology.protein, Epigenetics, Transcription factor

Abstract

ATL is a highly aggressive T-cell neoplasm caused by HTLV-1. We have recently demonstrated that EZH2, a catalytic enzyme of histone H3K27 methylation, is overexpressed in ATL cells, which contributes to persistent NF-B activation by repressing a tumor-suppressive miRNA, miR-31. This suggests that epigenetic abnormalities are closely associated with the molecular hallmarks of leukemic cells. However, the mechanisms by which epigenetic disruption is caused and sustained in HTLV-1 infected cells remain to be clarified. In the present study, we first found that Tax directly interacts with EZH2 in HTLV-1 infected cells. Given that epigenetic state is directly affected by cell lineage-dependent transcription factors and genetic background, we assessed the functional interconnection between HTLV-1 Tax and the histone methyltransferases in an appropriate model. Using a lentivirus vector, we introduced tax gene into peripheral blood mononuclear cells (PBMCs) and CD4+ T-cells from healthy donors and established Tax-transduced T-cells. In this model, we observed overexpression of EZH2, aberrant accumulation of H3K27 trimethylation, and epigenetic silencing of p21 cip1/waf1 ,a ll of which have been observed in primary ATL cells. In addition, EZH2 inhibition reduced the viability of Tax-transduced T-cells. Our results strongly suggest that Tax epigenetically affects gene expression through its interaction with EZH2, and that Tax-dependent epigenetic abnormalities may be involved in determining the molecular characteristics of HTLV-1-infected cells as well as ATL cells. Since epigenetic marks are potentially reversible, development of genuine epigenetic-targeted drugs will hold great promise in treatment of HTLV-1-related diseases.

28. Molecular hallmarks of adult T cell leukemia: miRNA, epigenetics, and emerging signaling abnormalities

Author

Kazunari Yamaguchi, Ai Soejima, Kazumi Nakano, Kaoru Uchimaru, Naoki Sakai, Shota Nakagawa, Seishi Ogawa, Makoto Yamagishi, Seiichiro Kobayashi, Naoya Kurokawa, Atae Utsunomiya, Ryutaro Takahashi, Toshiki Watanabe, and Dai Fujikawa

Subjects

Genetics, Biology, Cell fate determination, Cell biology, Infectious Diseases, Virology, Cancer cell, microRNA, Oral Presentation, Gene silencing, Epigenetics, Signal transduction, Reprogramming, Hedgehog

Abstract

The molecular hallmarks of ATL comprise outstanding deregulations of signaling pathways that control cell cycle, apoptosis resistance, and proliferation of leukemic cells. Using integrative analyses of primary ATL cells, we discovered unique molecular characteristics of ATL (Yamagishi et al., Cancer Cell, 2012). Genetic and epigenetic disruption leads to numerous gene expression alterations that dominate disorders of homeostasis and characteristics of ATL. In particular, a novel tumor suppressor miR-31 is completely lost in all ATL cases, leading to constitutive NF-kB activation via NIK overexpression. Polycomb family directly involves in the silencing of miR-31, providing a novel interconnection between epigenetic reprogramming and NF-kB pathway. In addition, we recently unveiled molecular mechanisms how Polycomb-dependent epigenetic perturbation is abnormally sustained in HTLV-1 infected and leukemic cells. We discuss the recent discovery of molecular hallmarks of potential generality, an abnormal miRNA pattern and epigenetic reprogramming, which strongly involve the imbalance of the molecular network of lymphocytes. Because epigenetic marks are potentially reversible, development of genuine epigenetic-targeted therapy drugs holds great promise in HTLV-1-related diseases. Furthermore, we also introduce additional signaling pathways affecting leukemic cell fate. Pathway analysis based on our comprehensive dataset and biological studies suggest breaking down of the essential signaling pathways such as Hedgehog and p38 pathways, which support the biological properties of ATL. Because these organized principles may be directly associated with the clinical traits of ATL, targeting the one outstanding hallmark or co-targeting of multiple molecular hallmarks in mechanism-guided combinations will result in more effective and durable therapies for aggressive ATL.

29. HTLV-1 infection promotes excessive T cell activation and transformation into adult T cell leukemia/ lymphoma.

Author

Tan, Benjy J. Y., Kenji Sugata, Omnia Reda, Misaki Matsuo, Kyosuke Uchiyama, Miyazato, Paola, Hahaut, Vincent, Makoto Yamagishi, Kaoru Uchimaru, Yutaka Suzuki, Takamasa Ueno, Hitoshi Suzushima, Hiroo Katsuya, Masahito Tokunaga, Yoshikazu Uchiyama, Hideaki Nakamura, Eisaburo Sueoka, Atae Utsunomiya, Masahiro Ono, and Yorifumi Satou

Subjects

*T cells, *HTLV, *CELL transformation, *SYNTAXINS

Abstract

Human T cell leukemia virus type 1 (HTLV-1) mainly infects CD4+ T cells and induces chronic, persistent infection in infected individuals, with some developing adult T cell leukemia/lymphoma (ATL). HTLV-1 alters cellular differentiation, activation, and survival; however, it is unknown whether and how these changes contribute to the malignant transformation of infected cells. In this study, we used single-cell RNA-sequencing and T cell receptor-sequencing to investigate the differentiation and HTLV-1-mediated transformation of T cells. We analyzed 87,742 PBMCs from 12 infected and 3 uninfected individuals. Using multiple independent bioinformatics methods, we demonstrated the seamless transition of naive T cells into activated T cells, whereby HTLV-1-infected cells in an activated state further transformed into ATL cells, which are characterized as clonally expanded, highly activated T cells. Notably, the greater the activation state of ATL cells, the more they acquire Treg signatures. Intriguingly, the expression of HLA class II genes in HTLV-1-infected cells was uniquely induced by the viral protein Tax and further upregulated in ATL cells. Functional assays revealed that HTLV-1-infected cells upregulated HLA class II molecules and acted as tolerogenic antigen-presenting cells to induce anergy of antigen-specific T cells. In conclusion, our study revealed the in vivo mechanisms of HTLV-1-mediated transformation and immune escape at the single-cell level. [ABSTRACT FROM AUTHOR]

Published

2021

30. Polycomb-dependent epigenetic landscape in adult T-cell leukemia.

Author

Dai Fujikawa, Shota Nakagawa, Makoto Hori, Naoya Kurokawa, Ai Soejima, Kazumi Nakano, Tadanori Yamochi, Makoto Nakashima, Seiichiro Kobayashi, Yuetsu Tanaka, Masako Iwanaga, Atae Utsunomiya, Kaoru Uchimaru, Makoto Yamagishi, and Toshiki Watanabe

Subjects

*PRELEUKEMIA, *HEMATOLOGIC malignancies, *T cells, *LEUKEMIA, *LEUCOCYTOSIS

Abstract

Adult T-cell leuκemia-lymphoma (ATL) shows global gene expression alterations that confer cellular characteristics and unfavorable prognosis. However, molecular mechanisms of the sustained expression changes are largely unκnown, because there is no study addressing the relationship between landscapes of the gene expression and epigenetic modifications.Here, we analyzedATL epigenomeand integrated itwith transcriptome from primary ATL cells and those from corresponding normal CD41+ cells to decipher ATL-specific "epigenetic code" that was critical for cell identity. We found that polycombrepressive complex 2 (PRC2)-mediated trimethylation at histone H3Lys27 (H3K27me3) was significantly and frequently reprogrammed at half of genes in ATL cells. A large proportion of the abnormal gene downregulation was detected at the early stage of disease progression and was explained by H3K27me3 accumulation. The global H3K27me3 alterations involved ATL-specific gene expression changes that included several tumor suppressors, transcription factors, epigenetic modifiers, miRNAs, and developmental genes, suggesting diverse outcomes by the PRC2-dependent hierarchical regulation. Interestingly, a κey enzyme, EZH2, was sensitive to promiscuous signaling networκ including the NF-κB pathway and was functionally affected by human T-cell leuκemia virus type I (HTLV-1) Tax. The Tax-dependent immortalized cells showed H3K27me3 reprogramming that was significantly similar to that of ATL cells. Of note, a majority of the epigenetic silencing has occurred in leuκemic cells from indolent ATL and also in HTLV- 1-infected T cells from asymptomatic HTLV-1 carriers. Because pharmacologic inhibition of EZH2 reversed epigenetic disruption and selectively eliminated leuκemic and HTLV-1-infected cells, targeting the epigenetic elements will hold great promise in treatment and prevention of the onset of ATL and HTLV-1-related diseases. (Blood. 2016;127(14):1790-1802) [ABSTRACT FROM AUTHOR]

Published

2016