研究者業績

小野寺 淳

Atsushi Onodera

基本情報

所属
千葉大学 国際高等研究基幹 大学院医学研究院 災害治療学研究所 災害情報解析研究部門 教授
(兼任)ヒト免疫疾患治療研究・開発センター (副センター長)
学位
博士(医学)(2010年3月 千葉大学)

研究者番号
10586598
J-GLOBAL ID
201801014532338351
researchmap会員ID
B000304669

外部リンク

ヒストン修飾酵素であるポリコーム群(PcG)およびトライソラックス群(TrxG)複合体、DNAシトシンメチル基酸化酵素TETの機能解析を中心としたT細胞のepigenetic研究に行っています。免疫学は、基礎的な分子生物学と臨床医学を繋ぐ接点となる非常に大切かつ魅力的な研究分野であることから、この領域の研究者になりました。

工学部で学んだ化学とプログラミングの知識と、医学部で学んだ基礎医学と臨床医学の知識をもとに、物質科学の観点から生命現象を解き明かすべく研究に取り組んでいます。言い換えると、複雑な生命現象をよりシンプルな物質科学の法則で説明することを目標としています。医学部卒業後にすぐに大学院に進学したため臨床経験はありませんが、基礎研究を通じて医学の発展に貢献したいと志して研究活動を続けております。

米国国立衛生研究所(NIH)との国際共同研究によりbioinformaticsに関するプログラミングを学ぶなど、次世代シークエンサーによる解析に初期から取り組み、既存の解析ソフトのみならず自作の解析ツールを開発して研究に用いています。

2016年に千葉大学国際粘膜免疫・アレルギー治療学研究センターが米国サンディエゴのUCSD内に設置されたことを機に、UCSDおよび近隣の研究所(La Jolla Institute for Immunology: LJI)との国際共同研究を開始しました。化学反応を利用したメチル化DNAの新規検出方法を応用して、生命科学の未解決問題に挑み、未知の生命現象の発見に繋げたいと考えております。

2023年7月より、災害治療学研究所に着任しました。(1)今までに取り組んできた免疫のepigenetic研究とbioinformaticsツール開発をさらに発展させること、(2)災害発生後の慢性期に視点をおいた生活習慣病、感染症の対策に繋がる基礎研究をすること、(3)災害対策の観点から様々な研究者と異分野融合の研究を行い、新たなフィールドを開拓すること、を目標に活動しております。


学歴

 3

論文

 48
  • Edahi Gonzalez-Avalos, Atsushi Onodera, Daniela Samaniego-Castruita, Anjana Rao, Ferhat Ay
    Genome biology 25(1) 142-142 2024年6月3日  査読有り
    BACKGROUND: Like its parent base 5-methylcytosine (5mC), 5-hydroxymethylcytosine (5hmC) is a direct epigenetic modification of cytosines in the context of CpG dinucleotides. 5hmC is the most abundant oxidized form of 5mC, generated through the action of TET dioxygenases at gene bodies of actively-transcribed genes and at active or lineage-specific enhancers. Although such enrichments are reported for 5hmC, to date, predictive models of gene expression state or putative regulatory regions for genes using 5hmC have not been developed. RESULTS: Here, by using only 5hmC enrichment in genic regions and their vicinity, we develop neural network models that predict gene expression state across 49 cell types. We show that our deep neural network models distinguish high vs low expression state utilizing only 5hmC levels and these predictive models generalize to unseen cell types. Further, in order to leverage 5hmC signal in distal enhancers for expression prediction, we employ an Activity-by-Contact model and also develop a graph convolutional neural network model with both utilizing Hi-C data and 5hmC enrichment to prioritize enhancer-promoter links. These approaches identify known and novel putative enhancers for key genes in multiple immune cell subsets. CONCLUSIONS: Our work highlights the importance of 5hmC in gene regulation through proximal and distal mechanisms and provides a framework to link it to genome function. With the recent advances in 6-letter DNA sequencing by short and long-read techniques, profiling of 5mC and 5hmC may be done routinely in the near future, hence, providing a broad range of applications for the methods developed here.
  • Ami Aoki, Chiaki Iwamura, Masahiro Kiuchi, Kaori Tsuji, Atsushi Sasaki, Takahisa Hishiya, Rui Hirasawa, Kota Kokubo, Sachiko Kuriyama, Atsushi Onodera, Tadanaga Shimada, Tetsutaro Nagaoka, Satoru Ishikawa, Akira Kojima, Haruki Mito, Ryota Hase, Yasunori Kasahara, Naohide Kuriyama, Sukeyuki Nakamura, Takashi Urushibara, Satoru Kaneda, Seiichiro Sakao, Osamu Nishida, Kazuhisa Takahashi, Motoko Y. Kimura, Shinichiro Motohashi, Hidetoshi Igari, Yuzuru Ikehara, Hiroshi Nakajima, Takuji Suzuki, Hideki Hanaoka, Taka-aki Nakada, Toshiaki Kikuchi, Toshinori Nakayama, Koutaro Yokote, Kiyoshi Hirahara
    Journal of Clinical Immunology 44(4) 2024年4月22日  査読有り
    Abstract Purpose Auto-antibodies (auto-abs) to type I interferons (IFNs) have been identified in patients with life-threatening coronavirus disease 2019 (COVID-19), suggesting that the presence of auto-abs may be a risk factor for disease severity. We therefore investigated the mechanism underlying COVID-19 exacerbation induced by auto-abs to type I IFNs. Methods We evaluated plasma from 123 patients with COVID-19 to measure auto-abs to type I IFNs. We performed single-cell RNA sequencing (scRNA-seq) of peripheral blood mononuclear cells from the patients with auto-abs and conducted epitope mapping of the auto-abs. Results Three of 19 severe and 4 of 42 critical COVID-19 patients had neutralizing auto-abs to type I IFNs. Patients with auto-abs to type I IFNs showed no characteristic clinical features. scRNA-seq from 38 patients with COVID-19 revealed that IFN signaling in conventional dendritic cells and canonical monocytes was attenuated, and SARS-CoV-2-specific BCR repertoires were decreased in patients with auto-abs. Furthermore, auto-abs to IFN-α2 from COVID-19 patients with auto-abs recognized characteristic epitopes of IFN-α2, which binds to the receptor. Conclusion Auto-abs to type I IFN found in COVID-19 patients inhibited IFN signaling in dendritic cells and monocytes by blocking the binding of type I IFN to its receptor. The failure to properly induce production of an antibody to SARS-CoV-2 may be a causative factor of COVID-19 severity.
  • Mariko Takami, Takahiro Aoki, Katsuhiro Nishimura, Hidekazu Tanaka, Atsushi Onodera, Shinichiro Motohashi
    Cancer research communications 4(2) 446-459 2024年2月19日  査読有り
    UNLABELLED: Invariant natural killer T (iNKT) cells play an essential role in antitumor immunity by exerting cytotoxicity and producing massive amounts of cytokines. iNKT cells express invariant T-cell receptors (TCR) to recognize their cognate glycolipid antigens such as α-galactosylceramide (α-GalCer) presented on CD1d. We recently reported that iNKT cells recognize CD1d-negative leukemia cell line K562 in a TCR-dependent manner. However, it remains controversial how iNKT cells use TCRs to recognize and exhibit cytotoxic activity toward CD1d-negative tumors cells without CD1d restriction. Here, we report that iNKT cells exerted cytotoxicity toward K562 cells via a carried over anti-Vα24 TCR mAb from positive selection by magnetic bead sorting. We found that addition of the anti-Vα24Jα18 TCR mAb (6B11 mAb) rendered iNKT cells cytotoxic to K562 cells in an FcγRII (CD32)-dependent manner. Moreover, iNKT cells treated with 6B11 mAb became cytotoxic to other CD32+ cell lines (U937 and Daudi). In addition, iNKT cells treated with 6B11 mAb suppressed K562 cell growth in a murine xenograft model in vivo. These data suggest that anti-iNKT TCR mAb treatment of iNKT cells can be applied as a therapeutic strategy to treat CD32+ cancers such as leukemia, lymphoma, and lung cancer. SIGNIFICANCE: Our findings unveiled that iNKT cells recognize and kill CD1d-negative target tumors via the anti-iNKT TCR mAb bound to CD32 at the tumor site, thereby bridging iNKT cells and CD1d-negative tumors. These findings shed light on the therapeutic potential of anti-iNKT TCR mAbs in NKT cell-based immunotherapy to treat CD1d-negative CD32+ cancers.
  • Atsushi Onodera, Kota Kokubo, Mikiko Okano, Miki Onoue, Masahiro Kiuchi, Chiaki Iwamura, Tomohisa Iinuma, Motoko Y. Kimura, Nobuyuki Ebihara, Toyoyuki Hanazawa, Toshinori Nakayama, Kiyoshi Hirahara
    Pharmacology & Therapeutics 247 108445-108445 2023年7月  査読有り筆頭著者
  • Ryo Koyama-Nasu, Motoko Y Kimura, Masahiro Kiuchi, Ami Aoki, Yangsong Wang, Yukiyoshi Mita, Ichita Hasegawa, Yukihiro Endo, Atsushi Onodera, Kiyoshi Hirahara, Shinichiro Motohashi, Toshinori Nakayama
    Cancer immunology research 2023年5月22日  査読有り
    Tumor-specific CD8+ T cells play a pivotal role in anti-tumor immunity and are a key target of immunotherapeutic approaches. Intratumoral CD8+ T cells are heterogeneous; Tcf1+ stem-like CD8+ T cells give rise to their cytotoxic progeny - Tim-3+ terminally differentiated CD8+ T cells. However, where and how this differentiation process occurs has not been elucidated. We herein show that terminally differentiated CD8+ T cells can be generated within tumor-draining lymph nodes (TDLNs) and that CD69 expression on tumor-specific CD8+ T cells controls its differentiation process through regulating the expression of the transcription factor TOX. In TDLNs, CD69 deficiency diminished TOX expression in tumor-specific CD8+ T cells, and consequently promoted generation of functional terminally differentiated CD8+ T cells. Anti-CD69 administration promoted the generation of terminally differentiated CD8+ T cells, and the combined use of anti-CD69 and anti-PD-1 showed an efficient anti-tumor effect. Thus, CD69 is an attractive target for cancer immunotherapy that synergizes with immune checkpoint blockade.
  • Hiroshi Yuita, Isaac F López-Moyado, Hyeongmin Jeong, Arthur Xiuyuan Cheng, James Scott-Browne, Jungeun An, Toshinori Nakayama, Atsushi Onodera, Myunggon Ko, Anjana Rao
    Proceedings of the National Academy of Sciences of the United States of America 120(6) e2214824120 2023年2月7日  査読有り責任著者
    The three mammalian TET dioxygenases oxidize the methyl group of 5-methylcytosine in DNA, and the oxidized methylcytosines are essential intermediates in all known pathways of DNA demethylation. To define the in vivo consequences of complete TET deficiency, we inducibly deleted all three Tet genes in the mouse genome. Tet1/2/3-inducible TKO (iTKO) mice succumbed to acute myeloid leukemia (AML) by 4 to 5 wk. Single-cell RNA sequencing of Tet iTKO bone marrow cells revealed the appearance of new myeloid cell populations characterized by a striking increase in expression of all members of the stefin/cystatin gene cluster on mouse chromosome 16. In patients with AML, high stefin/cystatin gene expression correlates with poor clinical outcomes. Increased expression of the clustered stefin/cystatin genes was associated with a heterochromatin-to-euchromatin compartment switch with readthrough transcription downstream of the clustered stefin/cystatin genes as well as other highly expressed genes, but only minor changes in DNA methylation. Our data highlight roles for TET enzymes that are distinct from their established function in DNA demethylation and instead involve increased transcriptional readthrough and changes in three-dimensional genome organization.
  • Kota Kokubo, Kiyoshi Hirahara, Masahiro Kiuchi, Kaori Tsuji, Yuki Shimada, Yuri Sonobe, Rie Shinmi, Takahisa Hishiya, Chiaki Iwamura, Atsushi Onodera, Toshinori Nakayama
    Proceedings of the National Academy of Sciences of the United States of America 120(2) e2218345120 2023年1月10日  査読有り
    CD4+ memory T cells are central to long-lasting protective immunity and are involved in shaping the pathophysiology of chronic inflammation. While metabolic reprogramming is critical for the generation of memory T cells, the mechanisms controlling the redox metabolism in memory T cell formation remain unclear. We found that reactive oxygen species (ROS) metabolism changed dramatically in T helper-2 (Th2) cells during the contraction phase in the process of memory T cell formation. Thioredoxin-interacting protein (Txnip), a regulator of oxidoreductase, regulated apoptosis by scavenging ROS via the nuclear factor erythroid 2-related factor 2 (Nrf2)-biliverdin reductase B (Blvrb) pathway. Txnip regulated the pathology of chronic airway inflammation in the lung by controlling the generation of allergen-specific pathogenic memory Th2 cells in vivo. Thus, the Txnip-Nrf2-Blvrb axis directs ROS metabolic reprogramming in Th2 cells and is a potential therapeutic target for intractable chronic inflammatory diseases.
  • Kaori Tsuji, Ami Aoki, Atsushi Onodera, Masahiro Kiuchi, Kota Kokubo, Yuki Morimoto, Tomohisa Iinuma, Toyoyuki Hanazawa, Toshinori Nakayama, Kiyoshi Hirahara
    Allergology International in press(2) 335-338 2022年12月  査読有り
  • Masanori Fujimoto, Masataka Yokoyama, Masahiro Kiuchi, Hiroyuki Hosokawa, Akitoshi Nakayama, Naoko Hashimoto, Ikki Sakuma, Hidekazu Nagano, Kazuyuki Yamagata, Fujimi Kudo, Ichiro Manabe, Eunyoung Lee, Ryo Hatano, Atsushi Onodera, Kiyoshi Hirahara, Koutaro Yokote, Takashi Miki, Toshinori Nakayama, Tomoaki Tanaka
    Nature communications 13(1) 5408-5408 2022年9月15日  査読有り
    The liver stores glycogen and releases glucose into the blood upon increased energy demand. Group 2 innate lymphoid cells (ILC2) in adipose and pancreatic tissues are known for their involvement in glucose homeostasis, but the metabolic contribution of liver ILC2s has not been studied in detail. Here we show that liver ILC2s are directly involved in the regulation of blood glucose levels. Mechanistically, interleukin (IL)-33 treatment induces IL-13 production in liver ILC2s, while directly suppressing gluconeogenesis in a specific Hnf4a/G6pc-high primary hepatocyte cluster via Stat3. These hepatocytes significantly interact with liver ILC2s via IL-13/IL-13 receptor signaling. The results of transcriptional complex analysis and GATA3-ChIP-seq, ATAC-seq, and scRNA-seq trajectory analyses establish a positive regulatory role for the transcription factor GATA3 in IL-13 production by liver ILC2s, while AP-1 family members are shown to suppress IL-13 release. Thus, we identify a regulatory role and molecular mechanism by which liver ILC2s contribute to glucose homeostasis.
  • Kota Kokubo, Atsushi Onodera, Masahiro Kiuchi, Kaori Tsuji, Kiyoshi Hirahara, Toshinori Nakayama
    Frontiers in Immunology 13 2022年8月9日  査読有り
    Type 2 helper T (Th2) cells, a subset of CD4+ T cells, play an important role in the host defense against pathogens and allergens by producing Th2 cytokines, such as interleukin-4 (IL-4), IL-5, and IL-13, to trigger inflammatory responses. Emerging evidence reveals that Th2 cells also contribute to the repair of injured tissues after inflammatory reactions. However, when the tissue repair process becomes chronic, excessive, or uncontrolled, pathological fibrosis is induced, leading to organ failure and death. Thus, proper control of Th2 cells is needed for complete tissue repair without the induction of fibrosis. Recently, the existence of pathogenic Th2 (Tpath2) cells has been revealed. Tpath2 cells produce large amounts of Th2 cytokines and induce type 2 inflammation when activated by antigen exposure or tissue injury. In recent studies, Tpath2 cells are suggested to play a central role in the induction of type 2 inflammation whereas the role of Tpath2 cells in tissue repair and fibrosis has been less reported in comparison to conventional Th2 cells. In this review, we discuss the roles of conventional Th2 cells and pathogenic Th2 cells in the sequence of tissue inflammation, repair, and fibrosis.
  • Atsushi Onodera, Masahiro Kiuchi, Kota Kokubo, Toshinori Nakayama
    Immunological Reviews 305(1) 137-151 2021年12月21日  査読有り筆頭著者責任著者
  • Toshinori Nakayama, Kiyoshi Hirahara, Motoko Y Kimura, Chiaki Iwamura, Masahiro Kiuchi, Kota Kokubo, Atsushi Onodera, Kahoko Hashimoto, Shinichiro Motohashi
    International Immunology 33(12) 699-704 2021年11月25日  査読有り
    <title>Abstract</title> CD4+ T cells not only direct immune responses against infectious micro-organisms but are also involved in the pathogenesis of inflammatory diseases. In the last two to three decades, various researchers have identified and characterized several functional CD4+ T-cell subsets, including T-helper 1 (Th1), Th2, Th9 and Th17 cells and regulatory T (Treg) cells. In this mini-review, we introduce the concept of pathogenic Th cells that induce inflammatory diseases with a model of disease induction by a population of pathogenic Th cells: the ‘pathogenic Th population disease-induction model’. We will focus on Th2 cells that induce allergic airway inflammation—pathogenic Th2 cells (Tpath2 cells)—and discuss the nature of Tpath2 cells that shape the pathology of chronic inflammatory diseases. Various Tpath2-cell subsets have been identified and their unique features are summarized in mouse and human systems. Second, we will discuss how Th cells migrate and are maintained in chronic inflammatory lesions. We propose a model known as the ‘CD69–Myl9 system’. CD69 is a cell surface molecule expressed on activated T cells and interaction with its ligand myosin light chain 9 (Myl9) is required for the induction of inflammatory diseases. Myl9 molecules in the small vessels of inflamed lungs may play a crucial role in the migration of activated T cells into inflammatory lesions. Emerging evidence may provide new insight into the pathogenesis of chronic inflammatory diseases and contribute to the development of new therapeutic strategies for intractable inflammatory disorders.
  • Atsushi Onodera, Edahí González-Avalos, Chan-Wang Jerry Lio, Romain O. Georges, Alfonso Bellacosa, Toshinori Nakayama, Anjana Rao
    Genome Biology 22(1) 2021年6月  査読有り筆頭著者
    <title>Abstract</title><sec> <title>Background</title> TET enzymes mediate DNA demethylation by oxidizing 5-methylcytosine (5mC) in DNA to 5-hydroxymethylcytosine (5hmC), 5-formylcytosine (5fC), and 5-carboxylcytosine (5caC). Since these oxidized methylcytosines (oxi-mCs) are not recognized by the maintenance methyltransferase DNMT1, DNA demethylation can occur through “passive,” replication-dependent dilution when cells divide. A distinct, replication-independent (“active”) mechanism of DNA demethylation involves excision of 5fC and 5caC by the DNA repair enzyme thymine DNA glycosylase (TDG), followed by base excision repair. </sec><sec> <title>Results</title> Here by analyzing inducible gene-disrupted mice, we show that DNA demethylation during primary T cell differentiation occurs mainly through passive replication-dependent dilution of all three oxi-mCs, with only a negligible contribution from TDG. In addition, by pyridine borane sequencing (PB-seq), a simple recently developed method that directly maps 5fC/5caC at single-base resolution, we detect the accumulation of 5fC/5caC in TDG-deleted T cells. We also quantify the occurrence of concordant demethylation within and near enhancer regions in the <italic>Il4</italic> locus. In an independent system that does not involve cell division, macrophages treated with liposaccharide accumulate 5hmC at enhancers and show altered gene expression without DNA demethylation; loss of TET enzymes disrupts gene expression, but loss of TDG has no effect. We also observe that mice with long-term (1 year) deletion of <italic>Tdg</italic> are healthy and show normal survival and hematopoiesis. </sec><sec> <title>Conclusions</title> We have quantified the relative contributions of TET and TDG to cell differentiation and DNA demethylation at representative loci in proliferating T cells. We find that TET enzymes regulate T cell differentiation and DNA demethylation primarily through passive dilution of oxi-mCs. In contrast, while we observe a low level of active, replication-independent DNA demethylation mediated by TDG, this process does not appear to be essential for immune cell activation or differentiation. </sec>
  • Masahiro Kiuchi, Atsushi Onodera, Kota Kokubo, Tomomi Ichikawa, Yuki Morimoto, Eiryo Kawakami, Naoya Takayama, Koji Eto, Haruhiko Koseki, Kiyoshi Hirahara, Toshinori Nakayama
    Journal of Experimental Medicine 218(4) 2021年4月5日  査読有り
    Different dynamics of gene expression are observed during cell differentiation. In T cells, genes that are turned on early or turned off and stay off have been thoroughly studied. However, genes that are initially turned off but then turned on again after stimulation has ceased have not been defined; they are obviously important, especially in the context of acute versus chronic inflammation. Using the Th1/Th2 differentiation paradigm, we found that the Cxxc1 subunit of the Trithorax complex directs transcription of genes initially down-regulated by TCR stimulation but up-regulated again in a later phase. The late up-regulation of these genes was impaired either by prolonged TCR stimulation or Cxxc1 deficiency, which led to decreased expression of Trib3 and Klf2 in Th1 and Th2 cells, respectively. Loss of Cxxc1 resulted in enhanced pathogenicity in allergic airway inflammation in vivo. Thus, Cxxc1 plays essential roles in the establishment of a proper CD4+ T cell immune system via epigenetic control of a specific set of genes.
  • Akane S. Suzuki, Ryoji Yagi, Motoko Y. Kimura, Chiaki Iwamura, Kenta Shinoda, Atsushi Onodera, Kiyoshi Hirahara, Damon J. Tumes, Ryo Koyama-Nasu, Siiri E. Iismaa, Robert M. Graham, Shinichiro Motohashi, Toshinori Nakayama
    Frontiers in Immunology 11 1536-1536 2020年7月21日  査読有り
  • Tomomi Ichikawa, Kiyoshi Hirahara, Kota Kokubo, Masahiro Kiuchi, Ami Aoki, Yuki Morimoto, Jin Kumagai, Atsushi Onodera, Naoko Mato, Damon J Tumes, Yoshiyuki Goto, Koichi Hagiwara, Yutaka Inagaki, Tim Sparwasser, Kazuyuki Tobe, Toshinori Nakayama
    Nature immunology 20(11) 1469-1480 2019年11月  査読有り
    Tissue-resident memory T cells (TRM cells) are crucial mediators of adaptive immunity in nonlymphoid tissues. However, the functional heterogeneity and pathogenic roles of CD4+ TRM cells that reside within chronic inflammatory lesions remain unknown. We found that CD69hiCD103lo CD4+ TRM cells produced effector cytokines and promoted the inflammation and fibrotic responses induced by chronic exposure to Aspergillus fumigatus. Simultaneously, immunosuppressive CD69hiCD103hiFoxp3+ CD4+ regulatory T cells were induced and constrained the ability of pathogenic CD103lo TRM cells to cause fibrosis. Thus, lung tissue-resident CD4+ T cells play crucial roles in the pathology of chronic lung inflammation, and CD103 expression defines pathogenic effector and immunosuppressive tissue-resident cell subpopulations in the inflamed lung.
  • Damon Tumes, Kiyoshi Hirahara, Magdalene Papadopoulos, Kenta Shinoda, Atsushi Onodera, Jin Kumagai, Kwok Ho Yip, Harshita Pant, Kota Kokubo, Masahiro Kiuchi, Ami Aoki, Kazushige Obata-Ninomiya, Koji Tokoyoda, Yusuke Endo, Motoko Y. Kimura, Toshinori Nakayama
    Journal of Allergy and Clinical Immunology 144(2) 549-560.e10 2019年8月  査読有り
  • Hyungseok Seo, Joyce Chen, Edahí González-Avalos, Daniela Samaniego-Castruita, Arundhoti Das, Yueqiang H. Wang, Isaac F. López-Moyado, Romain O. Georges, Wade Zhang, Atsushi Onodera, Cheng-Jang Wu, Li-Fan Lu, Patrick G. Hogan, Avinash Bhandoola, Anjana Rao
    Proceedings of the National Academy of Sciences 116(25) 12410-12415 2019年6月18日  査読有り
    T cells expressing chimeric antigen receptors (CAR T cells) have shown impressive therapeutic efficacy against leukemias and lymphomas. However, they have not been as effective against solid tumors because they become hyporesponsive (“exhausted” or “dysfunctional”) within the tumor microenvironment, with decreased cytokine production and increased expression of several inhibitory surface receptors. Here we define a transcriptional network that mediates CD8+ T cell exhaustion. We show that the high-mobility group (HMG)-box transcription factors TOX and TOX2, as well as members of the NR4A family of nuclear receptors, are targets of the calcium/calcineurin-regulated transcription factor NFAT, even in the absence of its partner AP-1 (FOS-JUN). Using a previously established CAR T cell model, we show that TOX and TOX2 are highly induced in CD8+ CAR+ PD-1high TIM3high (“exhausted”) tumor-infiltrating lymphocytes (CAR TILs), and CAR TILs deficient in both TOX and TOX2 (<italic>Tox</italic> DKO) are more effective than wild-type (WT), TOX-deficient, or TOX2-deficient CAR TILs in suppressing tumor growth and prolonging survival of tumor-bearing mice. Like NR4A-deficient CAR TILs, <italic>Tox</italic> DKO CAR TILs show increased cytokine expression, decreased expression of inhibitory receptors, and increased accessibility of regions enriched for motifs that bind activation-associated nuclear factor κB (NFκB) and basic region-leucine zipper (bZIP) transcription factors. These data indicate that <italic>Tox</italic> and <italic>Nr4a</italic> transcription factors are critical for the transcriptional program of CD8+ T cell exhaustion downstream of NFAT. We provide evidence for positive regulation of NR4A by TOX and of TOX by NR4A, and suggest that disruption of TOX and NR4A expression or activity could be promising strategies for cancer immunotherapy.
  • Endo, Y, Onodera, A, Obata-Ninomiya, K, Koyama-Nasu, R, Asou, H. K, Ito, T, Yamamoto, T, Kanno, T, Nakajima, T, Ishiwata, K, Kanuka, H, Tumes, D. J, Nakayama, T
    Nat. Metab. 1(-) 261-275 2019年  査読有り
  • Onodera, A, Kokubo, K, Nakayama, T
    Front. Immunol. 9(-) 2929-2929 2018年12月  査読有り筆頭著者
  • Tanaka, K, Kanesaka, Y, Takami, M, Suzuki, A, Hosokawa, H, Onodera, A, Kamata, T, Nagato, K, Nakayama, T, Yoshino, I, Motohashi, S
    Biochem. Biophys. Res.Commun. 506(-) 27-32 2018年11月  査読有り
  • Obata-Ninomiya, K, Ishiwata, K, Nakano, H, Endo, Y, Ichikawa, T, Onodera, A, Hirahara, K, Okamoto, Y, Kanuka, H, Nakayama, T
    Proc. Natl. Acad. Sci. USA 115(-) E9849-E9858 2018年10月  査読有り
  • Yamamoto, T, Endo, Y, Onodera, A, Hirahara, K, Asou, H. K, Nakajima, T, Kanno, T, Ouchi, Y, Uematsu, S, Nishimasu, H, Nureki, O, Tumes, D. J, Shimojo, N, Nakayama, T
    Nat. Commun. 9(-) 4231-4231 2018年10月  査読有り
  • Onodera, A, Kokubo, K, Nakayama, T
    Gene Expression and Regulation in Mammalian Cells - Transcription from General Aspects Edited by Fumiaki Uchiumi -(-) 191-211 2018年2月  査読有り
  • Yuki Morimoto, Kiyoshi Hirahara, Masahiro Kiuchi, Tomoko Wada, Tomomi Ichikawa, Toshio Kanno, Mikiko Okano, Kota Kokubo, Atsushi Onodera, Daiju Sakurai, Yoshitaka Okamoto, Toshinori Nakayama
    Immunity 49(1) 134-150.e6 2018年  査読有り
    Memory T cells provide long-lasting protective immunity, and distinct subpopulations of memory T cells drive chronic inflammatory diseases such as asthma. Asthma is a chronic allergic inflammatory disease with airway remodeling including fibrotic changes. The immunological mechanisms that induce airway fibrotic changes remain unknown. We found that interleukin-33 (IL-33) enhanced amphiregulin production by the IL-33 receptor, ST2hi memory T helper 2 (Th2) cells. Amphiregulin-epidermal growth factor receptor (EGFR)-mediated signaling directly reprogramed eosinophils to an inflammatory state with enhanced production of osteopontin, a key profibrotic immunomodulatory protein. IL-5-producing memory Th2 cells and amphiregulin-producing memory Th2 cells appeared to cooperate to establish lung fibrosis. The analysis of polyps from patients with eosinophilic chronic rhinosinusitis revealed fibrosis with accumulation of amphiregulin-producing CRTH2hiCD161hiCD45RO+CD4+ Th2 cells and osteopontin-producing eosinophils. Thus, the IL-33-amphiregulin-osteopontin axis directs fibrotic responses in eosinophilic airway inflammation and is a potential target for the treatment of fibrosis induced by chronic allergic disorders. Asthma is a chronic allergic inflammatory disease with airway remodeling including fibrotic changes. Morimoto and colleagues find that the IL-33-ST2-amphiregulin-EGRF-osteopontin axis directs fibrotic responses in chronic allergic inflammation with the involvement of airway epithelial cells, pathogenic memory Th2 cells, and inflammatory eosinophils in both mouse and human.
  • Atsushi Onodera, Masahiro Kiuchi, Kota Kokubo, Miki Kato, Tomohiro Ogino, Shu Horiuchi, Urara Kanai, Kiyoshi Hirahara, Toshinori Nakayama
    JOURNAL OF IMMUNOLOGY 199(3) 1153-1162 2017年8月  査読有り筆頭著者
    Posttranslational modifications of histones are well-established epigenetic modifications that play an important role in gene expression and regulation. These modifications are partly mediated by the Trithorax group (TrxG) complex, which regulates the induction or maintenance of gene transcription. We investigated the role of Menin, a component of the TrxG complex, in the acquisition and maintenance of Th2 cell identity using T cell-specific Menin-deficient mice. Our gene expression analysis revealed that Menin was involved in the maintenance of the high expression of the previously identified Th2-specific genes rather than the induction of these genes. This result suggests that Menin plays a role in the maintenance of Th2 cell identity. Menin directly bound to the Gata3 gene locus, and this Menin-Gata3 axis appeared to form a core unit of the Th2-specific gene regulatory network. Consistent with the phenotype of Menin-deficient Th2 cells observed in vitro, Menin deficiency resulted in the attenuation of effector Th2 cell-induced airway inflammation. In addition, in memory Th2 (mTh2) cells, Menin was found to play an important role in the maintenance of the expression of Th2-specific genes, including Gata3, Il4, and Il13. Consequently, Menin-deficient mTh2 cells showed an impaired ability to recruit eosinophils to the lung, resulting in the attenuation of mTh2 cell-induced airway inflammation. This study confirmed the critical role of Menin in Th2 cell-mediated immune responses.
  • Damon J. Tumes, Magdalene Papadopoulos, Yusuke Endo, Atsushi Onodera, Kiyoshi Hirahara, Toshinori Nakayama
    IMMUNOLOGICAL REVIEWS 278(1) 8-19 2017年7月  査読有り
    An estimated 300 million people currently suffer from asthma, which causes approximately 250 000 deaths a year. Allergen-specific T-helper (Th) cells produce cytokines that induce many of the hallmark features of asthma including airways hyperreactivity, eosinophilic and neutrophilic inflammation, mucus hypersecretion, and airway remodeling. Cytokine-producing Th subsets including Th1 (IFN-gamma), Th2 (IL-4, IL-5, IL-13), Th9 (IL-9), Th17 (IL-17), Th22 (IL-22), and T regulatory (IL-10) cells have all been suggested to play a role in the development of asthma. Th differentiation involves genetic regulation of gene expression through the concerted action of cytokines, transcription factors, and epigenetic regulators. We describe how Th differentiation and plasticity is regulated by epigenetic histone and DNA modifications, with a focus on the regulation of histone methylation by members of the polycomb and trithorax complexes. In addition, we outline environmental influences that could influence epigenetic regulation of Th cells and discuss the potential to regulate Th plasticity and function through drugs targeting the epigenetic machinery. It is also becoming apparent that epigenetic regulation of allergen-specific memory Th cells may be important in the development and persistence of chronic allergies. Finally, we describe how epigenetic modifiers regulate cytokine memory in Th cells and describe recently identified hybrid, plastic, and pathogenic memory Th subsets the context of allergic asthma.
  • Shigeru Iwata, Yohei Mikami, Hong-Wei Sun, Stephen R. Brooks, Dragana Jankovic, Kiyoshi Hirahara, Atsushi Onodera, Han-Yu Shih, Takeshi Kawabe, Kan Jiang, Toshinori Nakayama, Alan Sher, John J. O'Shea, Fred P. Davis, Yuka Kanno
    IMMUNITY 46(6) 983-+ 2017年6月  査読有り
    Host defense requires the specification of CD4(+) helper T (Th) cells into distinct fates, including Th1 cells that preferentially produce interferon-gamma (IFN-gamma). IFN-gamma, a member of a large family of antipathogenic and anti-tumor IFNs, induces T-bet, a lineage-defining transcription factor for Th1 cells, which in turn supports IFN-gamma production in a feed-forward manner. Herein, we show that a cellintrinsic role of T-bet influences how T cells perceive their secreted product in the environment. In the absence of T-bet, IFN-gamma aberrantly induced a type I IFN transcriptomic program. T-bet preferentially repressed genes and pathways ordinarily activated by type I IFNs to ensure that its transcriptional response did not evoke an aberrant amplification of type I IFN signaling circuitry, otherwise triggered by its own product. Thus, in addition to promoting Th1 effector commitment, T-bet acts as a repressor in differentiated Th1 cells to prevent abberant autocrine type I IFN and downstream signaling.
  • Toshinori Nakayama, Kiyoshi Hirahara, Atsushi Onodera, Yusuke Endo, Hiroyuki Hosokawa, Kenta Shinoda, Damon J. Tumes, Yoshitaka Okamoto
    ANNUAL REVIEW OF IMMUNOLOGY, VOL 35 35 53-84 2017年  査読有り
    Helper T (Th) cell subsets direct immune responses by producing signature cytokines. Th2 cells produce IL-4, IL-5, and IL-13, which are important in humoral immunity and protection from helminth infection and are central to the pathogenesis of many allergic inflammatory diseases. Molecular analysis of Th2 cell differentiation and maintenance of function has led to recent discoveries that have refined our understanding of Th2 cell biology. Epigenetic regulation of Gata3 expression by chromatin remodeling complexes such as Polycomb and Trithorax is crucial for maintaining Th2 cell identity. In the context of allergic diseases, memory-type pathogenic Th2 cells have been identified in both mice and humans. To better understand these disease-driving cell populations, we have developed a model called the pathogenic Th population disease induction model. The concept of defined subsets of pathogenic Th cells may spur new, effective strategies for treating intractable chronic inflammatory disorders.
  • Toshihiro Ito, Kiyoshi Hirahara, Atsushi Onodera, Ryo Koyama-Nasu, Ikuya Yano, Toshinori Nakayama
    International Immunology 29(9) 411-421 2017年  査読有り
    Mycobacterium bovis Bacille Calmette-Guérin (BCG) has been shown to possess potent anti-tumor activity particularly in various animal models, while the cellular and molecular mechanisms underlying its activity are not well understood. We found that lipomannan (BCG-LM), a lipophilic component of the mycobacterial cell envelope, specifically inhibits tumor growth and induces the infiltration of eosinophils at local tumor invasion sites. In contrast, neither lipoarabinomannan (BCG-LAM) nor the cell wall of Mycobacterium bovis BCG (BCG-CW) exerted anti-tumor immunity. BCG-LM enhances cytotoxic activity of eosinophils via the increased production of superoxide. Global transcriptomic analyses of BCG-LM-pulsed dendritic cells identified C-C motif ligand (CCL) 5 as a crucial chemokine for the anti-tumor immunity induced by BCG-LM, indicating that CCL5 plays an important role for the accumulation of eosinophils in the tumor microenvironment. Furthermore, BCG-LM and memory Th2 cells exerted a synergetic effect on tumor progression by cooperatively enhancing the eosinophil function. Thus, this study revealed an un-identified BCG-LM-mediated anti-tumor mechanism via superoxide produced by infiltrated eosinophils in the tumor microenvironment. Since BCG-LM activates this unique pathway, it may have potent therapeutic potential as immune cell therapy for cancer patients.
  • Koji Hayashizaki, Motoko Y. Kimura, Koji Tokoyoda, Hiroyuki Hosokawa, Kenta Shinoda, Kiyoshi Hirahara, Tomomi Ichikawa, Atsushi Onodera, Asami Hanazawa, Chiaki Iwamura, Jungo Kakuta, Kenzo Muramoto, Shinichiro Motohashi, Damon J. Tumes, Tomohisa Iinuma, Heizaburo Yamamoto, Yuzuru Ikehara, Yoshitaka Okamoto, Toshinori Nakayama
    Science Immunology 1(3) eaaf9154-eaaf9154 2016年9月  査読有り
  • Atsushi Onodera, Damon J. Tumes, Yukiko Watanabe, Kiyoshi Hirahara, Atsushi Kaneda, Fumihiro Sugiyama, Yutaka Suzuki, Toshinori Nakayama
    MOLECULAR AND CELLULAR BIOLOGY 35(22) 3841-3853 2015年11月  査読有り筆頭著者
    Trithorax group (TrxG) and Polycomb group (PcG) proteins are two mutually antagonistic chromatin modifying complexes, however, how they together mediate transcriptional counter-regulation remains unknown. Genome-wide analysis revealed that binding of Ezh2 and menin, central members of the PcG and TrxG complexes, respectively, were reciprocally correlated. Moreover, we identified a developmental change in the positioning of Ezh2 and menin in differentiated T lymphocytes compared to embryonic stem cells. Ezh2-binding upstream and menin-binding downstream of the transcription start site was frequently found at genes with higher transcriptional levels, and Ezh2-binding downstream and menin-binding upstream was found at genes with lower expression in T lymphocytes. Interestingly, of the Ezh2 and menin cooccupied genes, those exhibiting occupancy at the same position displayed greatly enhanced sensitivity to loss of Ezh2. Finally, we also found that different combinations of Ezh2 and menin occupancy were associated with expression of specific functional gene groups important for T cell development. Therefore, spatial cooperative gene regulation by the PcG and TrxG complexes may represent a novel mechanism regulating the transcriptional identity of differentiated cells.
  • Atsushi Onodera, Toshinori Nakayama
    Trends in Molecular Medicine 21(5) 330-340 2015年5月  査読有り筆頭著者
    Epigenetics provides a bridge between genetic and environmental factors, and can change the transcriptional outcome of a gene without changing the genomic sequence. Allergies and autoimmune diseases are caused by both of these factors, and dynamic changes in epigenetic marks have been reported in T cells, which are key players in the pathogenesis of immune-mediated diseases. Advances in technology, including gene knockout systems and high-throughput sequencing, have significantly enhanced the understanding of the lifespan of T cells, including maturation, differentiation and memory formation. In this review, we focus on Polycomb and Trithorax proteins, well-characterized epigenetic modulators, and discuss their role in the epigenetic regulation of T cell differentiation and function.
  • Kiyoshi Hirahara, Atsushi Onodera, Alejandro V. Villarino, Michael Bonelli, Giuseppe Sciume, Arian Laurence, Hong-Wei Sun, Stephen R. Brooks, Golnaz Vahedi, Han-Yu Shih, Gustavo Gutierrez-Cruz, Shigeru Iwata, Ryo Suzuki, Yohei Mikami, Yoshitaka Okamoto, Toshinori Nakayama, Steven M. Holland, Christopher A. Hunter, Yuka Kanno, John J. O'Shea
    IMMUNITY 42(5) 877-889 2015年5月  査読有り
    Interleukin-6 (IL-6) and IL-27 signal through a shared receptor subunit and employ the same downstream STAT transcription proteins, but yet are ascribed unique and overlapping functions. To evaluate the specificity and redundancy for these cytokines, we quantified their global transcriptomic changes and determined the relative contributions of STAT1 and STAT3 using genetic models and chromatin immunoprecipitation- sequencing (ChIP-seq) approaches. We found an extensive overlap of the transcriptomes induced by IL-6 and IL-27 and few examples in which the cytokines acted in opposition. Using STAT-deficient cells and T cells from patients with gain-of-function STAT1 mutations, we demonstrated that STAT3 is responsible for the overall transcriptional output driven by both cytokines, whereas STAT1 is the principal driver of specificity. STAT1 cannot compensate in the absence of STAT3 and, in fact, much of STAT1 binding to chromatin is STAT3 dependent. Thus, STAT1 shapes the specific cytokine signature superimposed upon STAT3's action.
  • Yuta Mishima, Changshan Wang, Satoru Miyagi, Atsunori Saraya, Hiroyuki Hosokawa, Makiko Mochizuki-Kashio, Yaeko Nakajima-Takagi, Shuhei Koide, Masamitsu Negishi, Goro Sashida, Taku Naito, Tomoyuki Ishikura, Atsushi Onodera, Toshinori Nakayama, Daniel G. Tenen, Naoto Yamaguchi, Haruhiko Koseki, Ichiro Taniuchi, Atsushi Iwama
    NATURE COMMUNICATIONS 5 2014年12月  査読有り
    During T-cell development, Cd8 expression is controlled via dynamic regulation of its cis-regulatory enhancer elements. Insufficiency of enhancer activity causes variegated Cd8 expression in CD4(+)CD8(+) double-positive (DP) thymocytes. Brd1 is a subunit of the Hbo1 histone acetyltransferase (HAT) complex responsible for acetylation of histone H3 at lysine 14 (H3K14). Here we show that deletion of Brd1 in haematopoietic progenitors causes variegated expression of Cd8, resulting in the appearance of CD4(+)CD8(-)TCR beta(-/low) thymocytes indistinguishable from DP thymocytes in their properties. Biochemical analysis confirms that Brd1 forms a HAT complex with Hbo1 in thymocytes. ChIP analysis demonstrates that Brd1 localizes at the known enhancers in the Cd8 genes and is responsible for acetylation at H3K14. These findings indicate that the Brd1-mediated HAT activity is crucial for efficient activation of Cd8 expression via acetylation at H3K14, which serves as an epigenetic mark that promotes the recruitment of transcription machinery to the Cd8 enhancers.
  • Yukiko Watanabe, Atsushi Onodera, Urara Kanai, Tomomi Ichikawa, Kazushige Obata-Ninomiya, Tomoko Wada, Masahiro Kiuchi, Chiaki Iwamura, Damon J. Tumes, Kenta Shinoda, Ryoji Yagi, Shinichiro Motohashi, Kiyoshi Hirahara, Toshinori Nakayama
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 111(35) 12829-12834 2014年9月  査読有り
    Epigenetic modifications, such as posttranslational modifications of histones, play an important role in gene expression and regulation. These modifications are in part mediated by the Trithorax group (TrxG) complex and the Polycomb group (PcG) complex, which activate and repress transcription, respectively. We herein investigate the role of Menin, a component of the TrxG complex in T helper (Th) cell differentiation and show a critical role for Menin in differentiation and maintenance of Th17 cells. Menin(-/-) T cells do not efficiently differentiate into Th17 cells, leaving Th1 and Th2 cell differentiation intact in in vitro cultures. Menin deficiency resulted in the attenuation of Th17-induced airway inflammation. In differentiating Th17 cells, Menin directly bound to the Il17a gene locus and was required for the deposition of permissive histone modifications and recruitment of the RNA polymerase II transcriptional complex. Interestingly, although Menin bound to the Rorc locus, Menin was dispensable for the induction of Rorc expression and permissive histone modifications in differentiating Th17 cells. In contrast, Menin was required to maintain expression of Rorc in differentiated Th17 cells, indicating that Menin is essential to stabilize expression of the Rorc gene. Thus, Menin orchestrates Th17 cell differentiation and function by regulating both the induction and maintenance of target gene expression.
  • Tanaka S, Suto A, Iwamoto T, Kashiwakuma D, Kagami S, Suzuki K, Takatori H, Tamachi T, Hirose K, Onodera A, Suzuki J, Ohara O, Yamashita M, Nakayama T, Nakajima H
    The Journal of experimental medicine 211(9) 1857-1874 2014年8月  査読有り
  • Onodera, A, Tumes, D. J, Nakayama, T
    Transcriptional and Epigenetic Mechanisms Regulating Normal and Aberrant Blood Cell Development. 367-382 2014年2月  査読有り
  • Atsushi Onodera, Damon John Tumes, Toshinori Nakayama
    Nature Immunology 14(2) 112-114 2013年2月  査読有り筆頭著者
  • Hosokawa, H., Tanaka, T., Suzuki, Y., Iwamura, C., Ohkubo, S., Endoh, K., Kato, M., Endo, Y., Onodera, A., Tumes, D.J., Kanai, A., Sugano, S., Nakayama, T.
    Proceedings of the National Academy of Sciences of the United States of America 110(12) 4691-4696 2013年  査読有り
  • Sasaki, T., Onodera, A., Hosokawa, H., Watanabe, Y., Horiuchi, S., Yamashita, J., Tanaka, H., Ogawa, Y., Suzuki, Y., Nakayama, T.
    PLoS ONE 8(6) e66468 2013年  査読有り
  • Tumes, D.J., Onodera, A., Suzuki, A., Shinoda, K., Endo, Y., Iwamura, C., Hosokawa, H., Koseki, H., Tokoyoda, K., Suzuki, Y., Motohashi, S., Nakayama, T.
    Immunity 39(5) 819-832 2013年  査読有り
  • Kuwahara M, Yamashita M, Shinoda K, Tofukuji S, Onodera A, Shinnakasu R, Motohashi S, Hosokawa H, Tumes D, Iwamura C, Lefebvre V, Nakayama T
    Nature immunology 13(8) 778-786 2012年  査読有り
  • Masayuki Kitajima, Toshihiro Ito, Damon J. Tumes, Yusuke Endo, Atsushi Onodera, Kahoko Hashimoto, Shinichiro Motohashi, Masakatsu Yamashita, Takashi Nishimura, Steven F. Ziegler, Toshinori Nakayama
    CANCER RESEARCH 71(14) 4790-4798 2011年7月  査読有り
    Functionally polarized helper T cells (Th cells) play crucial roles in the induction of tumor immunity. There is considerable knowledge about the contributions of IFN-producing Th1 cells that supports the role of cytotoxic cluster of differentiation (CD8) T cells and natural killer (NK) cells, but much less is known about how IL-4-producing Th2 cells contribute to tumor immunity. In this study, we investigated the cellular and molecular mechanisms employed by memory Th2 cells in sustaining tumor immunity by using a mouse model system wherein ovalbumin (OVA) is used as a specific tumor antigen. In this model, we found that OVA-specific memory Th2 cells exerted potent and long-lasting antitumor effects against NK-sensitive OVA-expressing tumor cells, wherein antitumor effects were mediated by NK cells. Specifically, NK cell cytotoxic activity and expression of perforin and granzyme B were dramatically enhanced by the activation of memory Th2 cells. Interleukin 4 (IL-4) produced by memory Th2 cells in vivo was critical for the antitumor effects of the NK cells, which IL-4 directly stimulated to induce their perforin-and granzyme-B-dependent cytotoxic activity. Our findings show that memory Th2 cells can induce potent antitumor immunity through IL-4-induced activation of NK cells, suggesting potential applications in cellular therapy for cancer patients. Cancer Res; 71(14); 4790-8. (C) 2011 AACR.
  • Shu Horiuchi, Atsushi Onodera, Hiroyuki Hosokawa, Yukiko Watanabe, Tomoaki Tanaka, Sumio Sugano, Yutaka Suzuki, Toshinori Nakayama
    JOURNAL OF IMMUNOLOGY 186(11) 6378-6389 2011年6月  査読有り
    Differentiation of naive CD4 T cells into Th2 cells is accompanied by chromatin remodeling and increased expression of a set of Th2-specific genes, including those encoding Th2 cytokines. IL-4-mediated STAT6 activation induces high levels of transcription of GATA3, a master regulator of Th2 cell differentiation, and enforced expression of GATA3 induces Th2 cytokine expression. However, it remains unclear whether the expression of other Th2-specific genes is induced directly by GATA3. A genome-wide unbiased chromatin immunoprecipitation assay coupled with massive parallel sequencing analysis revealed that GATA3 bound to 1279 genes selectively in Th2 cells, and 101 genes in both Th1 and Th2 cells. Simultaneously, we identified 26 highly Th2-specific STAT6-dependent inducible genes by DNA microarray analysis-based three-step selection processes, and among them 17 genes showed GATA3 binding. We assessed dependency on GATA3 for the transcription of these 26 Th2-specific genes, and 10 genes showed increased transcription in a GATA3-dependent manner, whereas 16 genes showed no significant responses. The transcription of the 16 GATA3-nonresponding genes was clearly increased by the introduction of an active form of STAT6, STAT6VT. Therefore, although GATA3 has been recognized as a master regulator of Th2 cell differentiation, many Th2-specific genes are not regulated by GATA3 itself, but in collaboration with STAT6. The Journal of Immunology, 2011, 186: 6378-6389.
  • Onodera, A., Yamashita, M., Endo, Y., Kuwahara, M., Tofukuji, S., Hosokawa, H., Kanai, A., Suzuki, Y., Nakayama, T.
    Journal of Experimental Medicine 207(11) 2493-2506 2010年  査読有り筆頭著者
  • Masakatsu Yamashita, Atsushi Onodera, Toshinori Nakayama
    CRITICAL REVIEWS IN IMMUNOLOGY 27(6) 539-546 2007年  査読有り
    Allergic asthma is an airway inflammatory disease characterized by chronically increased expression of multiple inflammatory proteins, including cytokines, chemokines, adhesion molecules, enzymes, and receptors. Several transcription factors are known to play a crucial role in the pathogenesis of chronic inflammatory diseases such as asthma, including signal transducer and activator of transcription factors, nuclear factor-kappaB, nuclear factor of activated T cells, activator protein-1 family proteins, and Th2 cell-related transcription factors including GATA3, JunB, and c-Maf Modulation of the activity of certain transcription factors has been shown to result in the inhibition of inflammation during asthma. Terefore, both agonists and inhibitors of transcription factors may be potential tools for the treatment of asthma. In this review, we summarize the current knowledge of the role of well-established transcription factors in asthma.
  • Yoshiyuki Tenda, Masakatsu Yamashita, Motoko Y. Kimura, Akihiro Hasegawa, Chiori Shimizu, Masayuki Kitajima, Atsushi Onodera, Akane Suzuki, Nobuo Seki, Toshinori Nakayama
    JOURNAL OF ALLERGY AND CLINICAL IMMUNOLOGY 118(3) 725-733 2006年9月  査読有り
    Background: Nishiki-nezumi Cinnamon/Nagoya (NC/Nga) mice raised in nonair-controlled conventional circumstances spontaneously develop atopic dermatitis-like skin lesions; however, the underlying mechanisms remain unclear. Objective: We wanted to identify the critical intracellular signaling molecules in T cells that induce atopic dermatitis-like skin legions in NC/Nga mice. Methods: We examined the levels of signal transduction and cytokine production in T cells, particularly those in atopic dermatitis-like lesions induced by the topical injection of mite antigens in NC/Nga mice under specific pathogen-free conditions. Results: In NC/Nga mice maintained under specific pathogen-free conditions, the capability of T(H)1/T(H)2 and T cytotoxic 1/T cytotoxic 2 (Tc1/Tc2) cell differentiation increased significantly. T-cell antigen receptor-mediated activation of the extracellular signal-regulated kinase/mitogen-activated protein kinase cascade and nuclear factor-kappa B (NF-kappa B) signaling were enhanced in NC/Nga T cells. The expression of T(H)2 cytokines (IL-4, IL-13, and IL-5) and that of GATA-binding protein 3 (GATA3), avian musculoaponeurotic fibrosarcoma (c-Maf), NF-kappa B, and activator protein 1 (AP1) selectively increased in draining lymph node T cells of NC/Nga mice. Moreover, the cell transfer of inhibitory NF-kappa B mutant-infected T(H)2 cells reduced ear thickness in the mite antigen-induced skin lesion of NC/Nga mice. Conclusion: Hyperresponsive T(H)2 cells with an enhanced activity of NF-kappa B and AP1 play a crucial role in the pathogenesis of atopic dermatitis-like skin lesions in NC/Nga mice. Clinical implications: These results indicate potential therapeutic usefulness of developing selective inhibitors for NF-kappa B in the treatment of human atopic dermatitis.

MISC

 17

書籍等出版物

 8
  • 小野寺 淳, 上田 敏 (担当:分担執筆, 範囲:第4節)
    株式会社シービーアール 2023年12月 (ISBN: 9784911108222)
  • 小野寺 淳, 小久保 幸太, 木内 政宏, 岩村 千秋, 平原 潔, 山下 政克 (担当:分担執筆, 範囲:第5章 免疫系の恒常性破綻と疾患, 検査, 治療)
    羊土社 2023年11月 (ISBN: 9784758121682)
  • 小野寺 淳, 中山 俊憲 (担当:共訳, 範囲:第14章 アレルギーと寄生虫に対する免疫応答) (原著:Array)
    メディカル・サイエンス・インターナショナル 2023年8月 (ISBN: 9784815730819)
  • 中山俊憲, 小野寺淳 (担当:共訳, 範囲:第IV部、適応免疫応答 第9章 T細胞性免疫応答) (原著:Array)
    南江堂 2019年3月 (ISBN: 9784524251155)
  • Onodera, A, Kokubo, K, Nakayama, T (担当:共著)
    Gene Expression and Regulation in Mammalian Cells - Transcription From General Aspects 2018年2月 (ISBN: 9789535138563)

講演・口頭発表等

 67

共同研究・競争的資金等の研究課題

 8

社会貢献活動

 20