医学部

Takuya Kato

  (加藤 琢哉)

Profile Information

Affiliation
Associate Professor, Department of Molecular Pathology, School of Medicine, Fujita Health University

J-GLOBAL ID
201001080834232220
researchmap Member ID
6000026148

Papers

 51
  • Akihiro Tamaki, Takuya Kato, Yasutaka Sakurai, Keita Sato, Kai Adachi, Masayoshi Tadehara, Taro Kogami, Masahiro Matsushita, Akiyoshi Hoshino, Itaru Sanoyama, Yoshiko Numata, Atsuko Umezawa, Masaaki Ichinoe, Masatoshi Ichihara, Chika Kusano, Yoshiki Murakumo
    Cancer science, 115(2) 660-671, Feb, 2024  
    REV7 is a multifunctional protein implicated in various biological processes, including DNA damage response. REV7 expression in human cancer cells affects their sensitivity to DNA-damaging agents. In the present study, we investigated the significance of REV7 in pancreatic ductal adenocarcinoma (PDAC). REV7 expression was immunohistochemically examined in 92 resected PDAC specimens and 60 endoscopic ultrasound-guided fine-needle aspiration biopsy (EUS-FNAB) specimens of unresectable PDAC treated with platinum-based chemotherapy, and its association with clinicopathologic features was analyzed. Although REV7 expression was not significantly associated with the progression of primary tumors (T-factor and Stage) in either resected or unresectable PDAC, decreased levels of REV7 expression in EUS-FNAB specimens of unresectable PDAC were significantly associated with better outcomes of platinum-based chemotherapy and a favorable prognosis. REV7-deficient PDAC cell lines showed suppressed cell growth and enhanced sensitivity to cisplatin in vitro. Tumor-bearing mice generated using REV7-deficient PDAC cell lines also showed enhanced sensitivity to cisplatin in vivo. RNA sequencing analysis using WT and REV7-deficient PDAC cell lines revealed that REV7 inactivation promoted the downregulation of genes involved in the DNA repair and the upregulation of genes involved in apoptosis. Our results indicate that decreased expression of REV7 is associated with better outcomes of platinum-based chemotherapy in PDAC by suppressing the DNA damage response. It is also suggested that REV7 is a useful biomarker for predicting the outcome of platinum-based chemotherapy and the prognosis of unresectable PDAC and is a potential target for PDAC treatment.
  • Yuko Shimada, Takuya Kato, Yasutaka Sakurai, Hitoe Watanabe, Mayu Nonaka, Natsumi Nanaura, Masaaki Ichinoe, Yoshiki Murakumo
    Biochemical and biophysical research communications, 662 8-17, Jun 25, 2023  
    REV7 is involved in various biological processes including DNA repair and mutagenesis, cell cycle regulation, gene transcription, and carcinogenesis. REV7 is highly expressed in adult testicular germ cells as well as several malignant tumors. REV7 expression levels are associated with prognosis in several human cancers, however, the mechanism of REV7 transcriptional regulation has not been elucidated. In this study, we characterized the promoter region of the REV7 gene. A luciferase reporter assay using the human germ cell tumor cell line NEC8 was utilized to examine the upstream genomic region of REV7 for transcriptional activity, and two transcriptional activation regions were identified. We determined a small genomic region important for transcriptional activation using site-directed mutagenesis; this region is shared by several putative binding motifs for transcription factors, including the cAMP-responsive element modulator (CREM), cAMP-response element binding protein (CREB), and B-lymphocyte-induced maturation protein-1 (BLIMP-1). Exogenous CREM and CREB expression had no effect on the transcriptional activity in NEC8 cells or the human embryonic kidney cell line HEK293T. In contrast, exogenous BLIMP-1 expression increased luciferase reporter activity in HEK293T cells but unexpectedly decreased activity in NEC8 cells. Chromatin immunoprecipitation analysis demonstrated that BLIMP-1 binds to the genomic region near the binding motif in the REV7 promoter. Additionally, BLIMP-1 overexpression promoted endogenous REV7 expression in HEK293T cells. These findings suggest that BLIMP-1 may be a putative transcriptional regulator of REV7 in mammalian cells.
  • Yoshiki Murakumo, Yasutaka Sakurai, Takuya Kato, Hiroshi Hashimoto, Masaaki Ichinoe
    Cancers, 15(6), Mar 11, 2023  
    DNA repair and cell cycle regulation are potential biological fields to develop molecular targeting therapies for cancer. Human REV7 was originally discovered as a homologous molecule to yeast Rev7, which is involved in DNA damage response and mutagenesis, and as the second homolog of yeast Mad2, involved in the spindle assembly checkpoint. Although REV7 principally functions in the fields of DNA repair and cell cycle regulation, many binding partners of REV7 have been identified using comprehensive analyses in the past decade, and the significance of REV7 is expanding in various other biological fields, such as gene transcription, epigenetics, primordial germ cell survival, neurogenesis, intracellular signaling, and microbial infection. In addition, the clinical significance of REV7 has been demonstrated in studies using human cancer tissues, and investigations in cancer cell lines and animal models have revealed the greater impacts of REV7 in cancer biology, which makes it an attractive target molecule for cancer management. This review focuses on the functions of REV7 in human cancer and discusses the utility of REV7 for cancer management with a summary of the recent development of inhibitors targeting REV7.
  • Takuya Kato, Robert P Jenkins, Stefanie Derzsi, Melda Tozluoglu, Antonio Rullan, Steven Hooper, Raphaël A G Chaleil, Holly Joyce, Xiao Fu, Selvam Thavaraj, Paul A Bates, Erik Sahai
    eLife, 12, Mar 9, 2023  
    Cancers, such as squamous cell carcinoma, frequently invade as multicellular units. However, these invading units can be organised in a variety of ways, ranging from thin discontinuous strands to thick 'pushing' collectives. Here we employ an integrated experimental and computational approach to identify the factors that determine the mode of collective cancer cell invasion. We find that matrix proteolysis is linked to the formation of wide strands but has little effect on the maximum extent of invasion. Cell-cell junctions also favour wide strands, but our analysis also reveals a requirement for cell-cell junctions for efficient invasion in response to uniform directional cues. Unexpectedly, the ability to generate wide invasive strands is coupled to the ability to grow effectively when surrounded by extracellular matrix in three-dimensional assays. Combinatorial perturbation of both matrix proteolysis and cell-cell adhesion demonstrates that the most aggressive cancer behaviour, both in terms of invasion and growth, is achieved at high levels of cell-cell adhesion and high levels of proteolysis. Contrary to expectation, cells with canonical mesenchymal traits - no cell-cell junctions and high proteolysis - exhibit reduced growth and lymph node metastasis. Thus, we conclude that the ability of squamous cell carcinoma cells to invade effectively is also linked to their ability to generate space for proliferation in confined contexts. These data provide an explanation for the apparent advantage of retaining cell-cell junctions in squamous cell carcinomas.
  • SHOHEI TSUTSUMI, KAHO MOMIYAMA, MASAAKI ICHINOE, TAKUYA KATO, SACHIYO MOGI, SHUNSUKE MIYAMOTO, YOSHIKI MURAKUMO, TAKU YAMASHITA
    Anticancer Research, 42(4) 2061-2070, Apr, 2022  

Misc.

 15
  • Masaki Hirano, Melissa Ranjit, Akane Yamamichi, Kosuke Aoki, Fumiharu Ohka, Takuya Kato, Atsushi Enomoto, Masahide Takahashi, Toshihiko Wakabayashi, Atsushi Natsume
    NEURO-ONCOLOGY, 19 103-103, Nov, 2017  
  • 平野 雅規, ランジット・メリッサ, 山道 茜, 青木 恒介, 大岡 史治, 加藤 琢哉, 榎本 篤, 高橋 雅英, 若林 俊彦, 夏目 敦至
    日本癌学会総会記事, 76回 J-2064, Sep, 2017  
  • Yoshiki Murakumo, Naoki Watanabe, Shinji Mii, Masato Asai, Naoya Asai, Kaoru Niimi, Takuya Kato, Atsushi Enomoto, Masahide Takahashi
    CANCER RESEARCH, 74(19), Oct, 2014  
  • Yoshihisa Sugimura, Shintaro Iwama, Atsushi Kiyota, Hiroshi Takagi, Seiji Takeuchi, Hisakazu Izumida, Takuya Kato, Atsushi Enomoto, Yutaka Oiso
    JOURNAL OF NEUROIMMUNOLOGY, 253(1-2) 23-24, Dec, 2012  
  • Kei Ohara, Atsushi Enomoto, Takuya Kato, Takahiko Hashimoto, Mayu Isotani-Sakakibara, Naoya Asai, Maki Ishida-Takagishi, Liang Weng, Masanori Nakayama, Takashi Watanabe, Katsuhiro Kato, Kozo Kaibuchi, Yoshiki Murakumo, Yoshiki Hirooka, Hidemi Goto, Masahide Takahashi
    PLOS ONE, 7(5) e36681, May, 2012  Peer-reviewed
    Cell migration is a critical cellular process that determines embryonic development and the progression of human diseases. Therefore, cell- or context-specific mechanisms by which multiple promigratory proteins differentially regulate cell migration must be analyzed in detail. Girdin (girders of actin filaments) (also termed GIV,G alpha-interacting vesicle associated protein) is an actin-binding protein that regulates migration of various cells such as endothelial cells, smooth muscle cells, neuroblasts, and cancer cells. Here we show that Girdin regulates the establishment of cell polarity, the deregulation of which may result in the disruption of directional cell migration. We found that Girdin interacts with Par-3, a scaffolding protein that is a component of the Par protein complex that has an established role in determining cell polarity. RNA interference-mediated depletion of Girdin leads to impaired polarization of fibroblasts and mammary epithelial cells in a way similar to that observed in Par-3-depleted cells. Accordingly, the expression of Par- 3 mutants unable to interact with Girdin abrogates cell polarization in fibroblasts. Further biochemical analysis suggests that Girdin is present in the Par protein complex that includes Par-3, Par-6, and atypical protein kinase C. Considering previous reports showing the role of Girdin in the directional migration of neuroblasts, network formation of endothelial cells, and cancer invasion, these data may provide a specific mechanism by which Girdin regulates cell movement in biological contexts that require directional cell movement.

Teaching Experience

 1

Research Projects

 8