医学部

浅井 直也

アサイ ナオヤ  (Naoya Asai)

基本情報

所属
藤田医科大学 医学部 病理学講座 教授
学位
博士(医学)(名古屋大学)

J-GLOBAL ID
200901070978348285
researchmap会員ID
6000001683

研究キーワード

 1

論文

 107
  • Jumpei Yoshida, Takanori Hayashi, Eiji Munetsuna, Behnoush Khaledian, Fujiko Sueishi, Masahiro Mizuno, Masao Maeda, Takashi Watanabe, Kaori Ushida, Eiji Sugihara, Kazuyoshi Imaizumi, Kenji Kawada, Naoya Asai, Yohei Shimono
    Scientific reports 14(1) 18494-18494 2024年8月9日  
    Adipocyte-cancer cell interactions promote tumor development and progression. Previously, we identified adipsin (CFD) and its downstream effector, hepatocyte growth factor (HGF), as adipokines that enhance adipocyte-breast cancer stem cell interactions. Here, we show that adipsin-dependent adipocyte maturation and the subsequent upregulation of HGF promote tumor invasion in breast cancers. Mature adipocytes, but not their precursors, significantly induced breast tumor cell migration and invasion in an adipsin expression-dependent manner. Promoters of tumor invasion, galectin 7 and matrix metalloproteinases, were significantly upregulated in cancer cells cocultured with mature adipocytes; meanwhile, their expression levels in cancer cells cocultured with adipocytes were reduced by adipsin knockout (Cfd KO) or a competitive inhibitor of CFD. Tumor growth and distant metastasis of mammary cancer cells were significantly suppressed when syngeneic mammary cancer cells were transplanted into Cfd KO mice. Histological analyses revealed reductions in capsular formation and tumor invasion at the cancer-adipocyte interface in the mammary tumors formed in Cfd KO mice. These findings indicate that adipsin-dependent adipocyte maturation may play an important role in adipocyte-cancer cell interaction and breast cancer progression.
  • Ryota Ando, Yukihiro Shiraki, Yuki Miyai, Hiroki Shimizu, Kazuhiro Furuhashi, Shun Minatoguchi, Katsuhiro Kato, Akira Kato, Tadashi Iida, Yasuyuki Mizutani, Kisuke Ito, Naoya Asai, Shinji Mii, Nobutoshi Esaki, Masahide Takahashi, Atsushi Enomoto
    The Journal of pathology 2023年10月5日  
    Pancreatic stellate cells (PSCs) are stromal cells in the pancreas that play an important role in pancreatic pathology. In chronic pancreatitis (CP) and pancreatic ductal adenocarcinoma (PDAC), PSCs are known to get activated to form myofibroblasts or cancer-associated fibroblasts (CAFs) that promote stromal fibroinflammatory reactions. However, previous studies on PSCs were mainly based on the findings obtained using ex vivo expanded PSCs, with few studies that addressed the significance of in situ tissue-resident PSCs using animal models. Their contributions to fibrotic reactions in CP and PDAC are also lesser-known. These limitations in our understanding of PSC biology have been attributed to the lack of specific molecular markers of PSCs. Herein, we established Meflin (Islr), a glycosylphosphatidylinositol-anchored membrane protein, as a PSC-specific marker in both mouse and human by using human pancreatic tissue samples and Meflin reporter mice. Meflin-positive (Meflin+ ) cells contain lipid droplets and express the conventional PSC marker Desmin in normal mouse pancreas, with some cells also positive for Gli1, the marker of pancreatic tissue-resident fibroblasts. Three-dimensional analysis of the cleared pancreas of Meflin reporter mice showed that Meflin+ PSCs have long and thin cytoplasmic protrusions, and are localised on the abluminal side of vessels in the normal pancreas. Lineage tracing experiments revealed that Meflin+ PSCs constitute one of the origins of fibroblasts and CAFs in CP and PDAC, respectively. In these diseases, Meflin+ PSC-derived fibroblasts showed a distinctive morphology and distribution from Meflin+ PSCs in the normal pancreas. Furthermore, we showed that the genetic depletion of Meflin+ PSCs accelerated fibrosis and attenuated epithelial regeneration and stromal R-spondin 3 expression, thereby implying that Meflin+ PSCs and their lineage cells may support tissue recovery and Wnt/R-spondin signalling after pancreatic injury and PDAC development. Together, these data indicate that Meflin may be a marker specific to tissue-resident PSCs and useful for studying their biology in both health and disease. © 2023 The Pathological Society of Great Britain and Ireland.
  • 林 孝典, 吉田 淳平, 宗綱 栄二, Behnoush Khaledian, 前田 真男, 水野 真広, 牛田 かおり, 河田 健司, 浅井 直也, 下野 洋平
    日本癌学会総会記事 82回 978-978 2023年9月  
  • Khaledian Behnoush, 吉田 淳平, 林 孝典, 水野 真広, 牛田 かおり, 前田 真男, 宗綱 栄二, 河田 健司, 浅井 直也, 下野 洋平, Shimono Yohei
    日本癌学会総会記事 82回 1349-1349 2023年9月  
  • 林 孝典, 吉田 淳平, 宗綱 栄二, Behnoush Khaledian, 前田 真男, 水野 真広, 牛田 かおり, 河田 健司, 浅井 直也, 下野 洋平
    日本癌学会総会記事 82回 978-978 2023年9月  

MISC

 91
  • Kaori Ushida, Naoya Asai, Kozo Uchiyama, Atsushi Enomoto, Masahide Takahashi
    Pathology international 68(4) 241-245 2018年4月  査読有り
    Embedding of tissue samples that maintains a desired orientation is critical for preparing sections suitable for diagnosis and study objectives. Methods to prepare tissue sections include: (i) paraffin embedding or snap-freezing followed by microtome or cryostat sectioning; and (ii) agarose embedding followed by cutting on a vibrating microslicer. Although these methods are useful for routine laboratory work, preparation of small and fragile tissues such as mouse organs, small human biopsy samples, and cultured floating spheres is difficult and requires special skills. In particular, tissue specimen orientation can be lost during embedding in molds and subsequent sectioning. Here, we developed a method using low melting temperature (LM) gelatin either alone or mixed with agarose to preliminarily embed collected tissues that are either prefixed or unfixed, followed by conventional fixation, paraffin embedding, freezing, and sectioning. The advantage of the method is that the LM gelatin and its mixture with agarose can be handled at room temperature but quickly hardens at 4°C, which allows embedding, trimming, and arranging of small and fragile tissues in a desired orientation and are compatible with traditional stainings. Thus, this method can have various laboratory applications and can be modified according to the needs of each laboratory.
  • Shiraki Yukihiro, Mii Shinji, Asai Naoya, Enomoto Atsushi, Momota Hiroyuki, Natsume Atsushi, Wakabayashi Toshihiko, Takahashi Masahide
    CANCER SCIENCE 109 1130-1130-1130 2018年1月  
  • Yukihiro Shiraki, Shinji Mii, Atsushi Enomoto, Hiroyuki Momota, Yi-Peng Han, Takuya Kato, Kaori Ushida, Akira Kato, Naoya Asai, Yoshiki Murakumo, Kosuke Aoki, Hiromichi Suzuki, Fumiharu Ohka, Toshihiko Wakabayashi, Tomoki Todo, Seishi Ogawa, Atsushi Natsume, Masahide Takahashi
    The Journal of pathology 243(4) 468-480 2017年12月  査読有り
    In the progression of glioma, tumour cells often exploit the perivascular microenvironment to promote their survival and resistance to conventional therapies. Some of these cells are considered to be brain tumour stem cells (BTSCs); however, the molecular nature of perivascular tumour cells has not been specifically clarified because of the complexity of glioma. Here, we identified CD109, a glycosylphosphatidylinositol-anchored protein and regulator of multiple signalling pathways, as a critical regulator of the progression of lower-grade glioma (World Health Organization grade II/III) by clinicopathological and whole-genome sequencing analysis of tissues from human glioma. The importance of CD109-positive perivascular tumour cells was confirmed not only in human lower-grade glioma tissues but also in a mouse model that recapitulated human glioma. Intriguingly, BTSCs isolated from mouse glioma expressed high levels of CD109. CD109-positive BTSCs exerted a proliferative effect on differentiated glioma cells treated with temozolomide. These data reveal the significance of tumour cells that populate perivascular regions during glioma progression, and indicate that CD109 is a potential therapeutic target for the disease. Copyright © 2017 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.
  • Maki Takagishi, Masato Sawada, Shinya Ohata, Naoya Asai, Atsushi Enomoto, Kunihiko Takahashi, Liang Weng, Kaori Ushida, Hosne Ara, Shigeyuki Matsui, Kozo Kaibuchi, Kazunobu Sawamoto, Masahide Takahashi
    Cell reports 20(4) 960-972 2017年7月25日  査読有り
    Motile cilia in ependymal cells, which line the cerebral ventricles, exhibit a coordinated beating motion that drives directional cerebrospinal fluid (CSF) flow and guides neuroblast migration. At the apical cortex of these multi-ciliated cells, asymmetric localization of planar cell polarity (PCP) proteins is required for the planar polarization of microtubule dynamics, which coordinates cilia orientation. Daple is a disheveled-associating protein that controls the non-canonical Wnt signaling pathway and cell motility. Here, we show that Daple-deficient mice present hydrocephalus and their ependymal cilia lack coordinated orientation. Daple regulates microtubule dynamics at the anterior side of ependymal cells, which in turn orients the cilial basal bodies required for the directional cerebrospinal fluid flow. These results demonstrate an important role for Daple in planar polarity in motile cilia and provide a framework for understanding the mechanisms and functions of planar polarization in the ependymal cells.
  • Daisuke Kuga, Kaori Ushida, Shinji Mii, Atsushi Enomoto, Naoya Asai, Masato Nagino, Masahide Takahashi, Masato Asai
    The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society 65(6) 347-366 2017年6月  査読有り
    Tuft cells (TCs) are minor components of gastrointestinal epithelia, characterized by apical tufts and spool-shaped somas. The lack of reliable TC-markers has hindered the elucidation of its role. We developed site-specific and phosphorylation-status-specific antibodies against Girdin at tyrosine-1798 (pY1798) and found pY1798 immunostaining of mouse jejunum clearly depicted epithelial cells closely resembling TCs. This study aimed to validate pY1798 as a TC-marker. Double-fluorescence staining of intestines was performed with pY1798 and known TC-markers, for example, hematopoietic-prostaglandin-D-synthase (HPGDS), or doublecortin-like kinase 1 (DCLK1). Odds ratios (ORs) were calculated from cell counts to determine whether two markers were attracting (OR<1) or repelling (OR>1). In consequence, pY1798 signals strongly attracted those of known TC-markers. ORs for HPGDS in mouse stomach, small intestine, and colon were 0 for all, and 0.08 for DCLK1 in human small intestine. pY1798-positive cells in jejunum were distinct from other minor epithelial cells, including goblet, Paneth, and neuroendocrine cells. Thus, pY1798 was validated as a TC-marker. Interestingly, apoptosis inducers significantly increased relative TC frequencies despite the absence of proliferation at baseline. In conclusion, pY1798 is a novel TC-marker. Selective tyrosine phosphorylation and possible resistance to apoptosis inducers implied the activation of certain kinase(s) in TCs, which may become a clue to elucidate the enigmatic roles of TCs. .

書籍等出版物

 1

共同研究・競争的資金等の研究課題

 22