Publications

1. Goto Y, Lamichhane A, Kamioka M, Sato S, Honda K, Kunisawa J and Kiyono H. IL-10-producing CD4+ T cells negatively regulate fucosylation of epithelial cells in the gut. Sci Rep, 5: 15918 (2015)
2. Panea C, Farkas AM, Goto Y, Abdollahi-Roodsaz S, Lee C, Koscso B, Gowda K, Hohl TM, Bogunovic M and Ivanov II. Intestinal Monocyte-Derived Macrophages Control Commensal-Specific Th17 Responses. Cell Rep, 12: 1314-1324 (2015)
3. Goto Y, Kurashima Y, Kiyono H. The gut microbiota and inflammatory bowel disease. Curr Opin Rheumatol, 27: 388-396 (2015)
4. Farkas AM*, Panea C*, Goto Y*, Nakato G, Galan-Diez M, Narushima S, Honda K, Ivanov II. Colonization and induction of Th17 cells by segmented filamentous bacteria in the murine intestine. J Immunol Methods, 421: 104-111 (2015) *equally contribution
5. Goto Y, Obata T, Kunisawa J, Sato S, Ivanov II, Lamichhane A, Takeyama N, Kamioka M, Sakamoto M, Matsuki T, Setoyama H, Imaoka A, Uematsu S, Akira S, Domino SE, Kulig P, Becher B, Renauld JC, Sasakawa C, Umesaki Y, Benno Y, Kiyono H. Innate lymphoid cells regulate intestinal epithelial fucosylation. Science, 345: 1254009 (2014)
6. Goto Y, Panea C, Nakato G, Cebula A, Lee C, Diez MG, Laufer TM, Ignatowicz L, Ivanov II. Segmented filamentous bacteria antigens presented by intestinal dendritic cells drive mucosal Th17 cell differentiation. Immunity, 40: 594-607 (2014).
7. Kurashima Y, Goto Y, Kiyono H. Mucosal innate immune cells regulate both gut homeostasis and intestinal inflammation. Eur J Immunol, 43: 3108-3115 (2013).
8. Obata T, Shibata N, Goto Y, Ishikawa I, Sato S, Kunisawa J, Kiyono H. Critical role of dendritic cells in T cell retention in the interfollicular region of Peyer's patches. J Immunol, 191: 942-948 (2013).
9. Kunisawa J, Gohda M, Hashimoto E, Ishikawa I, Higuchi M, Suzuki Y, Goto Y, Panea C, Ivanov II, Sumiya R, Aayam L, Wake T, Tajiri S, Kurashima Y, Shikata S, Akira S, Takeda K, Kiyono H. Microbe-dependent CD11b+ IgA+ plasma cells mediate robust early-phase intestinal IgA responses in mice. Nat Commun, 4: 1772 (2013).
10. Kusu T, Kayama H, Kinoshita M, Jeon SG, Ueda Y, Goto Y, Okumura R, Saiga H, Kurakawa T, Ikeda K, Maeda Y, Nishimura J, Arima Y, Atarashi K, Honda K, Murakami M, Kunisawa J, Kiyono H, Okumura M, Yamamoto M, Takeda K. Ecto-nucleoside triphosphate diphosphohydrolase 7 controls Th17 cell responses through regulation of luminal ATP in the small intestine. J Immunol, 190: 774-783 (2013).
11. Goto Y, Ivanov II. Intestinal epithelial cells as mediators of the commensal-host immune crosstalk. Immunol Cell Biol, 91: 204-214 (2013).
12. Shibata T, Takemura N, Motoi Y, Goto Y, Karuppuchamy T, Izawa K, Li X, Akashi-Takamura S, Tanimura N, Kunisawa J, Kiyono H, Akira S, Kitamura T, Kitaura J, Uematsu S, Miyake K. PRAT4A-dependent expression of cell surface TLR5 on neutrophils, classical monocytes and dendritic cells. Int Immunol, 24: 613-623 (2012).
13. Goto Y, Kiyono H. Epithelial barrier: an interface for the cross-communication between gut flora and immune system. Immunol Rev, 245: 147-163 (2012).
14. Ogawa M, Yoshikawa Y, Kobayashi T, Mimuro H, Fukumatsu M, Kiga K, Piao Z, Ashida H, Yoshida M, Kakuta S, Koyama T, Goto Y, Nagatake T, Nagai S, Kiyono H, Kawalec M, Reichhart JM, Sasakawa C. A Tecpr1-dependent selective autophagy pathway targets bacterial pathogens. Cell Host and Microbe, 19: 376-389 (2011).
15. Goto Y, Kiyono H. Epithelial cell microRNAs in gut immunity. Nat Immunol, 12:195-197, (2011)
16. Terahara K, Nochi T, Yoshida M, Takahashi Y, Goto Y, Hatai H, Kurokawa S, Jang MH, Kweon MN, Domino SE, Hiroi T, Yuki Y, Tsunetsugu-Yokota Y, Kobayashi K, Kiyono H. Distinct fucosylation of M cells and epithelial cells by Fut1 and Fut2, respectively, in response to intestinal environmental stress. Biochem Biophys Res Commun, 404: 822-828 (2011).
17. Obata T, Goto Y, Kunisawa J, Sato S, Sakamoto M, Setoyama H, Matsuki T, Nonaka K, Shibata N, Gohda M, Kagiyama Y, Nochi T, Yuki Y, Fukuyama Y, Mukai A, Shinzaki S, Fujihashi K, Sasakawa C, Iijima H, Goto M, Umesaki Y, Benno Y, Kiyono H. Indigenous opportunistic bacteria inhabit mammalian gut-associated lymphoid tissues and share a mucosalantibody-mediated symbiosis. Proc Natl Acad Sci U S A, 107: 7419-7424 (2010).
18. Imada M, Masuda K, Satoh R, Ito Y, Goto Y, Matsuoka T, Endo S, Nakamura A, Kawamoto H, Takai T. Ectopically expressed PIR-B on T cells constitutively binds to MHC class I and attenuates T helper type 1 responses. Int Immunol, 21: 1151-1161 (2009).
19. Terahara K, Yoshida M, Taguchi F, Igarashi O, Nochi T, Gotoh Y, Yamamoto T, Tsunetsugu-Yokota Y, Beauchemin N, Kiyono H. Expression of newly identified secretory CEACAM1(a) isoforms in the intestinal epithelium. Biochem Biophys Res Commun, 383: 340-346 (2009).
20. Kobayashi T, Takahashi K, Nagai Y, Shibata T, Otani M, Izui S, Akira S, Gotoh Y, Kiyono H, Miyake K. Tonic B cell activation by Radioprotective105/MD-1 promotes disease progression in MRL/lpr mice. Int Immunol, 20: 881-891 (2008).

日本語総説

1. 後藤　義幸、自然リンパ球による腸管上皮細胞の糖鎖修飾誘導システム. 医歯薬出版. 医学のあゆみ. 256(4), 317-318, 2016
2. 後藤　義幸. Rorgt陽性自然リンパ球と腸内細菌. 炎症と免疫. 先端医学社. 23 (4), 23-28, 2015
3. 後藤　義幸. 3型自然リンパ球による腸管上皮細胞の糖鎖修飾制御. 感染・炎症・免疫. 羊土社. 45 (3), 20-29, 2015
4. 後藤　義幸、清野　宏. 自然リンパ球による腸管上皮細胞の糖鎖修飾の調節. 臨床免疫・アレルギー科. 科学評論社. 63(4) : 299-304, 2015
5. 後藤　義幸、清野　宏. 腸管バリアとしての糖鎖修飾とその制御. 羊土社. 実験医学. 33 (4), 544-549, 2015
6. 後藤　義幸、倉島　洋介、清野　宏. 腸管粘膜免疫共生と排除. 臨床血液. 日本血液学会. 56 (10), 345-352, 2015
7. 後藤　義幸、清野　宏. 自然リンパ球は腸管上皮細胞の糖鎖修飾を制御する. 新着論文レビュー, 2014
8. 後藤　義幸. 腸管において樹状細胞による提示されるセグメント細菌の抗原はTh17細胞の分化を誘導する. 新着論文レビュー, 2014
9. 後藤　義幸、清野　宏. 自然リンパ球による腸管上皮細胞の糖鎖修飾誘導・制御システム. 分子消化器病, 11 (4), 86-88, 2014
10. 後藤　義幸、清野　宏. 腸管免疫機構による腸内細菌叢の恒常性制御機構. 実験医学増刊号. 31 (15), 209-214, 2013
11. 後藤　義幸, 清野　宏. 腸内フローラと宿主粘膜免疫のクロストーク. 腸内細菌学雑誌, 25, 235-243, 2011
12. 後藤　義幸, 秋山　優子, 清野　宏. 粘膜免疫のユニーク性：腸管における微生物排除と共生の決定制御機構. 臨床免疫・アレルギー科, 55, 109-115. 2011
13. 後藤　義幸, 清野　宏. 粘膜免疫システムのユニーク性と疾患・治療応用. 実験医学, 24, 1337-1342. 2006
14. 後藤　義幸, 中村　晃, 高井　俊行. Fcレセプターと関節炎. 分子リウマチ, 1, 302-308, 2004.
15. 後藤　義幸, 金田　崇文, 高井　俊行. 自己免疫疾患におけるFc レセプターの役割. 臨床免疫. 41, 180-189, 2004.

新聞報道

• 2014年10月10日　日経産業新聞10面「免疫細胞　新たな防御法」

ハイライト

• ‘Innate lymphoid cells sweeten the pot’
  Science (Perspective), Vol. 345 (6202), 1248-1249, 2014
• ‘Support your friends to resist your enemies’
  Nature Review Immunology (Research Highlights), Vol. 14 (11), 715, 2014
• ‘Microbial learning lessons: SFB educate the immune system’
  Immunity (Preview), Vol. 40 (4), 457-459, 2014

その他

• Japanese Scientist in Science サイエンス誌の載った日本人研究者2014
  「自然リンパ球は腸上皮細胞の糖鎖修飾を制御する」清野宏・後藤義幸, p66, 2015年3月

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