現在のプロジェクト（神経ネットワーク形成、アクチン波、その他）に関連する研究（1993-）

1. Qiu Z, Minegishi T, Aoki D, Abe K, Baba K, Inagaki, N., (2024)
   Adhesion-clutch between DCC and netrin-1 mediates netrin-1–induced axonal haptotaxis, Front Mol Neurosci, 17:1307755. (LINK)
2. Fujikawa R, Okimura C, Kozawa, S, Ikeda K, Inagaki N, Iwadate Y, Sakumura Y (2023)
   Bayesian traction force estimation using cell boundary-dependent force priors, Biophys. J, 122, 4542–4554.
3. Anggraini D, Zhang T, Liu X, Okano K, Tanaka Y, Inagaki N, Li M, Hosokawa Y, Yamada S, Yalikun Y (2023)
   Guided axon outgrowth of neurons by molecular gradients generated from femtosecond laser-fabricated micro-holes, Talanta 267, 125200.
4. Kastian RF, Baba K, Kaewkascholkul N, Sasaki H, Watanabe R, Toriyama M, Inagaki N (2023)
   Dephosphorylation of neural wiring protein shootin1 by PP1 phosphatase regulates netrin-1-induced axon guidance. J Biol Chem. , 299, 104687. (LINK)
5. Minegishi T, Kastian RF, Inagaki N (2023)
   Mechanical regulation of synapse formation and plasticity. Sem. Cell Dev. Biol. 140, 82-89. (LINK)
6. Minegishi T, Fujikawa R, Kastian RF, Sakumura Y, Inagaki N (2021)
   Analyses of actin dynamics, clutch coupling and traction force for growth cone advance. J. Vis. Exp. e63227. (LINK)(Video)
7. Kastian RF, Minegishi T, Inagaki N (2021)
   Simultaneous analyses of clutch coupling and actin polymerization in dendritic spines during chemical LTP. Star Protoc. 2, 100904.(LINK)
8. Abe K, Baba K, Huang L, Koay TW, Okano K, Hosokawa Y, Inagaki N (2021)
   Mechanosensitive Axon Outgrowth Mediated by L1–Laminin Clutch Interface. Biophys. J. 120, 3566-3576. (LINK)
9. Kastian RF, Minegishi T,, Baba K, Saneyoshi T, Katsuno-Kambe H, Saranpal S, Hayashi Y, Inagaki N (2021)
   Shootin1a-mediated actin-adhesion coupling generates force to trigger structural plasticity of dendritic spines, Cell Rep. 35, 109130. (LINK)
10. Masuda T, Hirose H, Baba K, Walrant A, Sagan S, Inagaki N, Fujimoto T and Futaki S (2021)
    An artificial amphiphilic peptide promotes endocytic uptake by inducing membrane curvature, Bioconjug Chem. 31, 1611-1615
11. Minegishi T, Inagaki N (2020)
    Forces to drive neuronal migration steps. Front. Cell Dev. Biol. 8, 863, 2020. (LINK)
12. 嶺岸卓德, 稲垣直之 (2020)
    神経細胞の移動と軸索ガイダンスのメカノバイオロジー-Shootin1によるクラッチ連結が生み出す推進力の発生機構, 実験医学増刊「疾患に挑むメカノバイオロジー」 Vol.38 No.7, 113-120
13. Urasaki A, Morishita S, Naka K, Uozumi M, Abe K, Huang L, Watase E, Nakagawa O, Kawakami K, Matsui Y, Bessho Y, Inagaki N (2019)
    Shootins mediate collective cell migration and organogenesis of the zebrafish posterior lateral line system.
    Sci Rep 9, 12156. (LINK)
14. Huang L, Urasaki A, Inagaki N (2019)
    Rab33a and Rab33ba mediate the outgrowth of forebrain commissural axons in the zebrafish brain. Sci Rep. 9, 1799. (LINK)
15. Masuda T, Baba K, Nomura T, Tsujita K, Murayama T, Itoh T, Takatani-Nakase T, Sokabe M, Inagaki N, Futaki S (2019)
    An influenza-derived membrane tension-modulating peptide regulates cell movement and morphology via actin remodeling. Commun Biol 2:243 .
16. 稲垣直之 (2019)
    Shootin1による細胞-基質間の力の発生を介した神経細胞の細胞移動，極性形成，軸索ガイダンスおよびアクチン波, 生化学 91, 159-168
17. Minegishi T, Uesugi Y, Kaneko N, Yoshida W, Sawamoto K, Inagaki N (2018)
    Shootin1b mediates a mechanical clutch to produce force for neuronal migration. Cell Rep 25, 624-639. (LINK)
18. Baba K, Yoshida W, Toriyama M, Shimada T, Manning C F, Saito M, Kohno K, Trimmer J S, Watanabe R, Inagaki N (2018)
    Gradient-reading and mechano-effector machinery for netrin-1-induced axon guidance. eLife 2018;7:e34593. (LINK)(Faculty of 1000 prime special significance)
19. Abe K, Katsuno H, Toriyama M, Baba K, Mori T, Hakoshima T, Kanemura Y, Watanabe R, Inagaki, N. (2018)
    Grip and slip of L1-CAM on adhesive substrates direct growth cone haptotaxis. Proc Natl Acad Sci USA 115, 2764-2769. (LINK)
20. Inagaki N, Katsuno H (2017)
    Actin Waves: Origin of Cell Polarization and Migration? Trends Cell Biol 27, 515-526. (LINK)
21. 久保祐亮, 浦崎明宏, 稲垣直之 (2017）
    CRMP2, (脳科学辞典(田中啓治, 御子柴克彦 編))
22. Higashiguchi Y, Katsuta K, Minegishi T, Yonemura S, Urasaki A, Inagaki N (2016)
    Identification of a shootin1 isoform expressed in peripheral tissues. Cell Tissue Research 366, 75-87(2016). (LINK)(Get PDF)
23. 勝野弘子, 稲垣直之 (2016)
    神経細胞極性, (脳科学辞典 (林康紀 他編)), DOI：10.14931/bsd.7001
24. Tahara K, Tsukui M, Maeno T, Inagaki N, Kikuchi J (2015)
    Efficient solid-phase gene delivery mediated by cerasome: Effect of reverse procedure on transfection performances in comparison with solution-based method, Chem. Lett. 44, 1643-1645
25. Kubo Y, Baba K, Toriyama M, Minegishi T, Sugiura T, Kozawa S, Ikeda K, Inagaki N (2015)
    Shootin1-cortactin interaction mediates signal-force transduction for axon outgrowth. J Cell Biol 210, 663-676. (LINK)(解説)
26. Katsuno H, Toriyama M, Hosokawa Y, Mizuno K, Ikeda K, Sakumura Y, Inagaki N< (2015)
    Actin migration driven by directional assembly and disassembly of membrane anchored actin filaments. Cell Rep 12, 648-660.(LINK)(解説)(Issue Highlights)
27. 加藤晃一、稲垣直之 (2015)
    離合集散が織りなす生命分子機能 の研究フロンティア、実験医学 33, 1316-1320
28. 馬場健太郎, 浦崎明宏, 稲垣直之 (2014)
    ラージゲルプロテオミクスを基盤とした神経細胞の軸索形成とガイダンスの解析, 電気泳動, 第58巻第2号,49-52(Get PDF)
29. Toriyama M, Kozawa S, Sakumura Y, Inagaki N (2013)
    Conversion of a signal into forces for axon outgrowth through Pak1-mediated shootin1 phosphorylation. Curr Biol 23, 529-534 (LINK)(解説)(Faculty of 1000 special significance)
30. Kozawa S, Sakumura Y, Toriyama M, Inagaki N, Ikeda, K (2013)
    Bayesian Cell Force Estimation Considering Force Directions. Neural Process Lett ,41,191-200, DOI 10.1007/s11063-013-9320-y
31. Tahara K, Moriuchi T, Tsukui M, Hirota A, Maeno T, Toriyama M, Inagaki N, Kikuchi J (2013)
    Ceramic coating of liposomal gene carrier for minimizing toxicity to primary hippocampal neurons, Chem. Lett. 42, 1265-1267
32. 稲垣直之 (2013）
    ニュー ロンの極性化を担う細胞内シグナル経路, 脳の発生学 （宮田卓樹, 山本亘彦 編）, 化学同人, 72-89
33. Nakazawa H, Sada T, Toriyama M, Tago K, Sugiura T, Fukuda M, Inagaki N (2012)
    Rab33a mediates anterograde vesicular transport for membrane exocytosis and axon outgrowth. J Neurosci 32, 12712-12725.(LINK)(解説)
34. 吉田亙, 鳥山道則, 稲垣直之（2012）
    プロテオミクスを基礎にした神経細胞が非対称性を獲得する機構の解析, 生物物理化学 56：31
35. Sakumura Y, Inagaki N (2012）
    Quantitative modeling of neuronal polarization, Technological Advancements in Biomedicine for Healthcare Applications., IGI Global Book , pp354-361
36. Inagaki N, Toriyama M, Sakumura Y (2011)
    Systems biology of symmetry-breaking during neuronal polarity formation. Dev Neurobiol 71, 584-593.(LINK)(Get PDF)
37. Hirano Y, Hatano T, Takahashi A, Toriyama M, Inagaki N, Hakoshima T (2011)
    Structural basis of cargo recognition by the myosin-X MyTH4-FERM domain. EMBO J 30, 2734-2747.
38. Akashi K, Yoshida K, Kuwano M, Kajikawa M, Yoshimura K, Hoshiyasu S, Inagaki N, Yokota A (2011)
    Dynamic changes in the leaf proteome of a C3 xerophyte, Citrullus lanatus (wild watermelon), in response to water deficit, Planta 233, 947
39. 鳥山道則, 作村諭一, 稲垣直之 (2011)
    神経細胞が突起の長さを検知する仕組みと神経細胞の対称性の破れ, 遺伝 65, 80-86
40. Toriyama M, Sakumura Y, Shimada T, Ishii S, Inagaki N (2010)
    A diffusion-based neurite length sensing mechanism involved in neuronal symmetry-breaking. Mol Syst Biol 6, 394.(LINK) (解説)
41. Yamatani H, Kawasaki T, Mita S, Inagaki N, Hirata T (2010)
    Proteomics analysis of temporal changes in axonal proteins during maturation. Dev Neurobiol, Jun;70(7):523-37.
42. 鳥山道則, 稲垣直之 (2010)
    ニューロンにはアクソンは1本しかないのか？, Clinical Neuroscience 28, 113
43. Shimada T, Toriyama M, Uemura K, Kamiguchi H, Sugiura T, Watanabe N, Inagaki N (2008)
    Shootin1 interacts with actin retrograde flow and L1-CAM to promote axon outgrowth. J Cell Biol 181, 817-829.(LINK) (解説)
44. Mori T, Inagaki N, Kamiguchi H (2008)
    Neuronal Process Outgrowth, In Lajtha F.W., Mikoshiba, K. (eds): Handbook of Neurochemistry and Molecular Neurobiology, Springer-Verlag., pp40-44.
45. Mori T, Wada T, Suzuki T, Kubota Y, Inagaki N (2007)
    Singar1, a novel RUN domain-containing protein, suppresses formation of surplus axons for neuronal polarity. J Biol Chem 282, 19884-19893.(LINK) (解説) (Faculty of 1000 Exceptional)
46. Tanii I, Yagura T, Inagaki N, Nakayama T, Imaizumi K, Yoshinaga K (2007)
    Preferential localization of rat GAPDS on the ribs of fibrous sheath of sperm flagellum and its expression during flagellar formation, Acta Histochem. Cytochem. 40, 19-26
47. 稲垣直之, 鳥山道則, 島田忠之 (2007)
    神経極性形成とShootin1のフィードバックループ, 生化学 79, 799-802
48. 稲垣直之, 鳥山道則, 島田忠之 (2007)
    Shootin1による神経細胞の対称性破壊と極性形成, 脳２１ ,10, 107-109
49. Toriyama M, Shimada T, Kim K-B, Mitsuba M, Nomura E, Katsuta K, Sakumura Y, Roepstorff P, Inagaki N (2006)
    Shootin1: a protein involved in the organization of an asymmetric signal for neuronal polarization.
    J Cell Biol 175, 147-157.(LINK) (解説)
50. Katano T, Mabuchi T, Okuda-Ashitaka E, Inagaki N, Kinumi T, Ito S (2006)
    Proteomic identification of a novel isoform of collapsin response mediator protein (CRMP-2) in spinal nerves peripheral to dorsal root ganglia. Proteomics 8, 6085-6094.
51. Oguri T, Inoko A, Shima H, Izawa H, Arimura N., Yamaguchi T, Inagaki N, Kaibuchi K, Kikuchi K, Inagaki M (2006)
    Vimentin-Ser82 as a memory phosphorylation site in astrocytes, Genes to Cells 11, 531-540
52. 稲垣直之 (2005)
    二次元電気泳動法をベースとしたプロテオミクスの高感度化, 遺伝子医学 MOOK 「疾患プロテオミクスの最前線」, 76-81, メディカルドウ
53. Nomura E, Katsuta K, Ueda T, Toriyama M, Mori T, Inagaki N (2004)
    Acid-labile surfactant Improves In-solution dodecyl sulfate polyacrylamide gel protein digestion for matrix-assisted laser desorption/ionization mass spectrometric peptide mapping.
    J Mass Spectrometry 39, 666-672.
54. Inagaki N, Katsuta K (2004)
    Large gel two-dimensional electrophoresis: improving recovery of cellular proteome.
    Curr Proteomics 1, 35-39. (Get PDF)
55. Inagaki N, Katsuta K., Nomura E, Ueda T, Toriyama M, Mori T (2003)
    Electrophorese bidimensionnelle haute resolution sur gel extra large pour la proteomique, BIOforun Europe Edition Francaise 1, 28-29
56. Suzuki Y, Nakagomi S, Namikawa K, Kiryu-Seo S, Inagaki N, Kaibuchi K, Aizawa H, Kikuchi K, Kiyama H (2003)
    Collapsin response mediator protein-2 accelerates axon regeneration of nerve-injured moter neurons of rat. J Neurochem 86, 1042-1050.
57. 勝田和大, 野村英子, 稲垣直之 (2003)
    Multiple Large gel two-dimensional electrophoresis for proteomics, J. Electrophoresis 47, 27-31
58. 稲垣直之（2003）
    ポストシナプス・樹状突起スパインにおけるCaMKIIの空間的シグナリング, 生体の科学 54（2） 90-96
59. 稲垣直之, 稲垣昌樹（2003）
    単一スパインにおけるCaMKII シグナリングの可視化, 神経ネットワークとシナプスダイナミックス, 塩坂貞夫編, 金芳堂, pp103-110
60. Oguri T, Takahata I, Katsuta K, Nomura E, Hidaka M, Inagaki N (2002)
    Proteome analysis of rat hippocampal neurons by multiple large gel two-dimensional electrophoresis. Proteomics 2, 666-672.
61. Fukata Y, Itoh T J, Kimura T, Menager C, Nishimura T, Shiromizu T, Watanabe H, Inagaki N, Iwamatsu A, Hotani H, Kaibuchi K (2002)
    CRMP-2 binds to tubulin heterodimers to promote microtubule assembly. Nature Cell Biol 4, 583-591
62. Inagaki N, Katsuta K, Nomura E, Ueda T, Toriyama M, Mori T (2002)
    High resolution large gel two-dimensional electrophoresis for proteomics. BIOforun Int. 6, 324-325.
63. 稲垣直之,（2002）
    高解像度ラージゲルを用いた二次元電気泳動法による細胞内発現蛋白質の網羅的検出, 実験医学 21（1）, 85-88
64. 稲垣直之,（2002）
    細胞内の空間シグナル, 細胞工学 21 (4) 345
65. Inagaki N, Chihara K, Arimura N, Menager C, Kawano Y, Matsuo N, Nishimura T, Amano M, Kaibuchi K (2001)
    CRMP-2 induces Axons in Cultured Hippocampal Neurons. Nature Neurosci 4, 781-782.
66. Taya S, Inagaki N, Sengiku H, Makino H, Iwamatsu A, Urakawa I, Nagano K, Kataoka S, Kaibuchi K (2001)
    Direct Interaction of Insulin-like growth factor-1 receptor with leukemia-associated RhoGEF. J Cell Biol 155, 809-819.
67. Canossa M, Gartner A, Campana G, Inagaki N, Thoenen H (2001)
    Regulated secretion of neurotrophins by metabotropic glutamate group I (mGluRI)- and Trk-receptor activation is mediated via phospholipase C signaling pathways. EMBO J 20, 1641-1650.
68. 稲垣直之, 貝淵弘三（2001）
    神経細胞の軸索および極性形成の分子機構, 生体の科学 52（3), 230- 234
69. 稲垣直之, 貝淵弘三（2001）
    CRMP-2は海馬神経細胞の軸索形成を誘導する, 細胞工学 20 (10), 1408-1409
70. 有村奈利子、稲垣直之, 貝淵弘三（2001）
    CRMP-2 による神経極性形成の制御機構, 実験医学 19, 2309-2311
71. 深田優子、稲垣直之, 貝淵弘三（2001）
    神経細胞の極性：神経軸索と樹状突起の運命決定, 細胞工学 20, 520-529
72. Inagaki N, Nishizawa M, Arimura N, Yamamoto H, Takeuchi Y, Miyamoto E, Kaibuchi K, Inagaki M (2000)
    Activation of Ca2+/calmodulin-dependent Protein Kinase II within Post-synaptic Dendritic Spines of Cultured Hippocampal Neurons. J Biol Chem 275, 27165-27171. (LINK)
73. Arimura N, Inagaki N, Chihara K, Menager C, Nakamura N, Amano M, Iwamatsu A, Goshima Y, Kaibuchi K (2000)
    Phosphorylation of Collapsin Response Mediator Protein-2 by Rho-kinase: Evidence for Two Separate Signaling Pathways for Growth Cone Collapse. J Biol Chem 275, 23973-23980.
74. Ming G-i, Song H-j, Berninger B, Inagaki N, Tessier-Lavine M, Poo M-m (1999)
    Phospholipase C-g and phosinositide 3-kinase mediate cytoplasmic signaling in nerve growth cone guidance. Neuron 23, 139-148.
75. 稲垣直之, 貝淵弘三（1999）
    RhoファミリーGTPaseによる神経成長円錐と軸索ガイダンスの調節, 脳・神経科学の最前線 実験医学 17, 2093-2096.
76. Zirrgiebel U, Ohga Y, Carter B, Berninger B, Inagaki N, Thoenen H, Lindholm D (1995)
    Characterization of TrkB receptor-mediated signaling pathways in rat cerebellar granule neurons: involvement of protein kinase C in neuronal survival. J. Neurochem 65, 2241-2250.
77. Inagaki N, Thoenen H, Lindholm D (1995)
    TrkA tyrosine residues involved in NGF-induced neurite outgrowth of PC12 cells. Eur. J. Neurosci 7, 1125-1133.
78. Berninger B, Garcia D.E, Inagaki N, Hahnel C, Lindholm D (1993)
    BDNF and NT-3 induce intracellular Ca2+ elevation in hippocampal neurons. NeuroReport 4, 1303-1306.

シグナル伝達による細胞骨格の制御に関連する研究（1994-1998）

79. Yasui Y, Amano M, Nagata K -i, Inagaki N, Nakamura H Saya H, Kaibuchi K, Inagaki M (1998)
    Roles of Rho-associated kinase in cytokinesis; mutations in Rho-associated kinase phosphorylation sites impair cytokinetic segregation of glial filaments, J. Cell Biol. 143, 1249-1258
80. Kamei Y, Inagaki N, Nishizawa M, Tsutsumi O, Taketani Y, Inagaki M (1998)
    Visualization of mitotic radila glial lineage cells in the developing rat brain by cdc2 kinase-phosphorylated vimentin, Glia 23, 191-199
81. Matsuzawa K, Kosako H, Azuma I, Inagaki N, Inagaki M (1998)
    Possible regulation of intermediate filament proteins by Rho-binding kinases, Subcell. Biochem. 31, 423-435
82. Inagaki M, Inagaki N, Takahashi T, Takai Y (1997)
    Phosphorylation-dependent control of intermediate filament structure: a novel approach using site- and phosphorylation state-specific antibodies, J. Biochem. 121, 407-414
83. Inagaki N, Goto H, Ogawara M, Nishi Y, Ando S, and Inagaki M (1997)
    Spatial patterns of Ca2+ signals define intracellular distribution of a signaling by Ca2+/calmodulin-dependent protein kinase II, J. Biol. Chem. 272, 25195-25199
84. Inagaki N, Nishizawa M, Ito M, Fujioka M, Nakano T, Tsujino S, Matsuzawa K, Kimura K, Kaibuchi K, Inagaki M (1997)
    Miosin binding subunit of smooth muscle myosin phosphatase at the cell-cell adhesion sites in MDCK cells, Biochem. Biophys. Res. Commun. 230, 552-556
85. Takizawa N, Mizuno Y, Komatsu M, Matsuzawa S-I, Kawamura T, Kawamura T, Inagaki N, Inagaki M, and Kikuchi K (1997)
    Alterations in type-1 serine/threonine protein phosphatase PP1a in response to B-cell receptor stimulation, J. Biochem. 122, 730-737
86. Ito M, Feng J, Tsujino S, Inagaki N, Inagaki M, Tanaka J, Ichikawa T, Hartshorne DJ and Nakano T (1997)
    Interaction of smooth muscle myosin phosphatase with phospholipids, Biochemistry 36, 7607-7614
87. Matsuzawa K, Kosako H, Inagaki N, Shibata H, Mukai Y, Ono Y, Amano M, Kaibuchi K, Matsuura I, Azuma I, Inagaki M (1997)
    Domain-specific phosphorylation of vimentin and glial fibrillary acidic protein by PKN, Biochem. Biophys. Res. Commun. 234, 621-625
88. Meijer L, Borgne A, Mulner O, Chong JPJ, Blow JJ, Inagaki N, Inagaki M, Delcros J-G, Moulinoux J-P (1997)
    Biochemical and cellular effects of roscovitine, a potent and selective inhibitor of the cyclin-dependent kinases cdc2, cdk2 and cdk5, Eur. J. Biochem. 243, 527-536
89. Sekimata M, Tsujimura K, Tanaka J, Takeuchi Y, Inagaki N, Inagaki M (1996)
    Detection of protein kinase activity specifically activated at metaphase-anaphase transition, J. Cell Biol. 132, 635-641
90. Tsujino S, Sekimata M, Inagaki N, Kamei Y, Higashihara M, Kurokawa K, Imajoh-Ohmi S, Inagaki M (1996)
    Primary structure of light and heavy chain variable regions of antibodies recognizing phosphorylated vimentins, Biochem. Biophys. Res. Commun. 129, 633-637
91. Takai Y, Inagaki N, Tsutsumi O, Inagaki M (1996)
    Visualization and regulation of intermediate filament kinase activities, Sem. Cell Dev. Biol. 7, 741-749
92. Inagaki N, Tsujimura K, Tanaka J, Sekimata M, Kamei Y, Inagaki M (1996)
    Visualization of protein kinase activities in single cells by antibodies against phosphorylated vimentin and GFAP, Neurochem. Res. 21, 795-800
93. Inagaki M, Matsuoka Y, Tsujimura K, Ando S, Tokui T, Takahashi T, Inagaki N (1996)
    Dynamic property of intermediate filaments: regulation by phosphorylation, BioEssays 18, 481-487
94. Ogawara M, Inagaki N# (#Equal contribution), Tsujimura K, Takai Y, Sekimata M, Ha M H, Imajoh-Ohmi S, Hirai S, Ohno S, Sugiura H, Yamauchi T, Inagaki M (1995)
    Differential targeting of protein kinase C and CaM kinase II signalings to vimentin, J. Cell Biol. 131, 1055-1066
95. 稲垣直之、稲垣昌樹 (1995)
    キナーゼ活性の細胞内ターゲティングとトポロジー, 実験医学 13,628-632
96. Inagaki N, Ito M, Nakano T, Inagaki M (1994)
    Spatiotemporal distribution of protein kinase and phosphatase activities, Trends Biochem. Sci. 19, 448-452
97. Inagaki M, Nakamura Y, Takeda M., Nishimura T, Inagaki N (1994)
    Glial fibrillary acidic protein: dynamic property and regulation by phosphorylation, Brain Pathology 4, 239-243

グリア細胞のシグナル伝達に関連する研究（1989-1996）

98. 福井裕行、稲垣直之 (1996)
    単一細胞におけるカルシウム測定法:培養グリア細胞, 実験医学別冊 、細胞内カルシウム実験プロトコール、pp136-143
99. Inagaki N, Wada H (1994)
    Histamine and prostanoid receptors on glial cells, Glia 11, 102-109
100. Kondou H, Inagaki N, Fukui H (1994)
     Formation of inositol phosphates mediated by M3 muscarinic receptors in type-1 and type-2 astrocytes from neonatal rat cerebral cortex, Neurosci. Lett. 180, 131-134 (1994)
101. Ito S, Sugama K, Inagaki N (1992)
     Fukui H, Giles H, Wada H, Hayaishi O, Type-1 and type-2 astrocytes are distinct targets for prostaglandines D2, E2, and F2 alpha , Glia 6, 67-74 (1992)
102. Inagaki N, Fukui H, Ito S, Yamatodani A, Wada H (1991)
     Single type-2 astrocytes show multiple independent sites of Ca2+ signaling in response to histamine, Proc. Natl. Acad. Sci. USA 88, 4215-4219
103. Inagaki N, Fukui H, Ito S, and Wada H (1991)
     Type-2 astrocytes show intracellular Ca2+ elevation in response to various neuroactive substances, Neurosci. Lett. 128, 257-260
104. Kondou H, Inagaki N Fukui H, Koyama Y, Kanamura A, Wada H (1991)
     Histamine-induced inositol phosphate accumulation in type-2 astrocytes, Biochem. Biophys. Res. Comm. 177, 734-748
105. Kubo A, Fukui H, Inagaki N, Kanamura A, Wada H (1991)
     Histamine-induced cyclic AMP accumulation in type-1 and type-2 astrocytes in primary culture, Eur. J. Pharmacol. 208, 249-253
106. Fukui H, Inagaki N, Ito S, Kubo A, Kondoh H, Yamatodani A, Wada H (1991)
     Histamine H1-receptors on astrocytes in primary culture: a possible target for histaminergic neurons. In Timmerman, H., and van der Goot (eds) New Perspectives in Histamine Research, Birkhauser, Basel, pp161-180
107. Inagaki N, Fukui H, Taguchi Y, Wang NP, Yamatodani A, Wada H (1989)
     Characterization of histamine H1-receptors on astrocytes in primary culture: [3H]mepyramine binding studies, Eur. J. Pharmacol. 173, 43-51

脳内ヒスタミン神経系に関連する研究（1987-1993）

108. Panula P, Takagi H, Inagaki N, Yamatodani A, Tohyama M, Wada H, Kolitainen E (1993)
     Histamine-containing nerve fibers innervate human cerebellum, Neurosci. Lett. 160, 53-56
109. Mochizuki T, Yamatodani A, Okakura K, Horii A, Inagaki N, and Wada H (1992)
     Circadian rhythm of histamine release from the hypothalamus of freely moving rats, Physiol. Behave. 51,391-394
110. Miki H, Inagaki N, Yamatodani A, Wada H (1992)
     Regional distribution of histamine in the brain of non-mammalian vertebrates, Brain Res. 571, 129-132
111. Inagaki N, Yamatodani A, Fukui H, Wada H (1992)
     Structure of monoaminergic neuron systems in the brain., J. Nutr. Sci. Vitaminol. (Tokyo) Spec. No. 569.72
112. 和田博、稲垣直之 (1992)
     脳内ヒスタミン神経系, 代謝 29: 99-107(1992)
113. Inagaki N, Panula P, Yamatodani A, Wada, H (1991)
     Organization of the histaminergic system in the brain of the teleost, Trachurus trachurus, J. Comp. Neurol. 310, 94-102
114. Mochizuki T, Yamatodani A, Okakura K, Takemura M, Inagaki N, and Wada H (1991)
     In vivo release of neuronal histamine in the hypothalamus of rats measured by microdialysis, Naunyn-Schmiedeberg's Arch Pharmacol. 343, 190-195
115. Wada H, Inagaki N, Yamatodani A, Watanabe T (1991)
     Is the histaminergic neuron system a regulatory center for whole brain activity?, Trends Neurosci. 14, 415-418
116. Wada H, Inagaki N, Itowi N, Yamatodani A (1991)
     Histaminergic neuron system in the brain: distribution and possible functions, Brain Res. Bull. 27, 367-370
117. Tohyama M, Tamiya R, Inagaki N, Takagi H (1991)
     Morphology of histaminergic neurons with histidine decarboxylase as a marker., In Watanabe, T. and Wada, H (eds) Histaminergic Neurons: Morphology and Function, CRC press, Boca Raton, pp107-126
118. Wada H, Inagaki N, Itowi N, Yamatodani A (1991)
     Histaminergic neuron system: morphological features and possible functions., In Timmerman, H., and van der Goot(eds) New Perspectives in Histamine Research, Birkhauser, Basel, pp12-27
119. Yamatodani A, Inagaki N, Panula P, Itowi N, Watanabe Y, Wada, H (1991)
     Structure and functions of the histaminergic neurone system., In Uvnas, B. (ed) Hanbook of Experimental Pharmacology, Vol. 97, Springer-Verlag, Berlin, pp243-283
120. Inagaki N, Panula P, Yamatodani A, Wada H (1990)
     Organization of the histaminergic system in the brain of the turtle, Chinemys reevesii, J. Comp. Neurol. 297, 132-144
121. Inagaki N, Toda K, Taniuchi I, Panula P, Yamatodani A, Tohyama M, Watanabe T, Wada H (1990)
     An analysis of histaminergic efferents of the tuberomammillary nucleus to the medial preoptic area and inferior colliculus of the rat, Exp. Brain Res. 80, 374-380
122. 稲垣直之、大和谷厚、和田博 (1989)
     脳内ヒスタミン神経系：その形態と機能, 内因性神経活性物質（吉田博 編） 中外医学社、pp279-281
123. 稲垣直之、福井裕行、和田博 (1989)
     脳内セロトニン神経系の分布, 代謝 26, 目で見るページ299
124. Inagaki N, Yamatodani A, Shinoda K, Panula P, Watanabe T, Shiotani Y, Wada H (1988)
     Histaminergic nerve fibers in the median eminence and hypophysis of rats demonstrated immunocytochemically with antibodies against histidine decarboxylase and histamine, Brain Res. 439, 402-405
125. Inagaki N, Yamatodani A, Ando-Yamamoto M, Tohyama M, Watanabe T, Wada H (1988)
     Organization of histaminergic fibers in the rat brain, J. Comp. Neurol. 273, 283-300
126. Wada H., Yamatodani A, Inagaki N, Itowi, Wang NP, Hukui H (1988)
     Histaminergic neuron system and its function., In Kito, S., Segawa, K., Kyriyama, K., Tohyama, M., and Olson R.W.(eds.) Neuroreceptors and Signal Transduction, Plenum, pp343-357
127. Inagaki N, Yamatodani A, Shinoda K, Shiotani Y, Tohyama M, Watanabe T, Wada H (1987)
     The histaminergic innervation of the mesencephalic nucleus of the trigeminal nerve in rat brain: a light and electron microscopical study, Brain Res. 418, 388-391

グルタミン作動性神経系に関連する研究（1985-1987）

128. Inagaki N, Kamisaki Y, Kiyama H, Horio Y, Tohyama M, Wada H (1987)
     Immunocytochemical localizations of cytosolic and mitochondrial glutamic oxaloacetic transaminase isozymes in rat primary sensory neurons as a marker for the glutaminergic neuronal system, Brain Res. 402,197-220
129. Tohyama, M, Kiyama, H, Kumoi-Katayama, Y, Inagaki N, Ando-Yamamoto M, Kamisaki Y, Watanabe T, and Wada H (1987)
     Neuromodulators in the retina: an immunocytochemical analysis, Neurosci. Res. 6, 305-226
130. Inagaki N, Kamisaki Y, Kiyama H, Horio Y, Tohyama M, Wada H (1985)
     Immunocytochemical localizations of cytosolic and mitochondrial glutamic oxaloacetictransaminase isozymes in rat retina as markers for the glutamate-aspartate neuronal system, Brain Res. 325, 336-339