原著論文・総説

2021年

Ito M, Kinjo T, Seki T, Horie J, Suzuki T.

The long-term prognosis of hippocampal neurogenesis and behavioral changes of offspring from rats exposed to valproic acid during pregnancy. 

Neuropsychopharmacol Rep. 2021, 41:260-264. DOI: 10.1002/npr2.12181

 

2020年

Seki T. Understanding the real state of human adult hippocampal neurogenesis from studies of rodents and non-human primates.

Front. Neurosci. 2020, 14: 839. doi: 10.3389/fnins.2020.00839

 

Sasaki-Takahashi N, Shinohara H, Shioda S, Seki T. 

The polarity and properties of radial glia-like neural stem cells are altered by seizures with status epilepticus: Study using an improved mouse pilocarpine model of epilepsy.

Hippocampus. 2020, 30: 250-262. doi: 10.1002/hipo.23153. Epub 2019 Sep 5. 

Gonda Y, Namba T, Hanashima C.

Beyond Axon Guidance: Roles of Slit-Robo Signaling in Neocortical Formation.

Front Cell Dev Biol. 2020, 8: 607415. doi: 10.3389/fcell.2020.607415.

 

2019年

Seki T, Hori T, Miyata H, Maehara M, Namba T

Analysis of proliferating neuronal progenitors and immature neurons in the human hippocampus surgically removed from control and epileptic patients.

Scientific Reports. 2019, 9: 18194 

doi:10.1038/s41598-019-54684-z

 

Namba T, Shinohara H, Seki T. 

Non-radial tortuous migration with cell polarity alterations of newly generated granule neurons in the neonatal rat dentate gyrus.

Brain Structure & Function. 2019,224: 3247-3262.

https://link.springer.com/article/10.1007%2Fs00429-019-01971-0.

  

Kinjo T, Ito M, Seki T, Fukuhara T, Bolati K, Arai H, Suzuki T.

Prenatal exposure to valproic acid is associated with altered neurocognitive function and neurogenesis in the dentate gyrus of male offspring rats.

Brain Research. 2019, 1723: 146403.

 

Kikkawa T, Casingal CR, Chun SH, Shinohara H, Hiraoka K, Osumi N.

The role of Pax6 in brain development and its impact on pathogenesis of autism spectrum disorder.

Brain Research. 2019, 1705:95-103.

2018年

Matsue K, Minakawa S, Kashiwagi, Toda K, Sato T, Shioda S, Seki T 

Dentate granule progenitor cell properties are rapidly altered soon after birth. 

Brain Structure and Function. 2018, 223(1): 357-369.

2017年

Miura-Yamamoto Y, Shinohara H, Kashiwagi T, Sato T, Shioda S, Seki T.

Dynamics and function of CXCR4 in formation of the granule cell layer during hippocampal development. Scientific Reports. 2017, 75647

 

Uemori T, Toda K, Seki T

Seizure severity-dependent selective vulnerability of the granule cell layer and aberrant neurogenesis in the rat hippocampus.

Hippocampus, 2017, 27(10): 1054-1068.

2016年

Yamaguchi M, Seki T, Imayoshi I, Tamamaki N, Hayashi Y, Tatebayashi Y, Hitoshi S.

Neural stem cells and neuro/gliogenesis in the central nervous system: understanding the structural and functional plasticity of the developing, mature, and diseased brain.

J Physiol Sci. 2016, 66: 197-206

2014年

Seki T, Sato T, Toda K, Osumi N, Imura T, Shioda S.

Distinctive population of Gfap-expressing neural progenitors arising around the dentate notch migrate and form the granule cell layer in the developing hippocampus.

J Comp Neurol. 2014 Feb 1;522(2):261-83

 

Yeh ML, Gonda Y, Mommersteeg MT, Barber M, Ypsilanti AR, Hanashima C, Parnavelas JG, Andrews WD.

Robo1 modulates proliferation and neurogenesis in the developing neocortex.

J Neurosci. 2014 Apr 16;34(16):5717-31.

2013年

Shinohara H, Sakayori N,Takahashi M, Osumi N.

Ninein is essential for the maintenance of the cortical progenitor character by anchoring the centrosome to microtubules.

Biology Open. 2013 Jun 10;2(7):739-49.

 

Gonda Y, Andrews WD, Tabata H, Namba T, Parnavelas JG, Nakajima K, Kohsaka S, Hanashima C, Uchino S.

Robo1 regulates the migration and laminar distribution of upper-layer pyramidal neurons of the cerebral cortex.

Cereb Cortex. 2013 Jun;23(6):1495-508.

 

Christou YA, Ohyama K, Placzek M, Monk PN, Shaw PJ.

Liu F, Pogoda HM, Pearson CA, Ohyama K, Löhr H, Hammerschmidt M, Placzek M.

Direct and indirect roles of Fgf3 and Fgf10 in innervation and vascularisation of the vertebrate hypothalamic neurohypophysis.

Development. 2013 Mar;140(5):1111-22.


2011年

Namba T, Mochizuki H, Suzuki R, Onodera M, Yamaguchi M, Namiki H, Shioda S, *Seki T.

Time-lapse imaging reveals symmetric neurogenic cell division of GFAP-expressing progenitors for expansion of postnatal dentate granule neurons.

PLoS One. 2011 Sep;6(9):e25303.

 
Seki T.

From embryonic to adult neurogenesis in the dentate gyrus.

In: "Neurogenesis in the adult brain I, Neurobiology" (eds, Seki T, Sawamoto K, Parent J, Alvarez-Buylla A) p193-216, Springer.

  

Sugimoto Y, Kamada Y, Tokunaga Y, Shinohara H, Matsumoto M, Kusakabe T, Ohkuri T, Ueda T.
Biochemistry and Cell Biology  2011 Dec;89(6) 533-544
   

Pearson CA, Ohyama K, Manning L, Aghamohammadzadeh S, Sang H, Placzek M.

FGF-dependent midline-derived progenitor cells in hypothalamic infundibular development.

Development. 2011 Jun;138(12):2613-24.

 

Xenaki D, Martin IB, Yoshida L, Ohyama K, Gebbarini G, Grumet M, Sakurai T, Furley AJ.

F3/contactin and TAG1 play antagonistic roles in the regulation of sonic hedgehog-induced cerebellar granule neuron progenitor proliferation.

Development. 2011 Feb;138(3):519-29.

2010年

Liu Y, Namba T, Liu J, Suzuki R, Shioda S, *Seki T.

Glial fibrillary acidic protein-expressing neural progenitors give rise to immature neurons via early intermediate progenitors expressing both glial fibrillary acidic protein and neuronal markers in the adult hippocampus.

Neuroscience. 2010 Mar 10;166(1):241-51.

 

Ito M, Seki T, Liu J, Nakamura K, Namba T, Matsubara Y, Suzuki T, Arai H.

Effects of repeated electroconvulsive seizure on cell proliferation in the rat hippocampus.

Synapse. 2010 Nov; 64:814-821.


Saotome K, Isomura T, Seki T, Nakamura Y, Nakamura M.

Structural changes in gonadal basement membranes during sex differentiation in the frog Rana rugosa.

J Exp Zool 2010 Jul; 313(6): 369-380.

2009年以前の主要なAdult neurogenesisに関する論文・総説

Burgess A, Wainwright S, Shihabuddin LS, Rutishauser U, *Seki T, *Aubert I. 

Polysialic acid regulates the clustering, migration and neuronal differentiation of progenitor cells in the adult hippcampus.

Develop Neurobiolo 2008; 68:1580-1590.

 

Seki T, Namba T, Mochizuki H, Onodera M.

Clustering, migration and neurite formation of neural precursor cells in the adult rat hippocampus.

J Comp Neurol 2007; 502: 275-290.

 

Seki T.

Adult neurogenesis in the hippocampus.

In: "New frontiers in regenerative medicine" (eds. Kusano M and Shioda S) Springer, 2007; pp113-120.

 

Namba T, Mochizuki H, Onodera M, Namiki H, *Seki T.

Postnatal neurogenesis in hippocampal slice cultures: early in vitro labeling of neural pecursor cells leads to efficient neuronal production.

J Neurosci Res. 2007; 85: 1704-1712.

 

Namba T, Mochizuki H, Onodera M, Mizuno Y, Namiki H, *Seki T.

The fate of neural progenitor cells expressing astrocytic and radial glial markers in the postnatal rat dentate gyrus.

Eur J Neurosci. 2005; 22: 1928-1941.

 

Seki T.

Polysialic acid-expressing cells in adult neurogenesis.

Trends Glycosci Glycotech. 2004;16: 319-330.

 

Seki T.

Microenvironmental elements supporting adult hippocampal neurogenesis.

Anat Sci Int. 2003; 78:69-78.

 

Seki T. 

Expression patterns of immature neuronal markers (PSA-NCAM, CRMP-4 and NeuroD) in the hippocampus of young adult and aged rodents.

J Neurosci Res. 2002; 70: 327-334

 

Seki T.

Hippocampal adult neurogenesis occurs in a microenvironment provided by PSA-NCAM-expressing immature neurons.

J Neurosci Res. 2002; 69: 772-783.

 

Seki T, Arai Y.

Different PSA-NCAM expression patters in distinct types of mossy fiber boutons in the adult hippocampus.

J Comp Neurol. 1999; 510: 115-125.

 

Seki T, Arai Y.

The temporal and spacial relationship between PSA-NCAM-expressing newly generated granule cells and radial glia-like cells in the adult dentate gyrus.

J Comp Neurol. 1999; 510: 503-513.

 

Seki T, Rutishauser U.

Removal of polysialic acid-neural cell adhesion molecule induces aberrant mossy fiber innervation and ectopic synaptogenesis in the hippocampus.

J Neurosci. 1998; 18: 3757-3766.

 

Seki T, Arai Y.

Age-related production of new granule cells in the adult dentate gyrus.

Neuroreport 1995; 6: 2479-2482.

 

Seki T, Arai Y.

Highly polysialylated NCAM expression in the developing and adult rat spinal cord.

Brain Res Dev Brain Res. 1993; 73: 141-145

 

Seki T, Arai Y.

Distribution and possible roles of the highly polysialylated neural cell adhesion molecule (NCAM-H) in the developing and adult central nervous system.

Neurosci Res. 1993; 17: 265-290. 

 

Seki T, Arai Y.

Highly polysialylated neural cell adhesion molecule (NCAM) is expressed by newly generated granule cells in the dentate gyrus of the adult rat.

J. Neurosci. 1993; 13: 2351-2358.

 

Seki T, Arai Y.

Expression of highly polysialylated NCAM in the neocortex and piriform cortex of the developing and adult rat.

Anat Embryol. 1991; 184: 395-401.

 

Seki T, Arai Y.

The persistent expression of a highly polysialylated NCAM in the dentate gyrus of the adult rat.

Neurosci Res. 1991; 12: 503-513.

 

日本語の総説・その他

石龍徳(2020)

海馬の顆粒細胞の発生ーその発生は胎生〜成体期まで続く

Clinical Neuroscience 38: 1523-1525

 

篠原広志 (2019)

1次繊毛形成の正常化はダウン症候群の治療標的に成り得るか?

ファルマシア(日本薬学会誌)55(7): 703

 

石龍徳(2013)

成体海馬におけるニューロン新生.

Clinical Neuroscience 31: 1389-1391  

 

石龍徳(2011)

成体海馬のニューロン新生:そのルーツを探る.

東京医科大学雑誌 69: 433-449

 

石龍徳(2010)

ニューロン新生の分子マーカー 

Clinical Neuroscience 28: 1344-1347

  

篠原広志, 大隅典子(2010)
脳の発生・発達における神経幹細胞
Biophilia 季刊ビオフィリア   6(1): 20-24


石龍徳(2009)

成体脳でのニューロン新生の発見者 ジョセフ・アルトマン. 

ミクロスコピア 26 (3): 26-28

 

石龍徳(2008)

神経細胞の新生の現場をおさえる. (1)海馬の果粒細胞の観察から. 

ミクロスコピア 25 (2): 19-25.

 

石龍徳(2008)

神経細胞の新生の現場をおさえる. (2)ネズミからヒトの研究へ. 

ミクロスコピア 25 (3): 20-25.

石龍徳(2008)

神経細胞の新生の現場をおさえる. (3)グリアがニューロンになる話. 

ミクロスコピア 25 (4): 35-40.

 

原芳伸, 篠原広志, 大隅典子 (2007) 
ニューロン新生におけるPax6の機能. 
実験医学   25(19): 2972-2978.
 
石龍徳, 難波隆志 (2007)
成体海馬におけるニューロン新生と神経回路形成.
分子精神医学 7:111-121 
 
石龍徳, 堀智勝(2006)
側頭葉てんかんに海馬のニューロン新生は関与するのか?—てんかん患者とてんかんモデルラットの比較.

医学の歩み 219:797-798

    

石龍徳(2005)

海馬:成体の脳でもニューロンが新しく生まれている例外的な場所.

Priming BioMedicine 2: 11-22

 

石龍徳(2003)

海馬苔状線維のシナプス形成は一生つづくのか?―成体海馬のニューロン新生と一過性苔状線維側枝形成の問題―。

脳の科学25:875-883.

 

石龍徳(2002)

大人の脳でもニューロンは新生する:成体の海馬で新生するニューロンは学習や情動と関係しているのだろうか?所収:情と意の脳科学―人とは何か?(松本元・小野武年編集)培風館,東京.

 

石龍徳 (2002)

成体海馬におけるニューロン新生.

神経研究の進歩 46: 221-236.

 

 

石龍徳 (1999)

成体海馬で起こる神経細胞の新生と神経回路形成:神経接着分子(NCAM)の糖鎖ポリシアル酸(PSA)を中心とした解析.

解剖学雑誌 74: 335-349.