Updated on 2025/11/10

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写真a

 
Akihito Takeda
 
Organization
Graduate School of Medicine Department of Medicine Department of Neuroanatomy Assistant Professor
School of Medicine Medical Course
Title
Assistant Professor
Homepage
http://www-user.yokohama-cu.ac.jp/~neuroana/
Profile
哺乳類においては損傷した中枢神経系の再生が難しい一方、魚類では高い再生能力のあることが知られています。私はキンギョの脊髄切断モデルを用い、再生過程を組織学的に調査することでその機構の一端を明らかにしてきました。将来的には魚と哺乳類を比較して逆に再生が起きない理由を探り、脊髄損傷の治療に繋がる知見を得ることが目標です。
External link

Degree

  • 博士(医学) ( 横浜市立大学 )

Research Interests

  • 組織学

  • 神経再生

  • 脊髄損傷

  • 魚類

Research Areas

  • Life Science / Anatomy and histopathology of nervous system

  • Life Science / Anatomy

Papers

  • Involvement of vimentin- and BLBP-positive glial cells and their MMP expression in axonal regeneration after spinal cord transection in goldfish. International journal

    Akihito Takeda, Minami Teshima, Kengo Funakoshi

    Cell and tissue research   2024.8

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    Language:English   Publishing type:Research paper (scientific journal)  

    In goldfish, spinal cord injury triggers the formation of a fibrous scar at the injury site. Regenerating axons are able to penetrate the scar tissue, resulting in the recovery of motor function. Previous findings suggested that regenerating axons enter the scar through tubular structures surrounded by glial elements with laminin-positive basement membranes and that glial processes expressing glial fibrillary acidic protein (GFAP) are associated with axonal regeneration. How glia contribute to promoting axonal regeneration, however, is unknown. Here, we revealed that glial processes expressing vimentin or brain lipid-binding protein (BLBP) also enter the fibrous scar after spinal cord injury in goldfish. Vimentin-positive glial processes were more numerous than GFAP- or BLBP-positive glial processes in the scar tissue. Regenerating axons in the scar tissue were more closely associated with vimentin-positive glial processes than GFAP-positive glial processes. Vimentin-positive glial processes co-expressed matrix metalloproteinase (MMP)-14. Our findings suggest that vimentin-positive glial processes closely associate with regenerating axons through tubular structures entering the scar after spinal cord injury in goldfish. In intact spinal cord, ependymo-radial glial cell bodies express BLBP and their radial processes express vimentin, suggesting that vimentin-positive glial processes derive from migrating ependymo-radial glial cells. MMP-14 expressed in vimentin-positive glial cells and their processes might provide a beneficial environment for axonal regeneration.

    DOI: 10.1007/s00441-024-03907-5

    PubMed

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  • Innervation and osteoclast distribution in the inferior pharyngeal jaw of the cichlid Nile tilapia (<i>Oreochromis niloticus</i>)

    Kosuke Imura, Akihito Takeda, Masato Endo, Kengo Funakoshi

    The Anatomical Record   2024.1

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    Publishing type:Research paper (scientific journal)   Publisher:Wiley  

    Abstract

    In addition to an oral jaw, cichlids have a pharyngeal jaw, which is used for crushing and processing captured prey. The teeth and morphology of the pharyngeal jaw bones adapt to changes in prey in response to changes in the growing environment. This study aimed to explore the possible involvement of the peripheral nervous system in remodeling the cichlid pharyngeal jaw by examining the innervation of the inferior pharyngeal jaw in the Nile tilapia, Oreochromis niloticus. Vagal innervation was identified in the Nile tilapia inferior pharyngeal jaw. Double staining with tartrate‐resistant acid phosphatase and immunostaining with the neuronal markers, protein gene product 9.5, and acetylated tubulin, revealed that osteoclasts, which play an important role in remodeling, were distributed in the vicinity of the nerves and were in apposition with the nerve terminals. This contact between peripheral nerves and osteoclasts suggests that the peripheral nervous system may play a role in remodeling the inferior pharyngeal jaw in cichlids.

    DOI: 10.1002/ar.25381

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  • Distribution of 5HT Receptors During the Regeneration Process After Spinal Cord Transection in Goldfish. International journal

    Akihito Takeda, Mao Fujita, Kengo Funakoshi

    Journal of chemical neuroanatomy   102281 - 102281   2023.4

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    Language:English   Publishing type:Research paper (scientific journal)  

    Spinal cord injury in teleosts leads to a fibrous scar, but axons sometimes spontaneously regenerate beyond the scar. In goldfish, regenerating axons enter the scar through tubular structures and enlargement of the tubular diameter is proportional to the increase in the number of regenerating axons. During the regeneration process, mast cells containing 5-hydroxytryptamine (5HT) are recruited to the injury site, and 5HT neurons are newly generated. Here, we investigated the distribution of 5HT receptors during this process to determine their role in remodeling the fibrous scar and tubular structures. At 2 weeks after spinal cord transection (SCT) in goldfish, expression of the 5HT2A and 5HT2C receptor subtypes was observed in the ependymo-radial glial cells lining the central canal of the spinal cord. 5HT2A was expressed at the luminal surface, suggesting that it is receptive to 5HT in the cerebrospinal fluid. 5HT2C, on the other hand, was expressed around the nuclei and in the radial processes protruding from the basal surface, suggesting that it is receptive to 5HT released from nearby nerve endings. 5HT2C was also expressed in the fibrous scar where mast cells containing 5HT were abundant. 5HT1B expression was coincident with the basement membrane bordering the fibrous scar and the surrounding nervous tissue, and with the basement membrane of the tubular structure through which axons pass during regeneration. Our findings suggest that multiple 5HT receptors are involved in remodeling the injured site during the regenerative process following SCT. Ependymo-radial glial cells expressing 5HT2A and 5HT2C are involved in neurogenesis and gliogenesis, which might contribute to remodeling the fibrous scar in coordination with 5HT-containing mast cells. Coincident expression of 5HT1B with the basement membrane might be involved in remodeling the tubular structures, thereby promoting axonal regeneration.

    DOI: 10.1016/j.jchemneu.2023.102281

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  • Expression of matrix metalloproteinases during axonal regeneration in the goldfish spinal cord. International journal

    Akihito Takeda, Ami Kanemura, Kengo Funakoshi

    Journal of chemical neuroanatomy   118   102041 - 102041   2021.12

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    Language:English   Publishing type:Research paper (scientific journal)  

    Spinal cord injury in fish produces fibrous scar, but spontaneous axonal regeneration beyond the scar sometimes occurs. A previous study revealed that regenerating axons enter the scar through tubular structures with laminin, and that an increased number of axons within the tube is coincident with enlargement of the tube diameter and reduction of the fibrous scar area. The present study investigated the expression of matrix metalloproteinases (MMPs) that might play a role in the degradation of the extracellular matrix in fibrous scar tissue and in the remodeling of tubular structures. Spinal hemisection produced fibrous scar tissue in the lesion center, surrounded by nervous tissue. Two weeks after spinal lesioning, MMP-9 was expressed in some regenerating axons in the fibrous scar tissue. MMP-14 was expressed in the regenerating axons, as well as in glial processes in the fibrous scar tissue. MMP-2 was suggested to be expressed in mast cells in the fibrous scar. The mast cells were in contact with fibroblasts, and in close proximity to the basement membrane of tubular structures surrounding the regenerating axons. The present findings suggest that several MMPs are involved in axon regenerating processes following spinal cord injury in goldfish. MMP-9 and MMP-14 expressed in the regenerating axons might degrade extracellular matrix and support axonal growth deep into the fibrous scar tissue. MMP-14 expressed in glial cells and MMP-2 expressed in mast cells might also provide a beneficial environment for axonal regeneration, leading to successful motor recovery.

    DOI: 10.1016/j.jchemneu.2021.102041

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  • Chondroitin sulfate expression in perineuronal nets after goldfish spinal cord lesion Invited Reviewed

    Akihito Takeda, Masashige Shuto, Kengo Funakoshi

    Frontiers in Cellular Neuroscience   12   2018.3

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media S.A.  

    DOI: 10.3389/fncel.2018.00063

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  • Chondroitin sulfates do not impede axonal regeneration in goldfish spinal cord Reviewed

    Akihito Takeda, Soichiro Okada, Kengo Funakoshi

    BRAIN RESEARCH   1673   23 - 29   2017.10

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.brainres.2017.08.004

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  • AXONAL REGENERATION THROUGH THE FIBROUS SCAR IN LESIONED GOLDFISH SPINAL CORD Reviewed

    A. Takeda, Y. Atobe, T. Kadota, R. C. Goris, K. Funakoshi

    NEUROSCIENCE   284   134 - 152   2015.1

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.neuroscience.2014.09.066

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  • A pilot study for the development of a portable leukocytapheresis system Reviewed

    NOISHIKI Yasuharu, TAKEDA Yuma, UMEDA Tatsuya, ATOBE Yoshitoshi, TAKEDA Akihito, KANEKO Kanichiro, TAKIGUCHI Masahito, FUNAKOSHI Kengo

    Japanese Journal of Apheresis   33 ( 3 )   202 - 207   2014

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    In order to develop a portable leukocytapheresis system, an animal pilot study was performed using a blood-circulating tube of 3 mm in ID, and 40 cm in length having a leukocyte wall-trap made up of 2 kinds of fabric, 7 cm in length each, on the luminal wall. One fabric tube was made of ultra-fine (3.3 μOD) polyester fibers (UFPFs), and the other was made of regular-sized (16 μOD) polyester fibers (RPFs). This was based on the rolling phenomenon of leukocytes in a small caliber blood vessel wall, the laminar flow phenomenon, and the thygmotaxis phenomenon. Blood circulation from the left jugular vein to the left femoral vein was performed for two hours in a dog treated with heparin without using any pump. The amount of blood flow in the tube was approximately 160 ml/min. Sections of each fabric were examined light-microscopically. Leukocytes were trapped in the interstices of UFPFs 5 times more than in RPFs. Leukocytes were effectively trapped under a condition of low blood-flow resistance. These results indicated that leukocyte wall-trapping with UFPFs is effective. A portable leukocytapheresis system will be devised using wall-trapping in the near future.

    CiNii Books

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    Other Link: http://id.nii.ac.jp/1141/00152217/

  • A retrograde tracing study of compensatory corticospinal projections in rats with neonatal hemidecortication. Reviewed International journal

    Akira Yoshikawa, Yoshitoshi Atobe, Akihito Takeda, Yoshinori Kamiya, Masahito Takiguchi, Kengo Funakoshi

    Developmental neuroscience   33 ( 6 )   539 - 47   2011

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    Language:English   Publishing type:Research paper (scientific journal)  

    To examine the compensatory mechanisms in rats that underwent left decortication at postnatal day 7 (P7), we injected the retrograde tracers fluorescein isothiocyanate-cholera toxin B subunit (FITC-CTB) and Fast Blue (FB) into the right and left upper cervical spinal cord, respectively, at postoperative weeks 2, 3, 4, and 5 and counted the number of retrogradely labeled corticospinal neurons in the right cerebral cortex compared with that in normally developed rats. Significantly more ipsilaterally projecting neurons were labeled with FITC-CTB in the decorticated rats compared with normal rats at all time points examined. The number of labeled neurons was similar to that at P7 in normal rats. There were also some FITC-CTB and FB double-labeled neurons in both decorticated and normal rats. The number of double-labeled neurons in the decorticated rats increased each week and was significantly greater than that in normal rats at postoperative weeks 4 and 5. The present results suggest that the elimination of ipsilaterally projecting axons observed in normal rats was prevented in the decorticated rats, so that the cerebral cortex neurons on the unlesioned side projected corticospinal tracts to the ipsilateral spinal cord. Furthermore, the collaterals of the corticospinal tracts originating from the cerebral cortex on the unlesioned side also project to the ipsilateral spinal cord. These compensatory mechanisms might underlie the acquisition of motor function in these animals.

    DOI: 10.1159/000335526

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  • Adult neurogenesis with 5-HT expression in lesoined goldfish spinal cord Reviewed

    A. Takeda, M. Nakano, R. C. Goris, K. Funakoshi

    NEUROSCIENCE   151 ( 4 )   1132 - 1141   2008.2

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.neuroscience.2007.10.059

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  • Regeneration of descending projections to the spinal motor neurons after spinal hemisection in the goldfish Reviewed

    Akihito Takeda, Richard C. Goris, Kengo Funakoshi

    BRAIN RESEARCH   1155   17 - 23   2007.6

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.brainres.2007.04.020

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MISC

Presentations

  • キンギョ脊髄損傷後の瘢痕内に出現する管状構造の由来(医学生物学電子顕微鏡技術学会第29回学術講演会、横須賀)

    武田 昭仁

    2013.6 

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    Language:Japanese   Presentation type:Symposium, workshop panel (public)  

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  • キンギョ脊髄切断後の瘢痕内における軸索支持構造の解析( 第10回「水生動物の行動と神経系」鹿児島)

    武田 昭仁

    2013.12 

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    Language:Japanese   Presentation type:Symposium, workshop panel (public)  

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  • キンギョ脊髄損傷後におけるコンドロイチン硫酸の分布変化(第11回「水生動物の行動と神経系」、横浜)

    武田 昭仁

    2015.12 

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  • Mechanism of axonal regrowth beyond the scar after transection of the goldfish spinal cord (38th annual meeting of the society for neuroscience, Washington) International conference

    武田 昭仁

    2008.11 

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    Language:English   Presentation type:Poster presentation  

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  • 脊髄切断後におけるラットとキンギョの瘢痕構造の比較(第9回「水生動物の行動と神経系」、名古屋)

    武田 昭仁

    2010.1 

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  • キンギョ脊髄切断後におけるセロトニン免疫陽性細胞の出現と軸索再生(第6回「水生動物の行動と神経系」、鳥羽、シンポジウム)

    武田 昭仁

    2003.8 

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    Language:Japanese   Presentation type:Oral presentation (general)  

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  • Histological changes after spinal cord hemisection in goldfish (16th international congress of international federation of associations of anatomists, Kyoto) International conference

    武田 昭仁

    2004.8 

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  • キンギョにおける脊髄機能回復の組織学的基盤(第7回「水生動物の行動と神経系」、2005年8月、三崎)

    武田 昭仁

    2005.8 

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  • Adult neurogenesis after hemisection of the goldfish spinal cord (16th biennial meeting of the international society for developmental neuroscience, Banff) International conference

    武田 昭仁

    2006.8 

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Research Projects

  • Comparative anatomy of the axon regenration after spinal cord injury models

    Grant number:23500414  2011 - 2013

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (C)

    FUNAKOSHI Kengo, ATOBE Yoshitoshi, NAKANO Masato, TAKEDA Akihito

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    Grant amount:\4940000 ( Direct Cost: \3800000 、 Indirect Cost:\1140000 )

    In contrast to mammals, spontaneous nerve regeneration beyond the lesion site occurs in non-mammals after spinal cord lesions, resulting in the good recovery of locomotive activities. In a goldfish hemisection model, regenerating axons beyond the lesion site pass through the laminin-positive tubular structures formed in the scar. We confirmed that these tubular structures were formed by the glial fibers and the basement membrane, which entered the scar in combination with the axons, Similar regenerative processes were observed also in a goldfish compression model. In amphibian models, on the other hand, the regenerating axons beyond the lesion site avoid the scar tissue, suggesting that this model is quite different from the goldfish model.

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  • 脊髄再生におけるニューロン新生とセロトニン発現の役割

    2005

    横浜総合医学振興財団  萌芽的研究助成 

    武田 昭仁

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    Authorship:Principal investigator  Grant type:Competitive

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  • キンギョ脊髄損傷モデルの軸索再生過程におけるニューロン、グリア、免疫細胞の動態

    2003

    横浜総合医学振興財団  指定寄付研究助成 

    船越 健悟

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    Grant type:Competitive

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Social Activities

  • 第27回 電子顕微鏡夏の学校(インストラクター、横浜市立大学)

    Role(s): Organizing member

    2014.8

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