Regeneration of CNS axons by ependymal cell fate regulation

• Project/Area Number: 26462206
• Research Category: Grant-in-Aid for Scientific Research (C)
• Allocation Type: Multi-year Fund
• Section: 一般
• Research Field: Neurosurgery
• Research Institution: Hyogo Medical University (2015-2017); Osaka University (2014)
• Principal Investigator: Fujitani Masashi 兵庫医科大学, 医学部, 准教授 (40376372)
• Project Period (FY): 2014-04-01 – 2018-03-31
• Project Status: Completed (Fiscal Year 2017)
• Budget Amount: ¥4,940,000 (Direct Cost: ¥3,800,000、Indirect Cost: ¥1,140,000); Fiscal Year 2016: ¥1,560,000 (Direct Cost: ¥1,200,000、Indirect Cost: ¥360,000); Fiscal Year 2015: ¥1,560,000 (Direct Cost: ¥1,200,000、Indirect Cost: ¥360,000); Fiscal Year 2014: ¥1,820,000 (Direct Cost: ¥1,400,000、Indirect Cost: ¥420,000)
• Keywords: 繊毛 / p73 / 水頭症 / シリア / 幹細胞 / 脊髄損傷

Outline of Final Research Achievements

The p53 family member p73 plays a critical role in brain development. p73 knockout mice exhibit a number of deficits in the nervous system, such as hydrocephalus. In this study, we generated a p73 knock-in (KI) mutant mouse and a conditional p73 knockout mouse. The homozygous KI mutants showed aqueductal stenosis. p73 was expressed in the ependymal cell layer and several brain areas. Unexpectedly, when p73 was disrupted during the postnatal period, animals showed aqueductal stenosis at a later stage but not hydrocephalus. An assessment of the integrity of cilia and basal body (BB) patch formation suggests that p73 is required to establish translational polarity but not to establish rotational polarity or the planar polarization of BB patches. Deletion of p73 in adult ependymal cells did not affect the maintenance of translational polarity. These results suggest that the loss of p73 during the embryonic period is critical for hydrocephalus development.

Research Products

• [Int'l Joint Research] カロリンスカ研究所(スウェーデン)
• [Int'l Joint Research] カロリンスカ研究所(スウェーデン)
• [Int'l Joint Research] Karolinska Institutet(Sweden)
• [Journal Article] Loss of p73 in ependymal cells during the perinatal period leads to aqueductal stenosis (2017)
  • Author(s): Fujitani Masashi、Sato Ryohei、Yamashita Toshihide
  • Journal Title: Sci Rep. Volume: 7 Issue: 1 Pages: 12007-12007
  • DOI: 10.1038/s41598-017-12105-z
  • Peer Reviewed / Open Access
• [Journal Article] The RNA-binding protein MARF1 promotes cortical neurogenesis through its RNase activity domain (2017)
  • Author(s): Yoshitaka Kanemitsu, Masashi Fujitani, Yuki Fujita, Suxiang Zhang, Youqiang Su, Yukio Kawahara, and Toshihide Yamashita
  • Journal Title: Scientific Reports Volume: 印刷中
  • Peer Reviewed / Open Access / Int'l Joint Research / Acknowledgement Compliant
• [Journal Article] A chromosome 16p13.11 microduplication causes hyperactivity through dysregulation of miR-484/protocadherin-19 signaling. (2017)
  • Author(s): Fujitani, M., Zhang, S., Fujiki, R., Fujihara, Y. and Yamashita, T.
  • Journal Title: Mol. Psychiatry Volume: 22 Issue: 3 Pages: 364-374
  • DOI: 10.1038/mp.2016.106
  • Peer Reviewed / Open Access / Acknowledgement Compliant
• [Journal Article] 16p13.11微小重複症の候補遺伝子の探索 (2016)
  • Author(s): 藤谷昌司
  • Journal Title: 兵庫医科大学医学会雑誌 Volume: 41 Pages: 37-46
• [Journal Article] NME2 associates with PTPσ to transduce signals from chondroitin sulfate proteoglycans (2016)
  • Author(s): Hajime Hamasaki, Masashi Fujitani, Toshihide Yamashita
  • Journal Title: Biochemical and Biophysical Research Communications Volume: 471 Issue: 4 Pages: 522-527
  • DOI: 10.1016/j.bbrc.2016.02.042
  • Peer Reviewed / Acknowledgement Compliant
• [Journal Article] The newly identified migration inhibitory protein regulates the radial migration in the developing neocortex. (2014)
  • Author(s): Zhang, S., Kanemitsu, Y., Fujitani, M. and Yamashita, T.
  • Journal Title: Sci. Rep. Volume: 4 Issue: 1 Pages: 5984-5984
  • DOI: 10.1038/srep05984
  • Peer Reviewed / Open Access / Acknowledgement Compliant
• [Presentation] Loss of p73 in ependymal cells during the perinatal period leads to aqueductal stenosis (2017)
  • Author(s): Masashi Fujitani, Toshihide Yamashita, Koichi Noguchi
  • Organizer: 日本神経化学会
• [Presentation] ABNORMAL NEUROGENESIS BY 16P13.11 MICRODUPLICATION CAUSES HYPERACTIVITY (2017)
  • Author(s): Masashi Fujitani, Toshihide Yamashita, Koichi Noguchi
  • Organizer: International Society for Stem Cell Research
  • Int'l Joint Research
• [Presentation] 16p13.11微小重複症、候補遺伝子の探索 (2015)
  • Author(s): 藤谷昌司、山下俊英
  • Organizer: 第38回日本神経科学大会
  • Place of Presentation: 神戸国際会議場（兵庫県神戸市）
  • Year and Date: 2015-07-28
• [Presentation] miR-484 controls cell fate of embryonic cortical progenitors via protocadherin-19 (2014)
  • Author(s): 藤谷昌司、山下俊英
  • Organizer: 第37回日本分子生物学会
  • Place of Presentation: 横浜
  • Year and Date: 2014-11-25 – 2014-11-27
• [Presentation] 16 番染色体関連 miR-484 は PCDH19 を介して神経幹細胞の運命決定機構を制御する (2014)
  • Author(s): 藤谷昌司，山下俊英
  • Organizer: 第57回日本神経化学会
  • Place of Presentation: 奈良
  • Year and Date: 2014-09-29 – 2014-10-01
• [Presentation] RNA結合蛋白MARF1は胎児期の神経発生を制御する (2014)
  • Author(s): 金光慶高、張素香、藤谷昌司、山下俊英
  • Organizer: 第37回日本神経科学会
  • Place of Presentation: 横浜
  • Year and Date: 2014-09-11 – 2014-09-13
• [Presentation] PTPσ-NME2 相互作用を介した CSPG による軸索伸長阻害機構 (2014)
  • Author(s): 濱崎一，藤谷昌司、山下俊英
  • Organizer: 第37回日本神経科学会
  • Place of Presentation: 横浜
  • Year and Date: 2014-09-11 – 2014-09-13
• [Remarks] 神経発達障害群の染色体重複による発症の機序を解明
  • URL: http://resou.osaka-u.ac.jp/ja/research/2016/20160705_1
• [Remarks] 神経発達障害群の染色体重複による発症の機序を解明
  • URL: http://www.med.osaka-u.ac.jp/activities/results/2016year/article05
• [Remarks] 発達障害の原因がわかった?!話題の研究チームに詳細を聞いてきた
  • URL: https://h-navi.jp/column/article/35025580
• [Remarks] 発達障害の原因がわかった？！話題の研究チームに詳細を聞いてきた
  • URL: https://h-navi.jp/column/article/35025580