TY - JOUR
T1 - In vitro characterization of neurite extension using induced pluripotent stem cells derived from lissencephaly patients with TUBA1A missense mutations
AU - Bamba, Yohei
AU - Shofuda, Tomoko
AU - Kato, Mitsuhiro
AU - Pooh, Ritsuko K.
AU - Tateishi, Yoko
AU - Takanashi, Jun Ichi
AU - Utsunomiya, Hidetsuna
AU - Sumida, Miho
AU - Kanematsu, Daisuke
AU - Suemizu, Hiroshi
AU - Higuchi, Yuichiro
AU - Akamatsu, Wado
AU - Gallagher, Denis
AU - Miller, Freda D.
AU - Yamasaki, Mami
AU - Kanemura, Yonehiro
AU - Okano, Hideyuki
N1 - Funding Information:
We thank Dr. Chiaki Ban, Ms. Chika Teramoto and Ms. Ai Takada for the collection of human umbilical cord tissues, and all the staff members of our laboratories and all the collaborators in the Fetal Brain Malformation (FBM) Network in Japan. Especially, we fully appreciate Hayato Fukusumi for the technical assistance in our revised manuscript. We also give our thanks for the kind gift of episomal vectors that were used in iPSC generation from Dr. Keisuke Okita and Prof. Shinya Yamanaka. This study is supported by the Research on Intractable Diseases and the Research on Applying Health Technology, Health and Labour Sciences Research Grants from the Ministry of Health, Labour and Welfare of Japan to M.Y., and the Program for Intractable Disease Research Utilizing Disease-specific iPS Cells funded by the Japan Science and Technology Agency (JST)/Japan Agency for Medical Research and Development (A-MED) to H.O..
Funding Information:
This research is supported by Health and Labor Sciences Research Grants for research of intractable disease to M.Y. (Award Number: 2009-ID-028, 2010-ID-131, 2011-ID-013) and Program for Intractable Disease Research Utilizing Disease-specific iPS Cells funded by the Japan Science and Technology Agency (JST)/Japan Agency for Medical Research and Development (A-MED) to H.O.(Award Number: 0609003h).
Funding Information:
Dr. H. Okano is a paid scientific consultant to SanBio Co Ltd and Eisai Co., Ltd. Dr. Y. Kanemura received research funding from Kaneka Corp. The authors declare no conflicts of interest associated with this manuscript.
Publisher Copyright:
© 2016 The Author(s).
PY - 2016/7/19
Y1 - 2016/7/19
N2 - Background: Lissencephaly, or smooth brain, is a severe congenital brain malformation that is thought to be associated with impaired neuronal migration during corticogenesis. However, the exact etiology of lissencephaly in humans remains unknown. Research on congenital diseases is limited by the shortage of clinically derived resources, especially for rare pediatric diseases. The research on lissencephaly is further limited because gyration in humans is more evolved than that in model animals such as mice. To overcome these limitations, we generated induced pluripotent stem cells (iPSCs) from the umbilical cord and peripheral blood of two lissencephaly patients with different clinical severities carrying alpha tubulin (TUBA1A) missense mutations (Patient A, p.N329S; Patient B, p.R264C). Results: Neural progenitor cells were generated from these iPSCs (iPSC-NPCs) using SMAD signaling inhibitors. These iPSC-NPCs expressed TUBA1A at much higher levels than undifferentiated iPSCs and, like fetal NPCs, readily differentiated into neurons. Using these lissencephaly iPSC-NPCs, we showed that the neurons derived from the iPSCs obtained from Patient A but not those obtained from Patient B showed abnormal neurite extension, which correlated with the pathological severity in the brains of the patients. Conclusion: We established iPSCs derived from lissencephaly patients and successfully modeled one aspect of the pathogenesis of lissencephaly in vitro using iPSC-NPCs and iPSC-derived neurons. The iPSCs from patients with brain malformation diseases helped us understand the mechanism underlying rare diseases and human corticogenesis without the use of postmortem brains.
AB - Background: Lissencephaly, or smooth brain, is a severe congenital brain malformation that is thought to be associated with impaired neuronal migration during corticogenesis. However, the exact etiology of lissencephaly in humans remains unknown. Research on congenital diseases is limited by the shortage of clinically derived resources, especially for rare pediatric diseases. The research on lissencephaly is further limited because gyration in humans is more evolved than that in model animals such as mice. To overcome these limitations, we generated induced pluripotent stem cells (iPSCs) from the umbilical cord and peripheral blood of two lissencephaly patients with different clinical severities carrying alpha tubulin (TUBA1A) missense mutations (Patient A, p.N329S; Patient B, p.R264C). Results: Neural progenitor cells were generated from these iPSCs (iPSC-NPCs) using SMAD signaling inhibitors. These iPSC-NPCs expressed TUBA1A at much higher levels than undifferentiated iPSCs and, like fetal NPCs, readily differentiated into neurons. Using these lissencephaly iPSC-NPCs, we showed that the neurons derived from the iPSCs obtained from Patient A but not those obtained from Patient B showed abnormal neurite extension, which correlated with the pathological severity in the brains of the patients. Conclusion: We established iPSCs derived from lissencephaly patients and successfully modeled one aspect of the pathogenesis of lissencephaly in vitro using iPSC-NPCs and iPSC-derived neurons. The iPSCs from patients with brain malformation diseases helped us understand the mechanism underlying rare diseases and human corticogenesis without the use of postmortem brains.
KW - Induced pluripotent stem cells
KW - Lissencephaly
KW - Neural progenitor cells
KW - TUBA1A
UR - http://www.scopus.com/inward/record.url?scp=84978715653&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84978715653&partnerID=8YFLogxK
U2 - 10.1186/s13041-016-0246-y
DO - 10.1186/s13041-016-0246-y
M3 - Article
C2 - 27431206
AN - SCOPUS:84978715653
SN - 1756-6606
VL - 9
JO - Molecular brain
JF - Molecular brain
IS - 1
M1 - 70
ER -
