TY - JOUR
T1 - Roles of ES cell-derived gliogenic neural stem/progenitor cells in functional recovery after spinal cord injury
AU - Kumagai, Gentaro
AU - Okada, Yohei
AU - Yamane, Junichi
AU - Nagoshi, Narihito
AU - Kitamura, Kazuya
AU - Mukaino, Masahiko
AU - Tsuji, Osahiko
AU - Fujiyoshi, Kanehiro
AU - Katoh, Hiroyuki
AU - Okada, Seiji
AU - Shibata, Shinsuke
AU - Matsuzaki, Yumi
AU - Toh, Satoshi
AU - Toyama, Yoshiaki
AU - Nakamura, Masaya
AU - Okano, Hideyuki
PY - 2009/11/6
Y1 - 2009/11/6
N2 - Transplantation of neural stem/progenitor cells (NS/PCs) following the sub-acute phase of spinal cord injury (SCI) has been shown to promote functional recovery in rodent models. However, the types of cells most effective for treating SCI have not been clarified. Taking advantage of our recently established neurosphere-based culture system of ES cell-derived NS/PCs, in which primary neurospheres (PNS) and passaged secondary neurospheres (SNS) exhibit neurogenic and gliogenic potentials, respectively, here we examined the distinct effects of transplanting neurogenic and gliogenic NS/PCs on the functional recovery of a mouse model of SCI. ES cell-derived PNS and SNS transplanted 9 days after contusive injury at the Th10 level exhibited neurogenic and gliogenic differentiation tendencies, respectively, similar to those seen in vitro. Interestingly, transplantation of the gliogenic SNS, but not the neurogenic PNS, promoted axonal growth, remyelination, and angiogenesis, and resulted in significant locomotor functional recovery after SCI. These findings suggest that gliogenic NS/PCs are effective for promoting the recovery from SCI, and provide essential insight into the mechanisms through which cellular transplantation leads to functional improvement after SCI.
AB - Transplantation of neural stem/progenitor cells (NS/PCs) following the sub-acute phase of spinal cord injury (SCI) has been shown to promote functional recovery in rodent models. However, the types of cells most effective for treating SCI have not been clarified. Taking advantage of our recently established neurosphere-based culture system of ES cell-derived NS/PCs, in which primary neurospheres (PNS) and passaged secondary neurospheres (SNS) exhibit neurogenic and gliogenic potentials, respectively, here we examined the distinct effects of transplanting neurogenic and gliogenic NS/PCs on the functional recovery of a mouse model of SCI. ES cell-derived PNS and SNS transplanted 9 days after contusive injury at the Th10 level exhibited neurogenic and gliogenic differentiation tendencies, respectively, similar to those seen in vitro. Interestingly, transplantation of the gliogenic SNS, but not the neurogenic PNS, promoted axonal growth, remyelination, and angiogenesis, and resulted in significant locomotor functional recovery after SCI. These findings suggest that gliogenic NS/PCs are effective for promoting the recovery from SCI, and provide essential insight into the mechanisms through which cellular transplantation leads to functional improvement after SCI.
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U2 - 10.1371/journal.pone.0007706
DO - 10.1371/journal.pone.0007706
M3 - Article
C2 - 19893739
AN - SCOPUS:70450195049
SN - 1932-6203
VL - 4
JO - PloS one
JF - PloS one
IS - 11
M1 - e7706
ER -