Neurite growth capability of rat fetal neuronal cells against matured CNS myelin in vitro

被引:8
|
作者
Hara, K
Uchida, K
Fukunaga, A
Kuroshima, Y
Yamada, M
Kawase, T
机构
[1] Ootawara Red Cross Hosp, Dept Neurosurg, Ootawara, Tochigi 3248686, Japan
[2] Keio Univ, Sch Med, Dept Neurosurg, Tokyo 160, Japan
关键词
neurite growth; fetal neuronal cells; myelin-associated neurite growth inhibitor; reconstruction of neurocircuits;
D O I
10.1177/096368970000900521
中图分类号
Q813 [细胞工程];
学科分类号
摘要
Reconstruction of neurocircuits by transplanted cells is expected to become an effective therapy for brain damage. In order to establish the transplantation therapy, it is necessary to find transplantable cells capable of reconstructing the lesioned neurocircuitry. We have reported that the younger neuronal cells such as neural stern cells are useful transplant materials because of their vigorous capacity for forming abundant neurites. On the ether hand, it was reported that myelin-associated neurite growth inhibitor prevents neurite regeneration. In this study, we used rat fetal neuronal cells to examine the neurite growth capacity in the presence of mature CNS myelin. Crude CNS myelin was prepared from the brains of adult Wistar rats using previously described procedures. Testing wells were precoated with poly-L-lysine and additionally by overnight drying of a suspension containing 0, 5, 10, 15, or 20 mug/cm(2) of the crude myelin protein. On embryonic days 10, 12, 15, and 17 (E10, E12, E15, and E17) embryos were surgically removed, mesencephalic neural plates were dissected out from the E10 embryos, and midbrain cells were taken from the E12, E15, and E17 embryos. The neural plates and midbrain cells were placed on the myelin-coated wells. After 24 h of culture (72 h in the case of neural plates), the number of surviving cells and the length of the neurites were examined immunocytochemically using anti-neurofilament (NF) antibody. Neurite length was measured by image analyzer Luzex-F. The mesencephalic neural plate was able to grow neurites even on 20 mug/cm(2) central myelin. Almost the same number of midbrain cells attached themselves to the wells without myelin in every culture obtained from various stages of embryos. The number of cells attached on the myelin-coated wells decreased with the concentration of myelin. The number of NF-positive cells was higher in cultures of materials obtained from older embryos than in cultures obtained from younger embryos. The younger cells grew longer neurites than the older cells in the myelin noncoated wells. Neurite growth was inhibited strongly when the concentration of the central myelin was 10 mug/cm(2) or greater, but on the 5 mug/cm(2) myelin, the younger the cells were, the longer neurites they had. When the length of the longest neurites in one field of the image analyzer was further examined in the same way, the younger the cells were, the longer their axons grew on 0 and 5 mug/cm(2) myelin. Thus, CNS myelin was seen to be a significant inhibitor of the recovery of injured neural tissue of the adult CNS. Younger cells grew longer neurites than older cells on CNS myelin, and so it was suggested that neural stem cells or younger neurons may serve as tissue for transplantation therapy.
引用
收藏
页码:717 / 724
页数:8
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