Norton W T, Farooq M
Department of Neurology, Albert Einstein College of Medicine, Bronx, NY 10461.
Brain Res Dev Brain Res. 1993 Apr 16;72(2):193-202. doi: 10.1016/0165-3806(93)90184-c.
We have previously shown that enriched preparations of oligodendrocytes from mature bovine brain or 30d rat brain contain 4-10% ganglioside-GD3+ glial precursor cells, which differentiate into astrocytes in culture. These findings are in contrast to those described by others in cultures of neonatal rat brain, which contain precursors that differentiate into both astrocytes and oligodendrocytes. We have extended this study to determine whether the properties of glial precursor cells vary during development. Cells isolated by the same technique from 5-, 10- and 20-day-old rats, were placed in culture and double-immunostained at 1,2,3,6 and 10 days in vitro (DIV) for GD3/glial fibrillary acidic protein (GFAP), galactosylceramide (GC)/GFAP, GD3/GC, GD3/antigen O4, GC/O4 and GFAP/O4. After 1 DIV the isolates from 5 day rats contained 30% GD3+ cells, 1% oligodendrocytes (GC+) and 3.5% astrocytes (GFAP+). The corresponding percentages from 10 day rats were: 35% GD3+, 3% GC+ and 3% GFAP+; and from 20 day rats: 28% GD3+, 35% GC+ and 1% GFAP+. Thus the number of oligodendrocytes in the initial isolate increased dramatically between 10 and 20 days. At all 3 ages immature cells were a major component of the total isolate. GFAP+ cells increased rapidly in all cultures. In all cultures the numbers of GFAP+/GD3+ cells reached a maximum and then declined coincident with the increase of GFAP+/GD3- cells, but there were many more of these double-stained cells in cultures from 20 day rats. Moreover, all cultures at 1 DIV contained some GFAP+/GD3- cells. Thus astrocytes appeared to derive both from pre-existing GFAP+/GD3- cells and from GD3+ cells, the latter pathway being more significant in the older rats. GC+ cells increased in cultures prepared from 5 day and 10 day rats, but remained relatively constant in cultures from 20 day rats. The number of GD3+/O4+ cells decreased coincident with an increase of GC+/O4+ cells (all GC+ cells were O4+), but the number of GC+/GD3+ cells was insignificant in any culture from any age animal. These findings in developing animals support the scheme shown by others in neonates that oligodendrocytes derive from GD3+ cells via O4+/GC-intermediate cells. These data show that more GD3+ cells differentiate into oligodendrocytes in 5- and 10-day-old animals than in 20-day-old animals, and a larger percentage differentiate into astrocytes in 20-day-old animals than in the younger animals. The most reasonable explanation of these results is that two committed populations of GD3+ precursor cells exist in the brain, and that the ratio of these populations changes during development. The implication of this conclusion is that bipotential progenitor cells do not persist beyond the neonatal period, but become committed to separate lineages during development.
我们之前已经表明,从成熟牛脑或30日龄大鼠脑中分离得到的富含少突胶质细胞的制剂含有4%-10%的神经节苷脂-GD3+神经胶质前体细胞,这些细胞在培养中可分化为星形胶质细胞。这些发现与其他人在新生大鼠脑培养物中所描述的情况相反,新生大鼠脑培养物中的前体细胞可分化为星形胶质细胞和少突胶质细胞。我们扩展了这项研究,以确定神经胶质前体细胞的特性在发育过程中是否会发生变化。通过相同技术从5日龄、10日龄和20日龄大鼠中分离出的细胞,置于培养中,并在体外培养1、2、3、6和10天(DIV)时进行双重免疫染色,检测GD3/胶质纤维酸性蛋白(GFAP)、半乳糖基神经酰胺(GC)/GFAP、GD3/GC、GD3/抗原O4、GC/O4和GFAP/O4。培养1天后,5日龄大鼠分离出的细胞中含有30%的GD3+细胞、1%的少突胶质细胞(GC+)和3.5%的星形胶质细胞(GFAP+)。10日龄大鼠的相应百分比为:35%的GD3+、3%的GC+和3%的GFAP+;20日龄大鼠的相应百分比为:28%的GD3+、35%的GC+和1%的GFAP+。因此,最初分离物中少突胶质细胞的数量在10至20天之间急剧增加。在所有3个年龄段,未成熟细胞都是总分离物的主要组成部分。GFAP+细胞在所有培养物中迅速增加。在所有培养物中,GFAP+/GD3+细胞数量达到最大值,然后随着GFAP+/GD3-细胞数量的增加而下降,但20日龄大鼠培养物中的这种双重染色细胞更多。此外,所有培养1天的培养物中都含有一些GFAP+/GD3-细胞。因此,星形胶质细胞似乎既来源于预先存在的GFAP+/GD3-细胞,也来源于GD3+细胞,后一种途径在年龄较大的大鼠中更为重要。GC+细胞在5日龄和10日龄大鼠制备的培养物中增加,但在20日龄大鼠的培养物中保持相对恒定。GD3+/O4+细胞数量随着GC+/O4+细胞数量的增加而减少(所有GC+细胞均为O4+),但在任何年龄动物的任何培养物中,GC+/GD3+细胞数量都很少。发育中动物的这些发现支持了其他人在新生儿中所展示的模式,即少突胶质细胞通过O4+/GC中间细胞从GD3+细胞衍生而来。这些数据表明,与20日龄动物相比,5日龄和10日龄动物中有更多的GD3+细胞分化为少突胶质细胞,而20日龄动物中分化为星形胶质细胞的GD3+细胞百分比高于较年轻的动物。对这些结果最合理的解释是,大脑中存在两个定向的GD3+前体细胞群体,并且这些群体的比例在发育过程中发生变化。这一结论的含义是,双能祖细胞在新生儿期之后不再存在,而是在发育过程中定向分化为不同的谱系。
