神经生长因子在体外大鼠交感神经元发育中的作用。II. 发育研究。
Role of nerve growth factor in the development of rat sympathetic neurons in vitro. II. Developmental studies.
作者信息
Chun L L, Patterson P H
出版信息
J Cell Biol. 1977 Dec;75(3):705-11. doi: 10.1083/jcb.75.3.705.
Abstract
Adrenergic sympathetic neurons were grown for 4 wk in submaximal and saturating concentrations of nerve growth factor (NGF) in the virtual absence of non-neuronal cells. In 0.2 or 5 microgram/ml 7S NGF, the neurons gradually decreased in number during the first week, although fewer neurons died at the higher level. No significant change in cell number was observed thereafter. Total neuronal protein, a measure of cell growth, increased linearly with age in both concentrations of NGF. At each age, neurons in high NGF exhibited greater growth per cell than those in low NGF. The ability of neurons to produce catecholamine (CA) increased dramatically during the second and third weeks in both concentrations of NGF, and along a similar time-course, although neurons in submaximal NGF developed a lesser capacity for CA production. As neurons developed in culture, they became less dependent on NGF for survival and CA production, but even in older cultures, approximately 50% of the neurons died when NGF was withdrawn.
摘要
在几乎没有非神经元细胞的情况下,将肾上腺素能交感神经元在亚最大浓度和饱和浓度的神经生长因子(NGF)中培养4周。在0.2或5微克/毫升的7S NGF中,神经元数量在第一周逐渐减少,尽管在较高浓度下死亡的神经元较少。此后未观察到细胞数量的显著变化。作为细胞生长指标的总神经元蛋白,在两种浓度的NGF中均随年龄呈线性增加。在每个年龄段,高浓度NGF中的神经元比低浓度NGF中的神经元每个细胞的生长更大。在两种浓度的NGF中,神经元产生儿茶酚胺(CA)的能力在第二周和第三周都急剧增加,且时间进程相似,尽管亚最大浓度NGF中的神经元产生CA的能力发展较弱。随着神经元在培养中发育,它们对NGF存活和CA产生的依赖性降低,但即使在较老的培养物中,当去除NGF时,仍有约50%的神经元死亡。
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