Bruckenstein D A, Higgins D
Department of Pharmacology and Therapeutics, School of Medicine, State University of New York, Buffalo 14214.
Dev Biol. 1988 Aug;128(2):324-36. doi: 10.1016/0012-1606(88)90295-3.
We have examined the morphology of fetal rat sympathetic neurons grown in serum-free medium in the absence of nonneuronal cells. Because cell density can affect phenotypic expression in vitro, the morphological analysis was subdivided into the study of isolated neurons (neurons whose somata were at least 150 micron from their nearest neighbor) and of more highly aggregated neurons. When isolated neurons were injected with intracellular markers, it was found that most (79%) had a single process emanating from their somata and that this unipolar state persisted for at least 8 weeks in vitro. The processes of unipolar sympathetic neurons had the appearance of axons in that they were thin and long, had a constant diameter, and were relatively unbranched. Cytochemical methods revealed that such processes had other axonal characteristics: (1) they were more reactive with a monoclonal antibody against phosphorylated forms of the M and H neurofilament subunits than with an antibody to nonphosphorylated forms of these proteins; (2) they also reacted with antibodies to the tau microtubule-associated protein and to the phosphorylated forms of the H neurofilament subunit; and (3) they contained only small amounts of RNA as determined by [3H]uridine autoradiography. These data indicate that neurons which normally form dendrites in vivo need not express this capacity in vitro and that axonal and dendritic growth can be dissociated under some conditions in culture. While most isolated neurons were unipolar, neurons in regions of high neuronal cell density were usually multipolar. In addition to axons, multipolar neurons had processes with some of the characteristics expected of rudimentary dendrites: they ended locally (usually within 100 micron), were often highly branched, and reacted with an antibody to nonphosphorylated forms of the M and H neurofilament subunits. The effects of density were most prominent when neurons were within aggregates in which the somata were in close apposition. Density-dependent changes in morphology were less frequently observed when neuronal somata were separated by greater distances (30-100 micron). These data indicate that the morphology of sympathetic neurons is subject to environmental regulation and that neuron-neuron interactions can promote the extension of rudimentary dendrites in vitro.
我们研究了在无血清培养基中、无非神经元细胞存在的情况下生长的胎鼠交感神经元的形态。由于细胞密度会影响体外的表型表达,形态学分析被细分为对孤立神经元(其胞体与最邻近的神经元至少相距150微米的神经元)和聚集程度更高的神经元的研究。当向孤立神经元注射细胞内标记物时,发现大多数(79%)神经元从其胞体发出单个突起,并且这种单极状态在体外持续至少8周。单极交感神经元的突起呈现出轴突的外观,因为它们细且长,直径恒定,且分支相对较少。细胞化学方法显示,这些突起具有其他轴突特征:(1)与针对M和H神经丝亚基磷酸化形式的单克隆抗体反应比与针对这些蛋白质非磷酸化形式的抗体更强烈;(2)它们也与针对tau微管相关蛋白和H神经丝亚基磷酸化形式的抗体反应;(3)通过[3H]尿苷放射自显影测定,它们仅含有少量RNA。这些数据表明,在体内通常形成树突的神经元在体外不一定表现出这种能力,并且在培养的某些条件下轴突和树突的生长可以分离。虽然大多数孤立神经元是单极的,但在神经元细胞密度高的区域中的神经元通常是多极的。除了轴突外,多极神经元还有一些具有初级树突预期特征的突起:它们在局部终止(通常在100微米内),经常高度分支,并与针对M和H神经丝亚基非磷酸化形式的抗体反应。当神经元处于胞体紧密相邻的聚集体中时,密度的影响最为显著。当神经元胞体被更大距离(30 - 100微米)分隔时,形态学上密度依赖性变化较少观察到。这些数据表明交感神经元的形态受环境调节,并且神经元 - 神经元相互作用可以促进体外初级树突的延伸。
