Li C, Meinertzhagen I A
Neuroscience Institute, Dalhousie University, Halifax, Nova Scotia, Canada.
J Neurobiol. 1995 Nov;28(3):363-80. doi: 10.1002/neu.480280309.
We have established a primary culture system for Drosophila eye imaginal discs. With this system, we were able to obtain neurite outgrowth from intact eye discs, eye disc fragments, and dissociated eye imaginal disc cells. Immunoreactivity to antibody 24B10 indicates that these extending neurites are photoreceptor axons. Three culture media were tested for their ability to support the survival of and neurite extension from eye disc fragments in vitro at 23 degrees C. These, with supplements, were: five parts of Schneider's Drosophila medium with four parts of basal Eagle's medium ("4 + 5"); Leibovitz's L-15 medium (L-15); and Shields and Sang's M3 modified medium (MM3). We obtained the best results with MM3 supplemented with 2% fetal bovine serum (FBS). Eye disc fragments survived in this medium for at least 20 days. Pigmentation in the nonphotoreceptor pigment cells in cultures from the prepupa required the presence of 20-hydroxyecdysone (20-HE) (1 micrograms/ml), whereas neurite outgrowth was seen in the absence of 20-HE. Donor animals had to fall within a range of ages to obtain appropriate eye disc differentiation in vitro. Eye disc from 5-h pupae (P + 5) or older commenced ommachrome synthesis in vitro in a temporal sequence close to that found in vivo, whereas the in vitro synthesis of this pigment was delayed in eye discs from younger flies. Average neurite length was not affected by age among pupae younger than P + 5; but neurite outgrowth from P + 24 was scarce, probably because by this time photoreceptor axons had already grown in vivo and were severed and unable to regenerate in vitro. Eye discs taken from third instar larvae or white prepupae continued their mitotic activity in vitro. Together with the advance of the morphogenetic furrow at the leading edge of retinal development, this observation is consistent with the evidence that pattern formation continues in vitro. Morphogenetic changes were manifested in cultures. Viability tests with calcein AM and ethidium bromide revealed few dead cells in living cultures.
我们建立了果蝇眼成虫盘的原代培养系统。利用该系统,我们能够从完整的眼盘、眼盘片段以及解离的眼成虫盘细胞中获得神经突生长。对抗体24B10的免疫反应性表明,这些延伸的神经突是光感受器轴突。测试了三种培养基在23摄氏度下支持眼盘片段体外存活和神经突延伸的能力。这些培养基及其补充物分别是:五份施耐德果蝇培养基与四份基础伊格尔培养基混合(“4 + 5”);莱博维茨L - 15培养基(L - 15);以及希尔兹和桑的M3改良培养基(MM3)。我们在添加2%胎牛血清(FBS)的MM3培养基中获得了最佳结果。眼盘片段在这种培养基中存活至少20天。蛹前期培养物中非光感受器色素细胞的色素沉着需要20 - 羟基蜕皮激素(20 - HE)(1微克/毫升)的存在,而在没有20 - HE的情况下可见神经突生长。供体动物必须处于一定年龄范围内才能在体外获得适当的眼盘分化。来自5小时蛹期(P + 5)或更老蛹期的眼盘在体外开始合成眼色素,其时间顺序与体内情况相近,而来自较年轻果蝇的眼盘在体外这种色素的合成则延迟。在P + 5以下的蛹中,平均神经突长度不受年龄影响;但来自P + 24蛹的神经突生长稀少,可能是因为此时光感受器轴突在体内已经生长,并且被切断后无法在体外再生。从三龄幼虫或白色蛹前期取出的眼盘在体外继续其有丝分裂活动。随着视网膜发育前缘形态发生沟的推进,这一观察结果与体外模式形成持续的证据一致。培养物中表现出形态发生变化。用钙黄绿素AM和溴化乙锭进行的活力测试表明,活培养物中死细胞很少。
