Department of Microbiology, New York University School of Medicine, New York, New York 10016, USA.
Cytometry A. 2012 Aug;81(8):704-17. doi: 10.1002/cyto.a.22073. Epub 2012 May 30.
The neurotrophin brain-derived neurotrophic factor (BDNF) and its receptor tyrosine kinase TrkB serve important regulatory roles for multiple aspects of the biology of neurons including cell death, survival, growth, differentiation, and plasticity. Regulation of the local availability of BDNF/TrkB at distinct subcellular domains such as soma, dendrites, axons, growth cones, nerve terminals, and spines appears to contribute to their specific functions. In view of the variance in size and shape of neurons and their compartments, previous quantitative studies of the BDNF/TrkB protein and mRNA lacked a robust normalization procedure. To overcome this problem, we have established methods that use immunofluorescence detection of α-tubulin as a normalization factor for the quantitative analysis of protein and mRNA in primary rat cortical and striatal neurons in culture. The efficacy of this approach is demonstrated by studying the dynamic distribution of proteins and mRNA at different growth stages or conditions. Treatment of cultured neurons with KCl resulted in increased levels of TrkB protein, reduced levels of BDNF mRNA (composite of multiple transcripts) and a slight reduction in BDNF protein levels in the dendrites from the cortex. The KCl treatment also lowered the percentage of BDNF and TrkB proteins in the soma indicative of protein transport. Finally, analysis of the rat cortical and striatal neurons demonstrated comparable or even higher levels of BDNF/TrkB protein and BDNF mRNA in the neurons from the striatum. Thus, in contrast to previous observations made in vivo, striatal neurons are capable of synthesizing BDNF mRNA when cultured in growth media in vitro. The analytical approach presented here provides a detailed understanding of BDNF/TrkB levels in response to a variety of neuronal activities. Our methods could be used broadly, including applications in cell and tissue cytometry, to yield accurate quantitative data of gene expression in cellular and subcellular contexts. © 2012 International Society for Advancement of Cytometry.
神经营养因子脑源性神经营养因子(BDNF)及其受体酪氨酸激酶 TrkB 在神经元生物学的多个方面发挥重要的调节作用,包括细胞死亡、存活、生长、分化和可塑性。BDNF/TrkB 在不同的亚细胞区域(如体、树突、轴突、生长锥、神经末梢和棘突)的局部可用性的调节似乎有助于其特定的功能。鉴于神经元及其隔室的大小和形状的差异,先前关于 BDNF/TrkB 蛋白和 mRNA 的定量研究缺乏稳健的归一化程序。为了克服这个问题,我们已经建立了使用免疫荧光检测α-微管蛋白作为标准化因子的方法,用于对原代大鼠皮质和纹状体神经元培养物中的蛋白和 mRNA 进行定量分析。通过研究不同生长阶段或条件下蛋白质和 mRNA 的动态分布,证明了这种方法的有效性。用 KCl 处理培养的神经元导致 TrkB 蛋白水平升高,BDNF mRNA(多种转录物的组合)水平降低,皮质树突中的 BDNF 蛋白水平略有降低。KCl 处理还降低了体中 BDNF 和 TrkB 蛋白的百分比,表明蛋白质运输。最后,对大鼠皮质和纹状体神经元的分析表明,纹状体神经元在体外生长培养基中培养时能够合成 BDNF mRNA。这里提出的分析方法提供了对各种神经元活动中 BDNF/TrkB 水平的详细了解。我们的方法可以广泛应用,包括在细胞和组织细胞仪中的应用,以在细胞和亚细胞背景下产生基因表达的准确定量数据。