Abstract
Fine neuronal morphology, such as dendritic spines, classically has been studied using the Golgi technique; however, Golgi staining is difficult to combine with other histological techniques. With the increasing popularity of fluorescent imaging, a number of fluorescent dyes have been developed that enable the coupling of multiple fluorescent labels in a single preparation. These fluorescent dyes include the lipophilic dialkylcarbocyanine, DiI; traditionally used for anterograde and retrograde neuronal tracing. More recently, DiI labeling has been used in combination with the Gene Gun for “DiOlistic” labeling of neurons in slice preparations. DiI sequesters itself within and diffuses laterally along the neuronal membrane, however once the cell is permeabilized, the DiI begins to leak from the cell membrane. A DiI derivative, Cell Tracker™ CM-DiI, increases dye stability and labeling half-life in permeabilized tissue, however at much greater expense. Here, the DiI and CM-DiI DiOlistic labeling techniques were tested in side-by-side experiments evaluating dye stability within dendritic architecture in medium spiny neurons of the dorsal stratum in both non-permeabilized and permeabilized tissue sections. In tissue sections that were not permeabilized, spine density in DiI labeled sections was higher than in CM-DiI labeling. In contrast, tissue sections that were permeabilized had higher spine densities in CM-DiI labeled neurons. These results suggest that for experiments involving non-permeabilized tissue, traditional DiI will suffice, however for experiments involving permeabilized tissue CM-DiI provides more consistent data. These experiments provide the first quantitative analyses of the impact of methodological permutations on neuronal labeling with DiI.
Highlights
For over a century, the “gold standard” for neuronal labeling and dendritic spine quantification has been the Golgi staining method
Tissue collected from animals perfused with 4% paraformaldehyde resulted in diffuse background fluorescence of the entire tissue slice without clear illumination of individual soma or dendritic arborizations
Optimization of DiI/CM-DiI-coated tungsten particles delivery Previous experiments conducted in our laboratory using the Helios Gene Gun (Bio-Rad) without the modified barrel resulted in poor tissue penetration with very low DiI labeling efficiency
Summary
The “gold standard” for neuronal labeling and dendritic spine quantification has been the Golgi staining method. The lipophilic dialkylcarbocyanine, DiI, traditionally used for anterograde and retrograde neuronal tracing, has proven to be a remarkably effective method of fluorescent, neuronal cell membrane labeling using a “DiOlistic” approach (Gan et al, 2000); a ballistic delivery of DiI coated micro-carriers to tissue slices. When ballistically delivered to tissue sections or cell culture, individual DiI coated tungsten particles (micro-carriers) enter the soma, capturing the DiI in the neuronal membrane and permitting the DiI to diffuse along the membrane of a single neuron, beautifully illuminating the fine neuronal architecture of dendritic spines (Gan et al, 2000; Shen et al, 2008, 2009; Forlano and Woolley, 2010)
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