Enhanced three‐dimensional visualization of rat phrenic motoneurons.

Abstract

Retrograde transport of fluorescent dyes permits imaging of nearly the entire pool of motoneurons when administered in the target muscle or axon shaft, but the extent of dendritic labeling is usually limited. We used an intracellular injection of Lucifer Yellow CH (LY) into retrogradely labeled phrenic motoneurons (PMNs) to enhance dendritic structure. PMNs were specifically labeled by Alexa Fluor 488‐conjugated cholera toxin fragment B (CTB) injected into the pleural space of 18‐days old rats. After a 72‐hr survival period, animals were transcardially perfused with 4% paraformaldehyde and 4% sucrose in 0.1 M phosphate buffer. Cervical spinal cords were sectioned in coronal plane. Individual CTB‐labeled PMNs were intracellularly injected with LY under direct visual control and subsequently imaged with an Olympus FluoView 200 laser‐scanning confocal system. Image processing and analyses were performed using Metamorph 7.4 software. PMNs were extensively labeled and reconstructed in 3D. The range of visible primary, secondary and tertiary processes was 3 ‐ 7, 2 ‐ 4 and 0 ‐ 2 per PMN, respectively. Average length of a single dendritic tree was 218.0±20.1 μm and surface area was 1295±199 μm2. The described technique provides 3D quantitative morphometry of a large sample of retrogradely‐labeled PMNs in great detail. Supported by NIH grants HL37680 and AR51173.