Long-lived zebrafish Rohon-Beard cells.

During normal development of the nervous system, extensive neuronal proliferation as well as death occurs. The extent of development death varies considerably between neuronal populations from little to almost 100%. Early born somatosensory neurons, known as Rohon-Beard cells, have served as an example of neurons that disappear during early developmental stages, presumably as their function is taken over by later developing dorsal root ganglion neurons. However, recent studies have raised questions about the extent to which zebrafish Rohon-Beard cells die during embryogenesis. While Rohon-Beard cells have distinguishing morphological features during embryonic stages development, they subsequently undergo substantial changes in their shape, size and position that hinder their unambiguous identification at later stages. To overcome this obstacle, we identify Rohon-Beard cells at one day, and using a combination of mosaic and stable transgenic labeling and repeated observation, follow them for 13–16 days post fertilization. We find that about 40% survive to late larval stages. Our studies also reveal that Rohon-Beard cells display an unusual repertoire of cell death properties. At one day, about 25% Rohon-Beard cells expose phosphatidyl serine at the surface membrane, but less than one Rohon-Beard cell/embryo expresses activated-caspase-3. Further, the temporal delay between detection of cell death markers and loss of the soma ranges from <one to several days. The fact many Rohon-Beard cells survive for several weeks raises questions about potential unrecognized roles for Rohon-Beard cells in larval zebrafish. • Repeated observation and transgenic labeling enabled unambiguous identification of Rohon-Beard cells in larval zebrafish. • Changes in Rohon-Beard stereotypic size and position hinder detection on the basis of classic morphological properties. • As a population, Rohon-Beard cells display an unusual combination of death markers. [ABSTRACT FROM AUTHOR]