In the compound eye of Drosopbila, cell-cell interactions are thought to play an important role in the determination of neuronal cell fate and pattern morphogenesis. Recent work on the bride of sevenless {boss) gene has demonstrated an inductive role for photoreceptor R8 in the differentiation of photoreceptor R7. These studies have shown that while R8 differentiates early in the scheme of ommatidial assembly, it continues to play an active role in subsequent patterning events. We describe studies on a new genetic locus rap {retina aberrant in pattern), whose functions are critical for normal pattern formation in the developing eye. Mutations in the rap gene perturb the early stages of pattern formation and lead to a variable number of photoreceptor cells (R cells) in each ommatidium. Experiments with a temperature-sensitive allele have shown that rap gene function is required during the period of development when pattern formation occurs. In addition, a somatic mosaic analysis of rap has shown that its function is required only in photoreceptor cell R8 for normal ommatidial patterning. These studies suggest an important role for rap in the initial events leading to pattern formation and are consistent with R8 playing a central role in directing ommatidial pattern formation.
We have characterized, by electron microscopy, the growth of pioneering axons from the retina into the visual pathway during early development of Xenopus laevis. The subsequent development of following fibers from the growing retinal margin as they accumulated in the ganglion cell fiber layer (GCFL) of the retina was also studied. Extracellular channels bordered by neuroepithelial cells appear in the developing retina in a dorsal to ventral gradient before any pioneering axons are seen. Pioneering axons are subsequently observed in these channels, usually surrounded by neuroepithelial cell processes. Ruthenium red treatment of embryonic retinas reveals extracellular matrix (ECM) within these retinal channels, while extracellular spaces in the proximal optic stalk, just beyond the optic disc, lack this material. ECM is also seen in optic tectum wherever ingrowing retinal and nonretinal axons are found. The channels and the ECM contained within them may provide guidance cues for pioneering retinal axons. The early association of pioneering retinal axons with neuroepithelial cell processes (putative glia) appears to be important in further development of the GCFL. The so-called following fibers of ganglion cells, arising later in development, fasciculate with pioneer axons in extracellular spaces and form fiber bundles of the GCFL on top of the layer of glial cell endfeet. It is not clear whether pioneering axons, glial cell surfaces, or both serve as guidance cues for following fiber migration.
The Patch (Ph) mutation in mice is a deletion of the gene encoding the platelet-derived growth factor receptor alpha subunit (PDGFR alpha). Patch is a recessive lethal recognized in heterozygotes by its effect on the pattern of neural crest-derived pigment cells, and in homozygous mutant embryos by visible defects in craniofacial structures. Since both pigment cells and craniofacial structures are derived from the neural crest, we have examined the differentiation of other crest cell-derived structures in Ph/Ph mutants to assess which crest cell populations are adversely affected by this mutation. Defects were found in many structures populated by non-neuronal derivatives of cranial crest cells including the thymus, the outflow tract of the heart, cornea, and teeth. In contrast, crest-derived neurons in both the head and trunk appeared normal. The expression pattern of PDGFR alpha mRNA was determined in normal embryos and was compared with the defects present in Ph/Ph embryos. PDGFR alpha mRNA was expressed at high levels in the non-neuronal derivatives of the cranial neural crest but was not detected in the crest cell neuronal derivatives. These results suggest that functional PDGF alpha is required for the normal development of many non-neuronal crest-derived structures but not for the development of crest-derived neuronal structures. Abnormal development of the non-neuronal crest cells in Ph/Ph embryos was also correlated with an increase in the diameter of the proteoglycan-containing granules within the crest cell migratory spaces. This change in matrix structure was observed both before and after crest cells had entered these spaces. Taken together, these observations suggest that functional PDGFR alpha can affect crest development both directly, by acting as a cell growth and/or survival stimulus for populations of non-neurogenic crest cells, and indirectly, by affecting the structure of the matrix environment through which such cells move.
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