Regulation of Eye Determination and Regionalization in the Spider Parasteatoda tepidariorum

Animal visual systems are enormously diverse, but their development appears to be controlled by a set of conserved retinal determination genes (RDGs). Spiders are particular masters of visual system innovation, and offer an excellent opportunity to study the evolution of animal eyes. Several RDGs have been identified in spider eye primordia, but their interactions and regulation remain unclear. From our knowledge of RDG network regulation in Drosophila melanogaster, we hypothesize that orthologs of Pax6, eyegone, Wnt genes, hh, dpp, and atonal could play important roles in controlling eye development in spiders. We analyzed the expression of these genes in developing embryos of the spider Parasteatoda tepidariorum, both independently and in relation to the eye primordia, marked using probes for the RDG sine oculis. Our results support conserved roles for Wnt genes in restricting the size and position of the eye field, as well as for atonal initiating photoreceptor differentiation. However, we found no strong evidence for an upstream role of Pax6 in eye development, despite its label as a master regulator of animal eye development; nor do eyg, hh or dpp compensate for the absence of Pax6. Conversely, our results indicate that hh may work with Wnt signaling to restrict eye growth, a role similar to that of Sonic hedgehog (Shh) in vertebrates.

Automated summary

Animal visual systems show great diversity, but their development seems to be controlled by a set of conserved retinal determination genes (RDGs). Spiders, as masters of visual system innovation, provide an excellent opportunity to study the evolution of animal eyes. This study focuses on the expression and regulation of RDGs in spider eye development. The results suggest the roles of certain genes in constraining eye field size and position, as well as initiating photoreceptor differentiation.