Overexpression of +TIPs EB1, EB3, and DCX in cones of Danio rerio results in eye organomegaly and hypertrophy of cone photoreceptors
Overexpression of +TIPs EB1, EB3, and DCX in cones of Danio rerio results in eye organomegaly and hypertrophy of cone photoreceptors
Janisch, K. M.
AbstractPhotoreceptor outer segments are sensory cilia whose maintenance depends on a balance between basal disc renewal and tip shedding, controlled by intraflagellar transport and axonemal microtubule organization. Microtubule plus-end proteins regulate microtubule dynamics and are strong candidates for roles in this process. In this study, mCherry-tagged EB1, EB3, and DCX were overexpressed in zebrafish (Danio rerio) cone photoreceptors under a cone-specific promoter. Eyes were examined at 5 and 10 dpf, and eyecup depth, diameter, and cone photoreceptor area were quantified relative to uninjected controls. At 5 dpf, all three constructs produced eyes indistinguishable from those of controls. By 10 dpf, all three constructs significantly increased eye cup depth and cone photoreceptor area. EB1 and DCX also significantly increased eye cup diameter. EB1 and, more severely, EB3 also caused retinal holes, mainly in the retinal pigment epithelium and at the outer nuclear/outer plexiform layer, along with misshapen cells near the inner plexiform layer. DXC did not cause retinal holes, but, like EB1 and EB3, produced enlarged, bulbous cone outer segments. The results show that overexpression of any of the three +TIPs results in a similar eye and photoreceptor overgrowth phenotype, while also producing construct-specific defects: EB1 and EB3 disrupt the broader retinal architecture, whereas DCX produces enlarged eyes. The shared outer segment hypertrophy suggests an imbalance between cargo delivery at the basal end and shedding of the distal tips. The organomegaly may reflect altered progenitor signaling in the ciliary marginal zone.