Photoreceptors are the primary cells that respond to light and transduce it into a chemical signal and are the cells affected in photoreceptor degeneration diseases, including macular degeneration, retinitis pigmentosa (RP) and other inherited retinal degenerations. Although mutations in many genes have been identified that are associated with photoreceptor degeneration diseases, we still know very little about why these mutations cause photoreceptors to die. This proposal seeks to expand our understanding of how vertebrate photoreceptors attain and maintain their unique functional morphology and relationship between photoreceptor morphology and survival. We have shown that the FERM domain containing protein Mosaic eyes (Moe) is an important regulator of Crumbs protein function, directly interacts with Crumbs proteins and also showed that rod photoreceptors that lack moe function have outer segments that are larger than normal. To my knowledge this is the first example of loss-of-function of a gene that results in a larger than normal outer segment instead of a smaller one. Mutations in the human CRUMBS HOMOLOGUE 1 (CRB1) are associated with two vision-loss diseases, Leber's congenital amaurosis and retinitis pigmentosa 12. The severity and early onset of these diseases suggest that CRB1 function is critical for early stages of photoreceptor development and suggest that understanding the role of CRB1 and related proteins in photoreceptors may give us insight into ways to treat LCA and RP12. Determining the function of the Crumbs proteins in photoreceptors may also provide further insight into the early stages of photoreceptor development. To further our understanding of the cellular and molecular mechanisms that underlie photoreceptor morphogenesis we propose three specific aims: (1) Characterize the role of specific domains of Crb2a in regulating rod photoreceptor morphogenesis. (2) Examine the role of Prkci/aPKC?? in regulating Crumbs function and rod photoreceptor morphology. (3) Identify additional proteins that interact with Moe/Epb4.1l5. A long-term goal of our studies is to generate tools to test the causal relationship between outer and inner segment size and photoreceptor degeneration because a shortening of inner and outer segments is often observed prior to photoreceptor degeneration. This raises the interesting question as to whether this phenomenon is causal or whether compromised or sick photoreceptors are unable to maintain their inner and outer segments.
| West, Megan C; Campbell, Leah J; Willoughby, John J et al. (2014) Two types of transgenic lines for doxycycline-inducible, cell-specific gene expression in zebrafish ultraviolet cone photoreceptors. Gene Expr Patterns 14:96-104 |
| Campbell, Leah J; Willoughby, John J; Jensen, Abbie M (2012) Two types of Tet-On transgenic lines for doxycycline-inducible gene expression in zebrafish rod photoreceptors and a gateway-based tet-on toolkit. PLoS One 7:e51270 |
| Willoughby, John J; Jensen, Abbie M (2012) Generation of a genetically encoded marker of rod photoreceptor outer segment growth and renewal. Biol Open 1:30-6 |
| Hsu, Ya-Chu; Jensen, Abbie M (2010) Multiple domains in the Crumbs Homolog 2a (Crb2a) protein are required for regulating rod photoreceptor size. BMC Cell Biol 11:60 |
