Abstract
We have shown previously that components of the extracellular matrix (ECM) modulate neuronal development. Here, we searched for additional ECM elements that might play roles in retinal histogenesis and identified a secreted glycoprotein that is heavily expressed in the retina. This molecule, named by others Wnt Inhibitory Factor-1 (WIF-1), is expressed during and after the period of rod photoreceptor morphogenesis in the mouse. We show that a potential WIF-1 ligand, Wnt4, as well as a potential Wnt4 receptor, fzd4, and a potential Wnt4 coreceptor, LRP6, are expressed in the region of, and at the time of, rod photoreceptor genesis. WIF-1 and Wnt4 are coexpressed during retinal development and bind to each other; therefore, they are likely to interact during rod production. WIF-1 protein inhibits rod production, and anti-WIF-1 antibodies increase rod production; in contrast, Wnt4 promotes rod production. Together, these data suggest that WIF-1 and Wnt4, both components of the ECM, regulate mammalian photoreceptor development.