PURPOSE: To determine the role of glial cell line-derived neurotropic factor family receptor alpha 4 (GFRalpha4) during retinogenesis in a three-dimensional histiotypic in vitro model of the embryonic chicken retina. METHODS: Retinal spheres were cultured from dissociated 6-day-old chicken retina under permanent rotation and transfected with GFRalpha4 siRNA at culture day 2. Alterations on proliferation, apoptosis, and differentiation were determined by semiquantitative RT-PCR, in situ hybridization, and immunohistochemistry after 24, 48, and 72 hours. RESULTS: In contrast to control cultures, retinal spheres transfected with GFRalpha4 siRNA showed reduced GFRalpha4 mRNA expression of only 38% after 24 hours, 3% after 48 hours, and 5% after 72 hours. Based on the suppression of GFRalpha4, a decline in proliferating cells from 10% to 4.8% even after 24 hours and a reduction of sphere size by up to 25% at later culture stages were observed. Moreover, the number of Pax 6-positive amacrine, ganglion, and horizontal cells was significantly decreased from 36% to 16% in GFRalpha4 siRNA-transfected retinal spheres 72 hours after transfection. Additionally, GFRalpha4 gene silencing affected the development of different types of photoreceptors, as revealed by a significant decrease of blue opsin mRNA expression from 29% to 2%, whereas green opsin mRNA and the number rho4D2-positive photoreceptors were significantly increased. CONCLUSIONS: These data showed for the first time that GFRalpha4 plays an essential role in regulating, at least in vitro, the development and differentiation of various cell types during retinogenesis.
PURPOSE: To determine the role of glial cell line-derived neurotropic factor family receptor alpha 4 (GFRalpha4) during retinogenesis in a three-dimensional histiotypic in vitro model of the embryonic chicken retina. METHODS: Retinal spheres were cultured from dissociated 6-day-old chicken retina under permanent rotation and transfected with GFRalpha4 siRNA at culture day 2. Alterations on proliferation, apoptosis, and differentiation were determined by semiquantitative RT-PCR, in situ hybridization, and immunohistochemistry after 24, 48, and 72 hours. RESULTS: In contrast to control cultures, retinal spheres transfected with GFRalpha4 siRNA showed reduced GFRalpha4 mRNA expression of only 38% after 24 hours, 3% after 48 hours, and 5% after 72 hours. Based on the suppression of GFRalpha4, a decline in proliferating cells from 10% to 4.8% even after 24 hours and a reduction of sphere size by up to 25% at later culture stages were observed. Moreover, the number of Pax 6-positive amacrine, ganglion, and horizontal cells was significantly decreased from 36% to 16% in GFRalpha4 siRNA-transfected retinal spheres 72 hours after transfection. Additionally, GFRalpha4 gene silencing affected the development of different types of photoreceptors, as revealed by a significant decrease of blue opsin mRNA expression from 29% to 2%, whereas green opsin mRNA and the number rho4D2-positive photoreceptors were significantly increased. CONCLUSIONS: These data showed for the first time that GFRalpha4 plays an essential role in regulating, at least in vitro, the development and differentiation of various cell types during retinogenesis.