PURPOSE: Platelet-derived growth factor (PDGF) has been implicated in vascular proliferative retinopathies, such as diabetic retinopathy, and in nonvascular retinopathies, such as proliferative vitreoretinopathy. Traction retinal detachment is a central feature of both types of disease. Hemizygous rhodopsin promoter/PDGF-B (rho/PDGF-B) transgenic mice exhibit proliferation of vascular cells, glia, and retinal pigmented epithelial (RPE) cells, resulting in traction retinal detachment. Hemizygous rho/PDGF-A transgenic mice show mild proliferation of glial cells and no traction retinal detachments. This study was undertaken to determine whether higher levels of endogenously produced PDGF-A in the retinas of mice result in retinal detachment. METHODS: To achieve high-level expression of PDGF-A in the retina, homozygous rho/PDGF-A (rho/PDGF-AA) mice were generated. The phenotype of these mice was compared with that of homozygous rho/PDGF-B (rho/PDGF-BB) mice and double hemizygous rho/PDGF-B-rho/PDGF-A (rho/PDGF-AB) mice. RESULTS: Rho/PDGF-BB and rho/PDGF-AB mice showed a phenotype similar to that previously described in rho/PDGF-B mice. There was extensive proliferation of glial and vascular cells, resulting in fibrovascular membranes that detached the retina. PDGF-AA mice showed extensive proliferation of glial cells and traction retinal detachment. CONCLUSIONS: High retinal expression of PDGF-A results in extensive proliferation of glial cells and traction retinal detachment without vascular cell involvement, similar to proliferative vitreoretinopathy in humans. High retinal expression of PDGF-B results in traction retinal detachment from proliferation of both vascular and nonvascular cells, similar to diabetic retinopathy in humans.
PURPOSE: Platelet-derived growth factor (PDGF) has been implicated in vascular proliferative retinopathies, such as diabetic retinopathy, and in nonvascular retinopathies, such as proliferative vitreoretinopathy. Traction retinal detachment is a central feature of both types of disease. Hemizygous rhodopsin promoter/PDGF-B (rho/PDGF-B) transgenic mice exhibit proliferation of vascular cells, glia, and retinal pigmented epithelial (RPE) cells, resulting in traction retinal detachment. Hemizygous rho/PDGF-Atransgenic mice show mild proliferation of glial cells and no traction retinal detachments. This study was undertaken to determine whether higher levels of endogenously produced PDGF-A in the retinas of mice result in retinal detachment. METHODS: To achieve high-level expression of PDGF-A in the retina, homozygous rho/PDGF-A (rho/PDGF-AA) mice were generated. The phenotype of these mice was compared with that of homozygous rho/PDGF-B (rho/PDGF-BB) mice and double hemizygous rho/PDGF-B-rho/PDGF-A (rho/PDGF-AB) mice. RESULTS: Rho/PDGF-BB and rho/PDGF-AB mice showed a phenotype similar to that previously described in rho/PDGF-Bmice. There was extensive proliferation of glial and vascular cells, resulting in fibrovascular membranes that detached the retina. PDGF-AA mice showed extensive proliferation of glial cells and traction retinal detachment. CONCLUSIONS: High retinal expression of PDGF-A results in extensive proliferation of glial cells and traction retinal detachment without vascular cell involvement, similar to proliferative vitreoretinopathy in humans. High retinal expression of PDGF-B results in traction retinal detachment from proliferation of both vascular and nonvascular cells, similar to diabetic retinopathy in humans.
Authors: John Doukas; Sankaranarayana Mahesh; Naoyasu Umeda; Shu Kachi; Hideo Akiyama; Katsutoshi Yokoi; Jon Cao; Zoe Chen; Luis Dellamary; Betty Tam; Adrienne Racanelli-Layton; John Hood; Michael Martin; Glenn Noronha; Richard Soll; Peter A Campochiaro Journal: J Cell Physiol Date: 2008-07 Impact factor: 6.384
Authors: Kun Ding; Lucia Eaton; Diana Bowley; Matthew Rieser; Qing Chang; Maria C Harris; Anca Clabbers; Feng Dong; Jikui Shen; Sean F Hackett; Debra S Touw; Jacqueline Bixby; Suju Zhong; Lorenzo Benatuil; Sahana Bose; Christine Grinnell; Gregory M Preston; Ramesh Iyer; Ramkrishna Sadhukhan; Susan Marchie; Gary Overmeyer; Tariq Ghayur; Deborah A van Riet; Shibo Tang; Peter A Campochario; Jijie Gu Journal: MAbs Date: 2017 Feb/Mar Impact factor: 5.857
Authors: Alexander Weidemann; Tim U Krohne; Edith Aguilar; Toshihide Kurihara; Norihiko Takeda; Michael I Dorrell; M Celeste Simon; Volker H Haase; Martin Friedlander; Randall S Johnson Journal: Glia Date: 2010-08 Impact factor: 7.452