PURPOSE: Complement factor H (Cfh) is a key regulator of the alternative complement pathway. A Cfh variant (Y402H) increases the risk for AMD. The purpose of this study was to develop a pathophysiologically relevant animal model of AMD based on this genetic risk factor. METHODS: The authors generated chimeric Cfh transgenic mouse lines using two constructs consisting of the human CFH sequence for SCR6-8 (with either 402Y or 402H), flanked by the mouse sequence for SCR1-5 and SCR9-20. They tested the expression of the transgenic mRNA and protein molecules and examined the mice at 12 to 14 months of age for clinical and histologic retinal changes. RESULTS: Nuclease protection assay and qRT-PCR analysis demonstrated transgenic mRNA expression in the liver and in the posterior segment of the eye. Western blot analysis showed that the transgenic proteins are present in the circulation at levels comparable to those of mouse Cfh. The chimeric proteins were found to be functional, as demonstrated by their ability to restore physiological serum levels of complement component C3 in Cfh KO mice. Clinical examination showed subretinal drusen-like deposits. Histology demonstrated an accumulation of subretinal cells that stained with a macrophage/microglia marker. Basal laminar deposits, long-spaced collagen, and increased numbers of lipofuscin granules were seen on electron microscopy. Immunohistochemistry showed a thicker sub-RPE band of C3d staining. CONCLUSIONS: Chimeric Cfh proteins led to AMD-like characteristics in mice. This may represent a good model for studying the role of complement and other components of the immune system in early AMD.
PURPOSE:Complement factor H (Cfh) is a key regulator of the alternative complement pathway. A Cfh variant (Y402H) increases the risk for AMD. The purpose of this study was to develop a pathophysiologically relevant animal model of AMD based on this genetic risk factor. METHODS: The authors generated chimeric Cfhtransgenicmouse lines using two constructs consisting of the humanCFH sequence for SCR6-8 (with either 402Y or 402H), flanked by the mouse sequence for SCR1-5 and SCR9-20. They tested the expression of the transgenic mRNA and protein molecules and examined the mice at 12 to 14 months of age for clinical and histologic retinal changes. RESULTS: Nuclease protection assay and qRT-PCR analysis demonstrated transgenic mRNA expression in the liver and in the posterior segment of the eye. Western blot analysis showed that the transgenic proteins are present in the circulation at levels comparable to those of mouseCfh. The chimeric proteins were found to be functional, as demonstrated by their ability to restore physiological serum levels of complement component C3 in Cfh KO mice. Clinical examination showed subretinal drusen-like deposits. Histology demonstrated an accumulation of subretinal cells that stained with a macrophage/microglia marker. Basal laminar deposits, long-spaced collagen, and increased numbers of lipofuscin granules were seen on electron microscopy. Immunohistochemistry showed a thicker sub-RPE band of C3d staining. CONCLUSIONS: Chimeric Cfh proteins led to AMD-like characteristics in mice. This may represent a good model for studying the role of complement and other components of the immune system in early AMD.
Authors: Emma C Zanzottera; Jeffrey D Messinger; Thomas Ach; R Theodore Smith; K Bailey Freund; Christine A Curcio Journal: Invest Ophthalmol Vis Sci Date: 2015-05 Impact factor: 4.799
Authors: Chee Wai Wong; Jiemin Liao; Gemmy C Cheung; Chiea Chuen Khor; Eranga N Vithana; Jie Jin Wang; Paul Mitchell; Tin Aung; Tien Y Wong; Ching-Yu Cheng Journal: PLoS One Date: 2015-03-18 Impact factor: 3.240