Your search keyword '"Rosario Fernandez-Godino"' showing total 3 results

1. Complement factor B is critical for sub-RPE deposit accumulation in a model of Doyne honeycomb retinal dystrophy with features of age-related macular degeneration

Author

Maura A Crowley, Donita L Garland, Holger Sellner, Angela Banks, Lin Fan, Tomas Rejtar, Natasha Buchanan, Omar Delgado, Yong Yao Xu, Sandra Jose, Christopher M Adams, Muneto Mogi, Karen Wang, Chad E Bigelow, Stephen Poor, Karen Anderson, Bruce D Jaffee, Ganesh Prasanna, Cynthia Grosskreutz, Rosario Fernandez-Godino, Eric A Pierce, Thaddeus P Dryja, and Sha-Mei Liao

Subjects

Genetics, General Medicine, Molecular Biology, Genetics (clinical)

Abstract

EFEMP1 R345W is a dominant mutation causing Doyne honeycomb retinal dystrophy/malattia leventinese (DHRD/ML), a rare blinding disease with clinical pathology similar to age-related macular degeneration (AMD). Aged Efemp1 R345W/R345W knock-in mice (Efemp1ki/ki) develop microscopic deposits on the basal side of retinal pigment epithelial cells (RPE), an early feature in DHRD/ML and AMD. Here, we assessed the role of alternative complement pathway component factor B (FB) in the formation of these deposits. RNA-seq analysis of the posterior eyecups revealed increased unfolded protein response, decreased mitochondrial function in the neural retina (by 3 months of age) and increased inflammatory pathways in both neural retina and posterior eyecups (at 17 months of age) of Efemp1ki/ki mice compared with wild-type littermate controls. Proteomics analysis of eye lysates confirmed similar dysregulated pathways as detected by RNA-seq. Complement activation was increased in aged Efemp1ki/ki eyes with an approximately 2-fold elevation of complement breakdown products iC3b and Ba (P

Published

2022

2. A local complement response by RPE causes early-stage macular degeneration

Author

Rosario Fernandez-Godino, Eric A. Pierce, and Donita Garland

Subjects

Complement C5a, Retinal Pigment Epithelium, Biology, Matrix metalloproteinase, Pathogenesis, Extracellular matrix, Macular Degeneration, Mice, Basal (phylogenetics), Extracellular matrix protein 1, Genetics, Animals, education, Molecular Biology, Cells, Cultured, Genetics (clinical), Extracellular Matrix Proteins, education.field_of_study, Interleukin, Original Articles, General Medicine, Matrix Metalloproteinases, eye diseases, Extracellular Matrix, Complement system, Cell biology, Disease Models, Animal, Mutation, Complement C3a, sense organs, Complement component 5a

Abstract

Inherited and age-related macular degenerations (AMDs) are important causes of vision loss. An early hallmark of these disorders is the formation of sub-retinal pigment epithelium (RPE) basal deposits. A role for the complement system in MDs was suggested by genetic association studies, but direct functional connections between alterations in the complement system and the pathogenesis of MD remain to be defined. We used primary RPE cells from a mouse model of inherited MD due to a p.R345W mutation in EGF-containing fibulin-like extracellular matrix protein 1 (EFEMP1) to investigate the role of the RPE in early MD pathogenesis. Efemp1(R345W) RPE cells recapitulate the basal deposit formation observed in vivo by producing sub-RPE deposits in vitro. The deposits share features with basal deposits, and their formation was mediated by EFEMP1(R345W) or complement component 3a (C3a), but not by complement component 5a (C5a). Increased activation of complement appears to occur in response to an abnormal extracellular matrix (ECM), generated by the mutant EFEMP1(R345W) protein and reduced ECM turnover due to inhibition of matrix metalloproteinase 2 by EFEMP1(R345W) and C3a. Increased production of C3a also stimulated the release of cytokines such as interleukin (IL)-6 and IL-1B, which appear to have a role in deposit formation, albeit downstream of C3a. These studies provide the first direct indication that complement components produced locally by the RPE are involved in the formation of basal deposits. Furthermore, these results suggest that C3a generated by RPE is a potential therapeutic target for the treatment of EFEMP1-associated MD as well as AMD.

Published

2015

3. Mouse genetics and proteomic analyses demonstrate a critical role for complement in a model of DHRD/ML, an inherited macular degeneration

Author

Kaye D. Speicher, David W. Speicher, Donita Garland, James M. Harnly, Rosario Fernandez-Godino, Eric A. Pierce, Inderjeet Kaur, and John D. Lambris

Subjects

Proteomics, Pathology, medicine.medical_specialty, genetic structures, Mice, Transgenic, Retinal Drusen, Inflammation, Biology, Drusen, Arginine, Pathogenesis, Extracellular matrix, Mice, Cell Adhesion, Genetics, medicine, Animals, Humans, Point Mutation, Gene Knock-In Techniques, Molecular Biology, Optic Disk Drusen, Genetics (clinical), Corneal Dystrophies, Hereditary, Extracellular Matrix Proteins, Tryptophan, Reproducibility of Results, Complement C3, Complement System Proteins, Articles, General Medicine, Anatomy, Macular dystrophy, Macular degeneration, medicine.disease, eye diseases, Complement system, Disease Models, Animal, Bruch Membrane, sense organs, medicine.symptom

Abstract

Macular degenerations, inherited and age related, are important causes of vision loss. Human genetic studies have suggested perturbation of the complement system is important in the pathogenesis of age-related macular degeneration. The mechanisms underlying the involvement of the complement system are not understood, although complement and inflammation have been implicated in drusen formation. Drusen are an early clinical hallmark of inherited and age-related forms of macular degeneration. We studied one of the earliest stages of macular degeneration which precedes and leads to the formation of drusen, i.e. the formation of basal deposits. The studies were done using a mouse model of the inherited macular dystrophy Doyne Honeycomb Retinal Dystrophy/Malattia Leventinese (DHRD/ML) which is caused by a p.Arg345Trp mutation in EFEMP1. The hallmark of DHRD/ML is the formation of drusen at an early age, and gene targeted Efemp1(R345W/R345W) mice develop extensive basal deposits. Proteomic analyses of Bruch's membrane/choroid and Bruch's membrane in the Efemp1(R345W/R345W) mice indicate that the basal deposits comprise normal extracellular matrix (ECM) components present in abnormal amounts. The proteomic analyses also identified significant changes in proteins with immune-related function, including complement components, in the diseased tissue samples. Genetic ablation of the complement response via generation of Efemp1(R345W/R345W):C3(-/-) double-mutant mice inhibited the formation of basal deposits. The results demonstrate a critical role for the complement system in basal deposit formation, and suggest that complement-mediated recognition of abnormal ECM may participate in basal deposit formation in DHRD/ML and perhaps other macular degenerations.

Published

2013