David L. Forest scite author profile

We introduce a human retinal pigmented epithelial (RPE) cell-culture model that mimics several key aspects of early stage age-related macular degeneration (AMD). These include accumulation of sub-RPE deposits that contain molecular constituents of human drusen, and activation of complement leading to formation of deposit-associated terminal complement complexes. Abundant sub-RPE deposits that are rich in apolipoprotein E (APOE), a prominent drusen constituent, are formed by RPE cells grown on porous supports. Exposure to human serum results in selective, deposit-associated accumulation of additional known drusen components, including vitronectin, clusterin, and serum amyloid P, thus suggesting that specific proteinprotein interactions contribute to the accretion of plasma proteins during drusen formation. Serum exposure also leads to complement activation, as evidenced by the generation of C5b-9 immunoreactive terminal complement complexes in association with APOE-containing deposits. Ultrastructural analyses reveal two morphologically distinct forms of deposits: One consisting of membrane-bounded multivescicular material, and the other of nonmembrane-bounded particle conglomerates. Collectively, these results suggest that drusen formation involves the accumulation of sub-RPE material rich in APOE, a prominent biosynthetic product of the RPE, which interacts with a select group of drusen-associated plasma proteins. Activation of the complement cascade appears to be mediated via the classical pathway by the binding of C1q to ligands in APOE-rich deposits, triggering direct activation of complement by C1q, deposition of terminal complement complexes and inflammatory sequelae. This model system will facilitate the analysis of molecular and cellular aspects of AMD pathogenesis, and the testing of new therapeutic agents for its treatment.A ge-related macular degeneration (AMD) is characterized in its early stages by the presence of extracellular deposits, known as drusen, that accumulate between the basal surface of the retinal pigmented epithelium (RPE) and Bruch's membrane, an extracellular matrix complex that separates the neural retina from the capillary network in the choroid. Early electron microscopic studies suggested that drusen formation may be a consequence of degeneration of the RPE (1-3), initiated by membranous debris shed from its basal surface (4, 5). These early morphological observations have since been confirmed by a number of more recent studies (6-13).Contemporary investigations of the molecular composition of drusen have provided additional insights into their biogenesis. Immunohistochemical and proteomic studies show that drusen contain a variety of protein and lipid components (14, 15). Among these are several plasma proteins, the presence of which implies a systemic contribution to their genesis. Although the primary biosynthetic source for most of these circulating molecules is the liver, a number of them are also known to be synthesized locally by RPE cells (15)(16)(17)(18)(19). The respect...

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Novel compstatin family peptides inhibit complement activation by drusen-like deposits in human retinal pigmented epithelial cell cultures

Gorham

Forest

Tamamis

et al. 2013

Experimental Eye Research

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We have used a novel human retinal pigmented epithelial (RPE) cell-based model that mimics drusen biogenesis and the pathobiology of age-related macular degeneration to evaluate the efficacy of newly designed peptide inhibitors of the complement system. The peptides belong to the compstatin family and, compared to existing compstatin analogs, have been optimized to promote binding to their target, complement protein C3, and to enhance solubility by improving their polarity/hydrophobicity ratios. Based on analysis of molecular dynamics simulation data of peptide-C3 complexes, novel binding features were designed by introducing intermolecular salt bridge-forming arginines at the N-terminus and at position -1 of N-terminal dipeptide extensions. Our study demonstrates that the RPE cell assay has discriminatory capability for measuring the efficacy and potency of inhibitory peptides in a macular disease environment.

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Cellular models and therapies for age-related macular degeneration

Forest

Johnson

Clegg

2015

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Age-related macular degeneration (AMD) is a complex neurodegenerative visual disorder that causes profound physical and psychosocial effects. Visual impairment in AMD is caused by the loss of retinal pigmented epithelium (RPE) cells and the light-sensitive photoreceptor cells that they support. There is currently no effective treatment for the most common form of this disease (dry AMD). A new approach to treating AMD involves the transplantation of RPE cells derived from either human embryonic or induced pluripotent stem cells. Multiple clinical trials are being initiated using a variety of cell therapies. Although many animal models are available for AMD research, most do not recapitulate all aspects of the disease, hampering progress. However, the use of cultured RPE cells in AMD research is well established and, indeed, some of the more recently described RPE-based models show promise for investigating the molecular mechanisms of AMD and for screening drug candidates. Here, we discuss innovative cell-culture models of AMD and emerging stem-cell-based therapies for the treatment of this vision-robbing disease.

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Cell and molecular biology of SAE, a cell line from the spiny dogfish shark, Squalus acanthias

Parton

Forest

Kobayashi

et al. 2007

Comparative Biochemistry and Physiology Part C: Toxicology &

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Evidence of multiple paternity in spiny dogfish (Squalus acanthias) broods based on microsatellite analysis

Lage

Petersen

Forest

et al. 2008

Journal of Fish Biology

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David L. Forest

Cell culture model that mimics drusen formation and triggers complement activation associated with age-related macular degeneration

Novel compstatin family peptides inhibit complement activation by drusen-like deposits in human retinal pigmented epithelial cell cultures

Cellular models and therapies for age-related macular degeneration

Cell and molecular biology of SAE, a cell line from the spiny dogfish shark, Squalus acanthias

Evidence of multiple paternity in spiny dogfish (Squalus acanthias) broods based on microsatellite analysis

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