GSK3 inhibition reduces ECM production and prevents age-related macular degeneration–like pathology
Sophia M. DiCesare, Antonio J. Ortega, Gracen E. Collier, Steffi Daniel, Krista N. Thompson, Melissa K. McCoy, Bruce A. Posner, John D. Hulleman
Sophia M. DiCesare, Antonio J. Ortega, Gracen E. Collier, Steffi Daniel, Krista N. Thompson, Melissa K. McCoy, Bruce A. Posner, John D. Hulleman
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Research Article Ophthalmology

GSK3 inhibition reduces ECM production and prevents age-related macular degeneration–like pathology

Abstract

Malattia Leventinese/Doyne honeycomb retinal dystrophy (ML/DHRD) is an age-related macular degeneration–like (AMD-like) retinal dystrophy caused by an autosomal dominant R345W mutation in the secreted glycoprotein, fibulin-3 (F3). To identify new small molecules that reduce F3 production in retinal pigmented epithelium (RPE) cells, we knocked-in a luminescent peptide tag (HiBiT) into the endogenous F3 locus that enabled simple, sensitive, and high-throughput detection of the protein. The GSK3 inhibitor, CHIR99021 (CHIR), significantly reduced F3 burden (expression, secretion, and intracellular levels) in immortalized RPE and non-RPE cells. Low-level, long-term CHIR treatment promoted remodeling of the RPE extracellular matrix, reducing sub-RPE deposit-associated proteins (e.g., amelotin, complement component 3, collagen IV, and fibronectin), while increasing RPE differentiation factors (e.g., tyrosinase, and pigment epithelium-derived factor). In vivo, treatment of 8-month-old R345W+/+ knockin mice with CHIR (25 mg/kg i.p., 1 mo) was well tolerated and significantly reduced R345W F3-associated AMD-like basal laminar deposit number and size, thereby preventing the main pathological feature in these mice. This is an important demonstration of small molecule–based prevention of AMD-like pathology in ML/DHRD mice and may herald a rejuvenation of interest in GSK3 inhibition for the treatment of retinal degenerative diseases, including potentially AMD itself.

Authors

Sophia M. DiCesare, Antonio J. Ortega, Gracen E. Collier, Steffi Daniel, Krista N. Thompson, Melissa K. McCoy, Bruce A. Posner, John D. Hulleman

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Figure 1

Design and validation of fibulin-3 HiBiT tagging in ARPE-19 cells using CRISPR.

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Design and validation of fibulin-3 HiBiT tagging in ARPE-19 cells using ...
(A) Schematic of CRISPR editing of exon 2 of the fibulin-3 (F3) gene to knockin a 2xFLAG-VS-HiBiT sequence immediately proceeding the signal sequence cleavage site (upward arrow). (B) Successful editing was verified by gDNA amplification of exon 2. An additional band corresponding to insertion of the 87 bp 2x FLAG VS HiBiT tag was identified with a calculated editing efficiency of approximately 15%. (C) F3 HiBiT tagging results in a single extracellular protein species of correct molecular weight (~55 kDa), as identified by immunoprecipitation (FLAG beads) followed by elution and HiBiT blotting. (D) siRNA verifies that more than 95% of the HiBiT signal can be attributed to F3 gene translation. n = 3 independent experiments performed in biological triplicates. ****P ≤ 0.0001, 1-way ANOVA with Dunnett’s multiple comparison test vs. nontargeting siRNA.