Purpose : Mechanism underlying abnormal choriocapillaris vascular changes, hallmarks of age-related macular degeneration and diabetic retinopathy, are unknown. Nuclear receptors (NR) are a family of transcription factors responsible for various cellular homeostatic mechanisms as well as vascular changes during development/disease. Herein we developed a NR atlas of human choroidal endothelial cells (CEC) and freshly isolated choroidal tissue to identify potential candidate receptors that may play a role in vascular stability and/or disease.

Methods : The choroidal endothelium was a) dissociated and CECs isolated from human donor eyes (n=6 males and 2 females, ages 47-90, normal ophthalmic history), through positive enrichment by VE-cadherin cell sorting; or b) freshly isolated (FI; n=3 males and 3 females, ages 61-90). CECs were plated on gelatin/fibronectin coated plates until confluence, dissociated, and cell sorted with CD31 antibody to ensure a pure population. RNA was isolated (n=3 passages up to passage 5), integrity evaluated with an Agilent Bioanalyzer, and cDNA synthesized. Expression of all 48 NRs plus the aryl-hydrocarbon receptor (AhR) and AhR translocator (ARNT), in CECs and FI, were determined by relative absolute qRT-PCR (arbitrary expression ratio=arbitrary mass of NR/arbitrary mass of housekeeping gene ± SEM).

Results : NRs with the highest expression levels came from the thyroid hormone receptor-like subfamily [LXRβ (CEC: 1.22±0.02; FI: 1.04±0.02), PPARβ/δ1 (CEC: 1.01±0.02; FI: 1.02±0.05), PPARβ/δ2 (FI: 1.09±0.08), RARα (CEC: 1.03±0.04; FI: 1.15±0.05), RARβ (CEC: 1.47±0.05; FI: 1.80±0.12), RARγ (CEC: 1.34±0.07; FI: 1.15±0.05), Rev-ErbAβ (CEC: 1.14±0.03; FI: 1.04±0.07), RORα (FI: 1.15±0.04), RORβ (FI: 1.15±0.06), and RORγ (FI: 1.15±0.06)]. Highly expressed RXR-like NRs included RXRγ (FI: 1.44±0.04), COUP-TFII (CEC: 1.02±0.02), V-erbA-related (CEC: 1.17±0.03), and TR4 (CEC: 1.01±0.01; FI: 1.10±0.05). Additionally, AhR (CEC: 1.41±0.04; FI: 1.33±0.12) and ARNT (FI: 1.00±0.02) were highly expressed. Remaining NRs categorized into intermediate (CEC, n=12 NRs; FI, n=10 NRs), low (CEC, n=13 NRs; FI, n=17 NRs), and absent (CEC, n=15 NRs; FI, n=12 NRs) expression bins.

Conclusions : Through development of this atlas, we have identified candidate receptors (e.g. LXR, AHR, RARα, RARβ, RARγ, COUP-TFII, REV-ERBAα, REV-ERBAβ, PPARβ/δ1, PPARβ/δ2, RORα, and RXRγ) as potential regulators in vasculature homeostasis/disease, to be investigated further.

This is a 2020 ARVO Annual Meeting abstract.