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Targeted Delivery of Cell Softening Micelles to Schlemm's Canal Endothelial Cells for Treatment of Glaucoma

Trevor Stack, Michael P. Vincent, Amir Vahabikashi, Guorong Li, Kristin Perkumas, W. Daniel Stamer, Mark Johnson, Evan A. Scott

2020Small39 citationsDOIOpen Access PDF

Abstract

Increased stiffness of the Schlemm's canal (SC) endothelium in the aqueous humor outflow pathways has been associated with elevated intraocular pressure (IOP) in glaucoma. Novel treatments that relax this endothelium, such as actin depolymerizers and rho kinase inhibitors, are in development. Unfortunately, these treatments have undesirable off-target effects and a lower than desired potency. To address these issues, a targeted PEG-b-PPS micelle loaded with actin depolymerizer latrunculin A (tLatA-MC) is developed. Targeting of SC cells is achieved by modifying the micelle surface with a high affinity peptide that binds the VEGFR3/FLT4 receptor, a lymphatic lineage marker found to be highly expressed by SC cells relative to other ocular cells. During in vitro optimization, increasing the peptide surface density increased micellar uptake in SC cells while unexpectedly decreasing uptake by human umbilical vein endothelial cells (HUVEC). The functional efficacy of tLatA-MC, as measured by decreased SC cell stiffness compared to non-targeted micelles (ntLatA-MC) or targeted blank micelles (tBL-MC), is verified using atomic force microscopy. tLatA-MC reduced IOP in an in vivo mouse model by 30-50%. The results validate the use of a cell-softening nanotherapy to selectively modulate stiffness of SC cells for therapeutic reduction of IOP and treatment of glaucoma.

Topics & Concepts

Schlemm's canalGlaucomaChemistryTrabecular meshworkIn vivoUmbilical veinBiophysicsIntraocular pressureRho-associated protein kinaseCellCell biologyEndothelial stem cellCell-penetrating peptideMolecular biologyIn vitroMedicineBiochemistryBiologyKinaseOphthalmologyBiotechnologyGlaucoma and retinal disordersCorneal surgery and disordersProteoglycans and glycosaminoglycans research