Characterization of a dual media system for culturing primary normal and Fuchs endothelial corneal dystrophy (FECD) endothelial cells.

Primary cultures of human corneal endothelial cells (HCECs) are an important model system for studying the pathophysiology of corneal endothelium. The purpose of this study was to identify and validate an optimal primary culture model of normal and Fuchs endothelial corneal dystrophy (FECD) endothelial cells by comparing cell morphology and marker expression under different media conditions to in vivo donor tissues. Primary and immortalized HCECs, isolated from normal and FECD donors, were cultured in proliferation media (Joyce, M4, Bartakova) alone or sequentially with maturation media (F99, Stabilization 1, M5).

Pharmacological Profile and Ocular Hypotensive Effects of Cromakalim Prodrug 1, a Novel ATP-Sensitive Potassium Channel Opener, in Normotensive Dogs and Nonhuman Primates.

To evaluate pharmacokinetic parameters and ocular hypotensive effects of cromakalim prodrug 1 (CKLP1) in normotensive large animal models. Optimal CKLP1 concentration was determined by dose response and utilized in short- (5-8 days) and long-term (60 days) evaluation in hound dogs ( = 5) and African Green Monkeys ( = 5). Blood pressure was recorded 3-5 times per week with a tail cuff.

Isolation and characterization of novel primary cells from the human distal outflow pathway.

Ocular hypertension occurs due to increased resistance to aqueous humor removal through the conventional outflow pathway. Unlike the proximal region of the conventional outflow pathway, the distal region has not been well studied, mostly due to lack of model systems. Here we describe isolation and characterization of human primary vascular distal outflow pathway (VDOP) cells from the distal region of the conventional outflow pathway.

Pharmacological and pharmacokinetic profile of the novel ocular hypotensive prodrug CKLP1 in Dutch-belted pigmented rabbits.

Elevated intraocular pressure is the only treatable risk factor for glaucoma, an eye disease that is the leading cause of irreversible blindness worldwide. We have identified cromakalim prodrug 1 (CKLP1), a novel water-soluble ATP-sensitive potassium channel opener, as a new ocular hypotensive agent. To evaluate the pharmacokinetic and safety profile of CKLP1 and its parent compound levcromakalim, Dutch-belted pigmented rabbits were treated intravenously (0.

Effect of Cromakalim Prodrug 1 (CKLP1) on Aqueous Humor Dynamics and Feasibility of Combination Therapy With Existing Ocular Hypotensive Agents.

Purpose: Cromakalim prodrug 1 (CKLP1) is a water-soluble ATP-sensitive potassium channel opener that has shown ocular hypotensive properties in ex vivo and in vivo experimental models. To determine its mechanism of action, we assessed the effect of CKLP1 on aqueous humor dynamics and in combination therapy with existing ocular hypotensive agents.

Methods: Outflow facility was assessed in C57BL/6 mice by ex vivo eye perfusions and by in vivo constant flow infusion following CKLP1 treatment.

ATP-sensitive potassium (KATP) channel openers diazoxide and nicorandil lower intraocular pressure by activating the Erk1/2 signaling pathway.

Elevated intraocular pressure is the most prevalent and only treatable risk factor for glaucoma, a degenerative disease of the optic nerve. While treatment options to slow disease progression are available, all current therapeutic and surgical treatments have unwanted side effects or limited efficacy, resulting in the need to identify new options. Previous reports from our laboratory have established a novel ocular hypotensive effect of ATP-sensitive potassium channel (KATP) openers including diazoxide (DZ) and nicorandil (NCD).

Stanniocalcin-1 Is an Ocular Hypotensive Agent and a Downstream Effector Molecule That Is Necessary for the Intraocular Pressure-Lowering Effects of Latanoprost.

Purpose: To identify downstream signaling molecules through which intraocular pressure (IOP) is lowered following treatment with the prostaglandin analog latanoprost.

Methods: Total RNA and protein isolated from primary human Schlemm's canal cells (n = 3) treated with latanoprost (free acid; 100 nM) were processed for quantitative PCR and Western blot analysis. IOP was evaluated in stanniocalcin-1 (STC-1-/-) and wild-type mice following treatment with latanoprost or Rho kinase inhibitor Y27632.

Ocular Hypotensive Effects of the ATP-Sensitive Potassium Channel Opener Cromakalim in Human and Murine Experimental Model Systems.

Elevated intraocular pressure (IOP) is the most prevalent and only treatable risk factor for glaucoma, a leading cause of irreversible blindness worldwide. Unfortunately, all current therapeutics used to treat elevated IOP and glaucoma have significant and sometimes irreversible side effects necessitating the development of novel compounds. We evaluated the IOP lowering ability of the broad spectrum KATP channel opener cromakalim.

Second-generation trabecular meshwork bypass stent (iStent inject) increases outflow facility in cultured human anterior segments.

Purpose: To determine whether a second-generation trabecular meshwork (TM) bypass stent (iStent inject) influences outflow facility in cultured human anterior segments.

Design: Prospective laboratory investigation using normal human donor eyes.

Methods: Human anterior segments (n = 7) were placed in perfusion organ culture.

ATP-sensitive potassium (KATP) channel activation decreases intraocular pressure in the anterior chamber of the eye.

PURPOSE. ATP-sensitive potassium channel (K(ATP)) openers target key cellular events, many of which have been implicated in glaucoma. The authors sought to determine whether K(ATP) channel openers influence outflow facility in human anterior segment culture and intraocular pressure (IOP) in vivo.

Human corneal endothelial cell transplantation in a human ex vivo model.

Purpose: To determine the effects of incorporating superparamagnetic microspheres (SPMs) into cultured human corneal endothelial cells (HCECs) and to describe preliminary experiments of HCEC transplantation, facilitated by SPMs and an external magnetic field, in a human anterior segment ex vivo model.

Methods: HCECs were cultured as monolayers and incorporated with magnetite oxide SPMs (900, 300, and 100 nm) at different concentrations. Cell viability, migration toward a magnetic field, and light transmittance were measured after incorporation of the SPMs.

Characterization of monoclonal antibodies against the glaucoma-associated protein myocilin.

Although the glaucoma-associated protein myocilin has been the focus of intensive research, its biological function is still unknown. One of the limiting factors has been the lack of well-characterized antibodies, particularly monoclonal antibodies. We describe the development of six monoclonal antibodies specific to myocilin and characterize their suitability in Western blot and immunohistochemical applications.

Prostaglandins increase trabecular meshwork outflow facility in cultured human anterior segments.

Purpose: To determine the effect of latanoprost free acid and prostaglandin E1 (PGE1) on outflow facility in cultured human anterior segments. Clinical studies find prostaglandin treatment increases uveoscleral outflow, but do not agree whether trabecular outflow increases. Cultured anterior segments eliminate the uveoscleral pathway and enable a direct assessment of trabecular outflow.

Perfusion of his-tagged eukaryotic myocilin increases outflow resistance in human anterior segments in the presence of aqueous humor.

Purpose: A previous study by the authors has shown that recombinant myocilin purified from a prokaryotic expression system increases outflow resistance in cultured human anterior segments. The present study was performed to determine whether full-length myocilin purified from a human trabecular meshwork cell expression system alters outflow resistance after infusion into human anterior segments.

Methods: A feline immunodeficiency virus vector encoding both full-length myocilin (amino acids 1-503 fused to C-terminal V5 and six-histidine epitopes) and puromycin resistance was used to transduce a transformed trabecular meshwork cell line (TM5).

Trabecular bypass stents decrease intraocular pressure in cultured human anterior segments.

Purpose: To determine the effect on intraocular pressure (IOP) of bypassing the trabecular meshwork in cultured human anterior segments.

Design: Prospective laboratory investigation using normal human eyes obtained at autopsy.

Methods: Anterior segments from 21 eyes were placed in perfusion culture, and trabecular bypass stents were inserted through the trabecular meshwork, with the lumen of the tube opening into Schlemm's canal.

Cationic ferritin and segmental flow through the trabecular meshwork.

Purpose: To determine whether segmental labeling by the tracer molecule cationic ferritin (CF) is indicative of preferential patterns of fluid flow in the trabecular meshwork or of differences in cell and extracellular matrix properties. Nonlabeled regions could indicate no fluid entering that area, insufficient perfusion time, or that the cells and extracellular matrix differ in that region and cannot bind CF.

Methods: Six whole eyes (three normal and three with pseudoexfoliation [PEX]) syndrome were perfused with CF for 30 minutes to 4 hours.

Factors influencing intraocular pressure in cultured human anterior segments.

Purpose: To determine why variations in intraocular pressure (IOP) occur in cultured human anterior segments despite a constant rate of infusion of culture medium. Two types of variations occur: an initial elevation of IOP and small changes in baseline IOP.

Methods: Anterior segments from human eyes were placed in perfusion organ culture.

Long-term, targeted genetic modification of the aqueous humor outflow tract coupled with noninvasive imaging of gene expression in vivo.

Purpose: To address a problem impeding research into glaucoma-associated genetic mutations and glaucoma gene therapy and achieve permanent, targeted transgene expression in the trabecular meshwork (TM). Lentiviral vectors are known to transduce human donor eye TM ex vivo, but efficacy in vivo has not been shown. More generally in the field of gene therapy, the authors hypothesized that distinctive properties of the intraocular aqueous circulation could facilitate solving problems of accessibility, targeting, and scale that have hindered realization of gene therapy in other settings.

Pharmacologic disruption of Schlemm's canal cells and outflow facility in anterior segments of human eyes.

Purpose: To determine the effect of disruption of Schlemm's canal cells on outflow facility. Pharmacologic agents that weaken the cytoskeleton or interfere with integrin binding may allow targeted disruption of the cells lining Schlemm's canal because of the transmural pressure gradient the cells face as aqueous passes into the canal.

Methods: Anterior segments of human eyes were placed in perfusion organ culture, and either single or sequential doses of H-7 or RGD peptide were added.

Effect of heparin II domain of fibronectin on aqueous outflow in cultured anterior segments of human eyes.

Purpose: To determine whether an integrin/syndecan-binding domain of fibronectin, called the heparin II (Hep II) domain, affects outflow facility in the human eye.

Methods: Anterior segments of human eyes were placed in perfusion organ culture. One eye of each pair received the Hep II domain, and the fellow eye received DMEM or a heat-denatured Hep II domain.

Preservation of aqueous outflow facility after second-generation FIV vector-mediated expression of marker genes in anterior segments of human eyes.

Purpose: Feline immunodeficiency virus (FIV)-based lentiviral vectors produce effective genetic modification of the trabecular meshwork (TM) of human eyes in organ-perfusion culture, resulting in high-level expression of a beta-galactosidase marker gene (lacZ) without loss of TM cellularity or architecture. However, effects on aqueous outflow physiology have not been determined, and the ability to monitor FIV vector transgene expression in living TM in situ has not been established. In the current study, transgene expression and outflow facility were evaluated in perfused human anterior segments after FIV vector transduction of lacZ or of a marker gene that can be monitored noninvasively, enhanced green fluorescent protein (eGFP).