Preventive versus treatment effect of AG3340, a potent matrix metalloproteinase inhibitor in a rat model of choroidal neovascularization.

PURPOSE: AG3340 (prinomastat) is a nonpeptidic, small-molecular-weight, synthetic matrix metalloproteinase inhibitor (MMPI) with selective inhibitory action of MMP-2, MMP-9, MMP-3, and MT-MMP1. We evaluated AG3340 injected intravitreally to treat choroidal neovascularization in a laser induced rat CNV model. METHODS: In the pretreatment group, the drug was injected the same day after induction of choroidal neovascularization by diode laser. In the treatment group, the drug was injected 2 weeks after induction of choroidal neovascularization (CNV). Fluorescein and indocyanine green angiography were performed to evaluate CNV. ERG recordings and histology were performed to assess toxicity and the CNV lesions. RESULTS: When used at the time of CNV induction, 62.8% of lesions in control versus 22.8% of the laser lesions in treated eyes developed CNV (p < 0.0001). The invading fibrovascular complex was thicker in the control eyes than that in the treated eyes. No signs of toxicity were detected. When used to treat established CNV, the percentage of leakage in treated and control eyes were 54.1% and 58.9% respectively (p > 0.05). Prinomastat was effective when given at the time of induction of CNV in the rat model. Administration of prinomastat 2 weeks after laser induction did not show efficacy. CONCLUSION: Prinomastat was active in the earliest stages of experimental CNV. It might be best used in combination with photodynamic therapy to inhibit recurrence of CNV from temporarily closed new vessels.

Ganciclovir release rates in vitreous from different formulations of 1-O-hexadecylpropanediol-3-phospho-ganciclovir.

PURPOSE: To determine the optimal formulation of lipid prodrug, 1-O-hexadecyloxypropyl-phospho-ganciclovir (HDP-P-GCV), for intravitreal delivery. METHODS: Equal concentrations of crystalline or liposomal HDP-P-GCV were exposed to rabbit whole vitreous, core vitreous, peripheral vitreous, human plasma, and heat inactivated rabbit vitreous, and the samples were incubated at 37 degrees C for one week. Aliquots were taken at day 1, 2, 3, and 7 and subjected to HPLC analysis for conversion to GCV. RESULTS: The resultant concentration of GCV from crystalline HDP-P-GCV in vitreous was 198 +/- 49 microM (n = 3) at day 1 and 1253 +/- 248 microM (n = 3) at day 7. The resultant concentration of GCV from the liposomal formulation of HDP-P-GCV in vitreous was much lower, yielding a concentration of 66 +/- 7 microM (n = 3) at day 1 and 243 +/- 39 microM (n = 3) at day 7 (P < 0.001, t Test). When the crystalline HDP-P-GCV was incubated with heat-inactivated vitreous, the detectable GCV concentrations were low (22 microM) and did not increase over time. The concentration of GCV detected from the crystalline HDP-P-GCV in the core vitreous was 19.69 +/- 3.84 microM (n = 3) at day 1 and 1537.36 +/- 177.14 microM (n = 3) at day 7. The concentration of GCV released from crystalline HDP-P-GCV in peripheral vitreous was 32.86 +/- 5.07 microM (n = 3) at day 1 and 1805.78 +/- 327.94 microM (n = 3) at day 7. Detectable GCV concentration from both core and peripheral vitreous samples increased over time, however, the magnitude of GCV release from peripheral vitreous samples was higher (P < 0.05, t Test). CONCLUSION: In vitreous, HDP-P-GCV as a crystalline formulation was converted to GCV more rapidly than liposomal formulation of HDP-P-GCV. Vitreous cells may play an important role in the metabolism of either formulation of HDP-P-GCV delivered into vitreous.

Human immunodeficiency virus type 2 (HIV-2) vector-mediated in vivo gene transfer into adult rabbit retina.

PURPOSE: To evaluate the potential usefulness of HIV-2 viral vector in in vivo retinal gene therapy. METHODS: An HIV-2 virus based viral vector was constructed and administered subretinally and intravitreally into rabbit eyes. After viral vector administration, the eyes were closely monitored for any adverse effects by slit lamp, indirect ophthalmoscopy, and fundus photography. Eyes were enucleated at specified times after injection, and reporter gene expression was identified within cell types and graded by the pattern and distribution of staining cells using fluorescent microscopy. RESULTS: The HIV-2 viral vector demonstrated efficient gene transfer into many types of retinal cells without apparent cytotoxicity. Notably with subretinal injection, the HIV-2 vector resulted in higher efficiency of transduction of photoreceptor cells than of the other cell types (p < 0.05). With the intravitreal administration of HIV-2 viral vectors, cellular transduction and transgene expression in the ganglion cell layer was the dominant finding. CONCLUSIONS: HIV-2 viral vector may be a useful gene delivery vehicle for retinal photoreceptor cells and ganglion cells. It deserves further exploration to investigate its potential merit in long term gene therapy protocols and in other animal species.

An orthotopic model for human uveal melanoma in SCID mice.

The microcirculation of primary uveal melanomas, their precursors, and their metastases is distinctive. Medium-sized and even large primary uveal melanomas typically lack significant zones of necrosis, suggesting that either these tumors are relatively well perfused or they are capable of growth in a severely blood-deprived microenvironment. In addition to normal choroidal vessels that are incorporated into nevi and most primary uveal melanomas, aggressive primary and metastatic uveal melanomas tend to contain patterns of extracellular matrix that surround spheroidal or cylindrical packets of tumor cells. Some components of this branching, looping, and interconnected system of matrix may be perfused. It is now known that the generation of this patterning is a characteristic of genetically dysregulated melanoma cells (nonaggressive tumor cells do not form these patterns and melanomas lacking branching, looping, or interconnected matrix patterns tend to follow a relatively indolent course). We developed an orthotopic model of an aggressive human uveal melanoma by injecting suspensions of the primary human choroidal melanoma cell line (OCM1) into the subretinal space of one eye of 20 SCID mice. All mice were examined daily for tumor growth and tumors developed in every eye within 3 weeks of injection. The tumors were characterized by extraocular extension and the development of looping matrix patterns characteristic of those seen in aggressive human uveal melanoma. As in human uveal melanomas, these patterns were perfused by blood in areas. The orthotopic injection of human uveal melanoma cells into the SCID mouse eye generates a model reproducing the matrix-associated microcirculatory patterns of aggressive primary human uveal melanomas. This model can be used to explore the molecular pathogenesis and modulation of this novel circulation in vivo, to facilitate our understanding of the blood flow to these tumors providing insight into perfusion and drug delivery, to enable testing of pharmacologic modulation of pattern formation and intratumoral blood flow, and to refine noninvasive methods such as confocal scanning laser ophthalmoscopy to detect the presence of these patterns by which ophthalmologists might assess the biological behavior of tumors as noninvasive substitute for biopsy.

Efficacy of Prinomastat) (AG3340), a matrix metalloprotease inhibitor, in treatment of retinal neovascularization.

PURPOSE: To study the activity of the novel anti-angiogenic compound AG3340 (Prinomastat), a selective inhibitor of matrix metalloproteases, in an animal model of retinal neovascularization. METHODS: C57BL/6J mice were used to produce oxygen-induced retinal neovascularization. Mice were exposed to room air from birth (P0) to postnatal 7 days (P7) and to hyperoxia (75% oxygen) for the next 5 days. On postnatal day 12 (P12) the animals were returned to the room air and were treated until postnatal day 16 (P16) with intraperitoneal injections of AG 3340. Four groups were assigned: no drug, 1.6 mg/kg/day, 16 mg/kg/day and 48 mg/kg/day. On day 17 (P17) the animals were sacrificed and the eyes prepared for histological sectioning. Preretinal neovascularization was assessed by counting neovascular nuclei of endothelial cells in the preretinal side of the internal limiting membrane (ILM). The use of animals for this study complies with the ARVO guidelines for animal research. RESULTS: AG3340 administered systemically by intraperitoneal injections inhibited hypoxia-induced retinal neovascularization. The inhibition was dose dependent with highly significant decrease of neovascular nuclei counts among eyes treated with 0, 1.6 mg/kg, 16 mg/kg and 48 mg/kg doses. There appears to be a saturation effect of inhibition at the level of 70% at the two highest doses of 16 mg/kg and 48 mg/kg. CONCLUSIONS: AG3340 administered systemically significantly inhibits oxygen-induced retinal neovascularization in an animal model and appears to be a promising candidate for the treatment of neovascular retinal diseases.

Treatment or prevention of herpes simplex virus retinitis with intravitreally injectable crystalline 1-O-hexadecylpropanediol-3-phospho-ganciclovir.

PURPOSE: To evaluate an intraocular drug delivery system consisting of the crystalline ammonium salt of 1-O-hexadecylpropanediol-3-phospho-ganciclovir (HDP-P-GCV) as a slow-release form of the drug. METHODS: A dosage of 0.885, 1.57, 2.8, 4.486, or 8.85 micromol of ammonium salt HDP-P-GCV in 0.1 mL was intravitreally injected into rabbit vitreous. The toxicity and safety were evaluated with ophthalmoscopy, electroretinography, and pathology. Drug vitreous levels were determined at various time intervals by means of HPLC. The treatment efficacy and duration of efficacy were tested in a herpes simplex virus (HSV)-1 retinitis rabbit model. RESULTS: Intravitreal injections of the compound revealed clear vitreous of optic axis, a desirable drug depot in the inferior vitreous cavity, and no clinical toxicity, except for variable mild local posterior subcapsular cataract and local retinal toxicity with high doses. HPLC analysis showed free ammonium salt of HDP-P-GCV in the upper vitreous at a level of 0.2 microM 12 weeks after the 2.8-micromol initial intravitreal dose. Drug concentration was still 1.95 microM 20 weeks after the 8.85-micromol initial intravitreal dose. These concentrations (0.2 and 1.95 microM) were 10 and 100 times higher, respectively, than the median inhibitory concentration (IC(50)) of HSV-1 (0.023 microM). Treatment with the highest nontoxic dose (2.8 micromol) and the highest dose (8.85 micromol) showed significant protection from HSV-1 infection (P < 0.05) and provided sustained antiviral effect after a single intravitreal drug injection. CONCLUSIONS: The crystalline ammonium salt of HDP-P-GCV may be a very useful local therapy for herpes family viral retinitis.