Macrophage activation associated with chronic murine cytomegalovirus infection results in more severe experimental choroidal neovascularization.

The neovascular (wet) form of age-related macular degeneration (AMD) leads to vision loss due to choroidal neovascularization (CNV). Since macrophages are important in CNV development, and cytomegalovirus (CMV)-specific IgG serum titers in patients with wet AMD are elevated, we hypothesized that chronic CMV infection contributes to wet AMD, possibly by pro-angiogenic macrophage activation. This hypothesis was tested using an established mouse model of experimental CNV. At 6 days, 6 weeks, or 12 weeks after infection with murine CMV (MCMV), laser-induced CNV was performed, and CNV severity was determined 4 weeks later by analysis of choroidal flatmounts. Although all MCMV-infected mice exhibited more severe CNV when compared with control mice, the most severe CNV developed in mice with chronic infection, a time when MCMV-specific gene sequences could not be detected within choroidal tissues. Splenic macrophages collected from mice with chronic MCMV infection, however, expressed significantly greater levels of TNF-α, COX-2, MMP-9, and, most significantly, VEGF transcripts by quantitative RT-PCR assay when compared to splenic macrophages from control mice. Direct MCMV infection of monolayers of IC-21 mouse macrophages confirmed significant stimulation of VEGF mRNA and VEGF protein as determined by quantitative RT-PCR assay, ELISA, and immunostaining. Stimulation of VEGF production in vivo and in vitro was sensitive to the antiviral ganciclovir. These studies suggest that chronic CMV infection may serve as a heretofore unrecognized risk factor in the pathogenesis of wet AMD. One mechanism by which chronic CMV infection might promote increased CNV severity is via stimulation of macrophages to make pro-angiogenic factors (VEGF), an outcome that requires active virus replication.

Toll-like receptor 4 contributes to retinal ischemia/reperfusion injury.

PURPOSE: We investigated whether retinal ischemia and inflammation produced by raising the intraocular pressure above normal systolic levels differs in mice that lack a functional toll-like receptor 4 (Tlr4) signaling pathway. METHODS: In this work we used the murine strain B6.B10ScN-Tlr4(lps-del)/JthJ, which does not express functional Tlr4. C57BL/6J was considered as the control. We induced retinal ischemia by unilateral elevation of intraocular pressure for 1 h by direct corneal cannulation. The changes in expression of proinflammatory genes 24 h postreperfusion were assessed by quantitative PCR. Corresponding changes in protein abundances were analyzed by western blot and immunohistochemistry. Cell death was evaluated by direct counting of neurons in the ganglion cell layer of flat-mounted retinas seven days postreperfusion. RESULTS: We showed that Tlr4-deficient mice display significantly reduced expression of proinflammatory genes, including RelA, tumor necrosis factor (Thf), interleukin 6 (Il6), chemokine (C-C motif) ligand 2 (Ccl2), chemokine (C-C motif) ligand 5 (Ccl5), chemokine (C-X-C motif) ligand 10 (Cxcl10), Cybb, nitric oxide synthase 2 (Nos2), and intercellular adhesion molecule 1 (Icam1) 24 h after reperfusion. The mice that lacked Tlr4 showed significantly increased survival of neurons in the ganglion cell layer following ischemic injury, as compared to wild-type controls. CONCLUSIONS: Our results indicate that Tlr4 signaling is involved in retinal damage and inflammation triggered by ischemic injury.

Liposome-delivered ATP effectively protects the retina against ischemia-reperfusion injury.

PURPOSE: We investigated the effect of ATP (ATP) encapsulated in liposomes (ATP-liposomes) on the level of inflammation and neuronal death in the retina induced by ischemia reperfusion (IR). METHODS: Primary retinal ganglion cells treated with ATP-liposomes, empty liposomes, and phosphate buffer solution (PBS) were deprived of oxygen and glucose (OGD) for 6 h in vitro, in an anaerobic chamber. Plates were assessed for the proportion of necrotic versus apoptotic cells and for cell survival 12 h after OGD. For in vivo experiments, we induced retinal ischemia by unilateral elevation of intraocular pressure for 1 h by direct corneal canulation. Mice were injected with liposomes or PBS 24 h before IR, at the time of surgery, and every 24 h until sacrifice. Transmission electron microscopic analysis was used to identify necrotic and apoptotic cells in ischemic retinas. The changes in expression of pro-inflammatory genes 24 h post reperfusion were assessed by quantitative reverse transcription polymerase chain reaction (RT-PCR). Corresponding changes in protein abundances were analyzed by immunohistochemistry. Cell death was evaluated by direct counting of neurons in the ganglion cell layer (GCL) of flatmounted retinas 7 days post reperfusion. RESULTS: Treatment with ATP-liposomes increases retinal ganglion cell (RGC) survival and decreases necrotic cell death following OGD. Injection of ATP-liposomes markedly decreased necrotic cell death in the GCL following retinal ischemia. The ATP-liposome treatment reduced the expression of pro-inflammatory genes, including that of interleukin 1ß (Il1ß), interleukin 6 (Il6), tumor necrosis factor (Thf), chemokine (C-C motif) ligand 2 (Ccl2), chemokine (C-C motif) ligand 5 (Ccl5), chemokine (C-X-C motif) ligand 10 (Cxcl10), intercellular adhesion molecule 1 (Icam1), and nitric oxide synthase 2 (Nos2), in the retina 24 h after IR and significantly reduced the GCL neuron death rate 7 days after reperfusion. CONCLUSIONS: ATP-liposome treatment of IR-challenged neural tissues suppressed necrosis and correlated with a significantly reduced level of inflammation and retinal damage.

Spectral domain optical coherence tomography in a murine retinal detachment model.

Spectral domain optical coherence tomography (SD-OCT) was used to image retinal detachments in vivo, in a murine model of retinal detachment (RD). Subretinal injections of hyaluronic acid (Healon) were delivered to the right eye of seventeen 10-20 week-old C57Bl6 mice. Evaluation of the fundus with an operating microscope and fundus photography were performed. In vivo, non-contact, ultra high resolution SD-OCT imaging was performed on day 0, day 1-2, day 5-6 and day 15-16. The retinal morphology at the edge and in the area of maximal RD was evaluated. Eyes were enucleated for histologic analysis. The retinal detachment was confirmed by microscopy in all mice. The extent of the retinal detachment was evaluated by measuring the height of the retinal detachment. The retinal layers, including the photoreceptor layer, were evaluated. Retinal layers appeared indistinct soon after RD (day 1, 5), particularly over areas of maximal detachment. By day 5 and 15 the external limiting membrane was no longer visible and there was increased reflectivity of the photoreceptor layer and undulation of the outer retina in areas of RD on both SD-OCT and histology. The thickness of the outer nuclear layer and photoreceptor outer segments decreased on day 5 and 15. SD-OCT is a promising technology to follow retinal detachment and outer retinal abnormalities in a murine model.

Estrogen receptor beta protects against in vivo injury in RPE cells.

Epidemiological data suggest that estrogen deficiency in postmenopausal women may contribute to the severity of AMD. We discovered that 17beta-estradiol (E2) was a crucial regulator of the severity of extracellular matrix turnover (ECM) dysregulation both in vivo and in vitro. We also found in vitro that the presence of estrogen receptor (ER)beta regulates MMP-2 activity. Therefore in an attempt to delineate the role of the ER subtypes, female estrogen receptor knockout (ERKO) mice were fed a high-fat diet, and the eyes were exposed to seven 5-second doses of nonphototoxic levels of blue-green light over 2 weeks. Three months after cessation of blue light treatment, transmission electron microscopy was performed to assess severity of deposits, Bruchs membrane changes, and choriocapillaris endothelial morphology. We found that changes in the trimolecular complex of pro-MMP-2, MMP-14 and TIMP-2 correlated with increased Bruch's membrane thickening or sub-retinal deposit formation (basal laminar deposits) in ERKObeta mice. In addition RPE isolated from ERKObeta mice had an increase in expression of total collagen and a decrease in MMP-2 activity. Finally we found that ERK an intermediate signaling molecule in the MMP pathway was activated in RPE isolated from ERKObeta mice. These data suggest that mice which lack ERbeta are more susceptible to in vivo injury associated with environmental light and high fat diet.

Inactivation of astroglial NF-kappa B promotes survival of retinal neurons following ischemic injury.

Reactive astrocytes have been implicated in neuronal loss following ischemic stroke. However, the molecular mechanisms associated with this process are yet to be fully elucidated. In this work, we tested the hypothesis that astroglial NF-kappaB, a key regulator of inflammatory responses, is a contributor to neuronal death following ischemic injury. We compared neuronal survival in the ganglion cell layer (GCL) after retinal ischemia-reperfusion in wild-type (WT) and in GFAP-IkappaBalpha-dn transgenic mice, where the NF-kappaB classical pathway is suppressed specifically in astrocytes. The GFAP-IkappaBalpha-dn mice showed significantly increased survival of neurons in the GCL following ischemic injury as compared with WT littermates. Neuroprotection was associated with significantly reduced expression of pro-inflammatory genes, encoding Tnf-alpha, Ccl2 (Mcp1), Cxcl10 (IP10), Icam1, Vcam1, several subunits of NADPH oxidase and NO-synthase in the retinas of GFAP-IkappaBalpha-dn mice. These data suggest that certain NF-kappaB-regulated pro-inflammatory and redox-active pathways are central to glial neurotoxicity induced by ischemic injury. The inhibition of these pathways in astrocytes may represent a feasible neuroprotective strategy for retinal ischemia and stroke.

Retinal tumor imaging and volume quantification in mouse model using spectral-domain optical coherence tomography.

We have successfully imaged the retinal tumor in a mouse model using an ultra-high resolution spectral-domain optical coherence tomography (SD-OCT) designed for small animal retinal imaging. For segmentation of the tumor boundaries and calculation of the tumor volume, we developed a novel segmentation algorithm. The algorithm is based on parametric deformable models (active contours) and is driven by machine learning-based region classification, namely a Conditional Random Field. With this algorithm we are able to obtain the tumor boundaries automatically, while the user can specify additional constraints (points on the boundary) to correct the segmentation result, if needed. The system and algorithm were successfully applied to studies on retinal tumor progression and monitoring treatment effects quantitatively in a mouse model of retinoblastoma.

Mouse retinal pigmented epithelial cell lines retain their phenotypic characteristics after transfection with human papilloma virus: a new tool to further the study of RPE biology.

Development of immortalized mouse retinal pigmented epithelial cell (RPE) lines that retain many of their in vivo phenotypic characteristics, would aid in studies of ocular diseases including age related macular degeneration (AMD). RPE cells were isolated from 18-month-old (estrogen receptor knockout) ERKOalpha and ERKObeta mice and their C57Bl/6 wildtype littermates. RPE65 and cellular retinaldehyde binding protein (CRALBP) expression, in vivo markers of RPE cells, were detected by real-time RT-PCR and western analysis. We confirmed the presence of epithelial cell markers, ZO1, cytokeratin 8 and 18 by immunofluorescence staining. In addition, we confirmed the distribution of actin filaments and the expression of ezrin. To develop cell lines, RPE cells were isolated, propagated and immortalized using human papilloma virus (HPV) 16 (E6/E7). RPE-specific markers and morphology were assessed before and after immortalization. In wildtype littermate controls, there was no evidence of any alterations in the parameters that we examined including MMP-2, TIMP-2, collagen type IV, and estrogen receptor (ER)alpha and ERbeta protein expression and ER copy number ratio. Therefore, immortalized mouse RPE cell lines that retain their in vivo phenotype can be isolated from either pharmacologically or genetically manipulated mice, and may be used to study RPE cell biology.

Simultaneous fundus imaging and optical coherence tomography of the mouse retina.

PURPOSE: To develop a retinal imaging system suitable for routine examination or screening of mouse models and to demonstrate the feasibility of simultaneously acquiring fundus and optical coherence tomography (OCT) images. METHODS: The imaging system is composed of a photographic slit lamp for biomicroscopic examination of the fundus, an OCT interferometer, an OCT beam delivery system designed for the mouse eye, and a mouse positioning stage. Image acquisition was controlled with software that displays the fundus and OCT images in real time, and allows the user to control the position of the OCT beam spot on the fundus image display. The anesthetized mouse was placed in a cylindrical holder on the positioning stage, and a single operator adjusted the position of mouse. RESULTS: Fundus images and OCT scans were successfully acquired in both eyes of 8 C57BL/6 mice. Once the animal is anesthetized and placed in the holder, a typical imaging experiment takes less than 2 minutes. The retinal vasculature, pigmentation, nerve fiber arrangement, and optic nerve head were clearly visible on the fundus images. The quality of the OCT images was sufficient to allow measurement of the total, inner, and outer retinal thicknesses and to visualize the optic nerve head excavation. CONCLUSIONS: The study demonstrates the feasibility of acquiring simultaneous fundus and OCT images of the mouse retina, by a single operator, in a manner suitable for routine evaluation of mouse models of retinal disease.

Paclitaxel in the treatment of retinal tumors of LH beta-Tag murine transgenic model of retinoblastoma.

PURPOSE: The purpose of this study was to investigate tumor control efficacy of paclitaxel in the treatment of retinal tumors harbored by the LH beta-Tag murine transgenic model of retinoblastoma. METHODS: LH beta-Tag-positive mice (n = 5) 10 weeks of age received two 20-microL subconjunctival injections delivered with a 72-hour interval to right eyes only. Paclitaxel was dissolved in 100% dimethyl sulfoxide (DMSO) and delivered at doses of 0.5 mg, 0.25 mg, 0.125 mg, 0.0625 mg, 0.0313 mg, and 0.0152 mg in a 20-microL volume. Control mice received two subconjunctival injections of DMSO or of saline solution to right eyes only or they remained untreated. Eyes were analyzed at 16 weeks of age for residual tumor burden, which was measured by gauging the cross-sectional area of largest tumor focus. RESULTS: Linear regression analysis of tumor burden demonstrates a statistically significant (P < 0.001) dose-response relationship between paclitaxel concentration and tumor size. Transient ocular toxicities were observed after treatment, but most had subsided at the time of analysis, 6 weeks after injection. After histologic assessment, the 0.25-mg paclitaxel dose had effectively reduced tumor burden and was associated with minimal toxicity, including mild conjunctival chemosis and fibrosis, corneal epitheliopathy, and corneal edema. CONCLUSIONS: Subconjunctival delivery of paclitaxel effectively inhibits intraocular tumor burden in the LH beta-Tag model of retinoblastoma. This treatment modality may represent a novel strategy for the clinical management of retinoblastoma.

Evaluation of an integrated orbital tissue expander in an anophthalmic feline model.

PURPOSE: To evaluate the anatomical effects and tissue biocompatibility in a feline model of an integrated orbital tissue expander (OTE) designed to stimulate bone growth in an anophthalmic socket. DESIGN: An animal study was performed in cats to assess orbital bone growth with and without an OTE. METHODS: The OTE is an inflatable (0.5 to >6.0 cm(3)) polymeric globe sliding on a titanium T plate secured to the lateral orbital rim with screws. Eight cats had left eye enucleation at age two weeks, with five orbits receiving an OTE and the remaining three serving as nonimplanted controls. Serial transconjunctival implant inflation was performed by injecting normal saline solution into the OTE to a final volume of 3.5 ml. Serial computed tomographic scans were obtained to assess socket growth. All eight cats were euthanized at 18 weeks and dry skulls prepared. The effective orbital volume was measured by inflating an OTE in the orbit of a dry skull until it filled the cavity completely. RESULTS: Three cats periodically scratched open the tarsorrhaphy and conjunctiva to rupture the OTE, which resulted in implant exchanges. At 18 weeks, the OTE expanded orbital volume was approximately 18% smaller than the normal contralateral side. In the control animals, the anophthalmic orbital volume was approximately 66% smaller than the contralateral orbit. Histopathology of orbital tissues showed no evidence of foreign body reaction. CONCLUSIONS: This proof-of-concept pilot study demonstrated implant efficacy in cats, and no implant-related adverse effects were observed. OTE has the potential to stimulate bone growth in human anophthalmic orbits.

Anecortave acetate as single and adjuvant therapy in the treatment of retinal tumors of LH(BETA)T(AG) mice.

PURPOSE: To evaluate the tumor control efficacy of the antiangiogenic agent anecortave acetate as single and combined therapy, in retinal tumor reduction using the LH(BETA)T(AG) mouse model of retinoblastoma. METHODS: Group A: Ten-week-old, LH(BETA)T(AG) mice received a single subconjunctival injection of anecortave acetate (1200, 600, 300, and 150 microg) delivered to right eyes only. Group B: Ten-week-old, LH(BETA)T(AG) mice received a single subconjunctival injection of anecortave acetate (600, 300, and 150 microg) delivered to right eyes only, either during a cycle of carboplatin (six subconjunctival deliveries) or after the completed cycle. Carboplatin was delivered at the subtherapeutic concentration of 62.5 microg. All animals were euthanatized at 16 weeks of age, and the eyes were examined histopathologically. RESULTS: A statistically significant reduction in tumor burden was detected after a single periocular injection of anecortave acetate. The reduction of tumor burden followed a U-shaped dose-response curve. Tumor burden was significantly decreased when anecortave acetate and carboplatin were combined. However, varying doses and delivery schedule of these agents had significant impact on the effectiveness of the combined treatment. The most effective scheme was delivering a low dose (150-300 microg) of anecortave acetate after a complete cycle of carboplatin. Histopathological evaluation showed no signs of retinal toxicity to anecortave acetate delivery alone or in combination with carboplatin. CONCLUSIONS: Anecortave acetate, as monotherapy or as adjuvant therapy, significantly controlled tumor burden in a murine model of retinoblastoma. Moreover, adjuvant therapy enabled the use of typically subtherapeutic carboplatin doses without decreasing efficacy of the therapy.

Iontophoretic delivery of carboplatin in a murine model of retinoblastoma.

PURPOSE: To evaluate the efficacy and dose-response of transcorneoscleral Coulomb controlled iontophoresis (CCI) of carboplatin in the treatment of retinal tumors of a murine model of retinoblastoma. METHODS: Thirty 6-week-old LHBETATAG mice underwent a total of six, serial iontophoretic treatments administered two times per week using a current density of 2.57 mA/cm2 for 5 minutes. Fourteen animals received carboplatin treatments at concentrations of 1.4, 7.0, 10.0, or 14.0 mg/mL without current. Ten control mice underwent treatment with balanced saline solution. RESULTS: A dose-dependent inhibition of intraocular tumor was observed after repetitive iontophoretic treatment. At carboplatin concentrations of 7 mg/mL, 50% of the treated eyes (4/8) exhibited tumor control. No corneal toxicity was observed in eyes treated at carboplatin concentrations under 10 mg/mL. CONCLUSIONS: CCI delivery of carboplatin safely and effectively controls intraocular tumors in a dose-dependent manner in this murine model of retinoblastoma. CCI is a noninvasive, painless option for the focal delivery of carboplatin. However, further clinical and laboratory research is needed before this method of drug delivery is available for children with retinoblastoma.

Cigarette smoke-related oxidants and the development of sub-RPE deposits in an experimental animal model of dry AMD.

PURPOSE: Oxidative injury to the retinal pigment epithelium (RPE) has been proposed to be an important injury stimulus relevant to the accumulation of subretinal deposits in age-related macular degeneration (AMD). Cigarette smoking is a major risk factor for AMD, and cigarette smoke-related tar contains high concentrations of a potent oxidant, hydroquinone (HQ). This study was an investigation of the effects of cigarette smoke (CS) and HQ in the development of sub-RPE deposits in an experimental mouse model. METHODS: Sixteen-month-old C57BL/6 female mice were fed a high-fat diet (HFD) for 4.5 months. Mice were divided into two major experimental groups, one to examine the effects of cigarette smoke and one to study the effects of a defined cigarette smoke component such as HQ. In the first group, mice eyes were exposed to blue-green light (positive controls) or to whole cigarette smoke. A third group with no intervention served as the negative control. In the second experimental group, animals received a purified diet with HQ (0.8%) with low or high fat content for 4.5 months. Mice in both groups were euthanatized at 4.5 months and eyes processed for transmission electron microscopy. RESULTS: As previously demonstrated by our laboratory and others, most mice fed an HFD without other oxidant exposure demonstrated normal morphology or, in a few cases, small nodular basal laminar deposits. Eyes of mice exposed to whole cigarette smoke or to HQ in the food demonstrated a variable degree of basal laminar deposits and diffusely thickened Bruch's membrane. The choriocapillaris endothelium was variably hypertrophic. CONCLUSIONS: Exposure to cigarette smoke or the smoke-related redox molecule, HQ, results in the formation of sub-RPE deposits, thickening of Bruch's membrane, and accumulation of deposits within Bruch's membrane. Smoke-related oxidants may be another oxidative injury stimulus to the choriocapillaris and RPE, and may explain the association between cigarette smoking and early AMD.

Combretastatin A-4 prodrug in the treatment of a murine model of retinoblastoma.

PURPOSE: To evaluate the effect of subconjunctival injections of combretastatin A-4 phosphate (CA-4P) prodrug treatment on tumor vasculature and growth in an animal model of hereditary retinoblastoma. METHODS: Twenty-four, 12-week-old simian virus-40 T-antigen-positive mice received six subconjunctival CA-4P injections at doses of 0.5, 1.0, 1.5, and 2.0 mg delivered at 72-hour intervals to the right eye only. Six control animals received placebo treatment. All animals underwent serial ophthalmic evaluations and were euthanatized at 16 weeks of age, and eyes were obtained for histopathologic examination. Eyes were graded for presence or absence of tumor, delay of tumor growth, and intratumoral vascularity. RESULTS: The use of subconjunctivally injected CA-4P prodrug induced an extensive, dose-dependent decrease in microvessel density and led to significant tumor reduction in treated eyes compared with the placebo control (P <0.001). No evidence of corneal, lenticular, choroidal, or retinal toxicity was observed by histopathologic evaluation. CONCLUSIONS: Subconjunctival delivery of CA-4P is associated with extensive dose-dependent reduction in blood vessel count in this murine model of retinoblastoma. A combination treatment of retinoblastoma incorporating CA-4P may allow enhanced tumor reduction enabling a decrease in standard treatment doses of both chemotherapy and external beam radiotherapy.

Modulation of corneal vascularization.

Avascularity of normal cornea is a result of homeostasis between anti-angiogenic and pro-angiogenic stimuli. Disruption of this delicate balance during corneal wound healing can lead to pathological corneal vascularization. Several unique characteristics in the ocular surface epithelia modulate corneal avascularity. Normal cornea contains heparan sulfate to prevent the release of potent angiogenic cytokines, such as basic fibroblast growth factor (bFGF) from the Bowman's layer. Potent angiostatic factors, such as endostatin and angiostatin, can be produced from degradation of corneal extracelluar matrix. In contrast, conjunctiva contains angiogenic cytokines, such as bFGF and vascular endothelial growth factor. In addition to regulating release of angiogenic and angiostatic cytokines, matrix metalloproteinases (MMPs) and other proteolytic enzymes can modulate corneal vascularization via matrix degradation to allow endothelial migration and tissue remodeling. When the cornea becomes vascularized, inflammatory cells and mediators gain uninhibited access to the cornea, thus rendering immune sensitization and increased risk of corneal graft rejection. Novel therapies targeting angiogenic cytokines or MMPs have been shown to suppress corneal vascularization effectively in animal models, and may have therapeutic potential for clinical use.

Basal laminar deposit formation in APO B100 transgenic mice: complex interactions between dietary fat, blue light, and vitamin E.

PURPOSE: Dietary fat intake has been proposed as a mechanism of sub-RPE deposit formation. It has been demonstrated recently that sub-RPE deposits develop in 16- to 18-month-old C57BL/6 mice fed a high-fat diet and exposed to blue-green light. Hyperlipidemia also develops in these mice after they consume a high-fat diet. Because hyperlipidemia also develops in young C57BL/6 mice that overexpress APO B100, the major apolipoprotein in LDL cholesterol, this research was conducted to determine whether high-fat diet and plasma hyperlipidemia correlate with formation of basal laminar deposits (BLD) in young transgenic mice. METHODS: APO B100 and wild-type C57BL/6 2-month-old mice were fed a high-fat diet for 4.5 months. After the first month, the right eyes were exposed to seven 5-second doses of nonphototoxic levels of blue-green light (20 mJ of argon 488 nm) over 2 weeks. Three months later, transmission electron microscopy (TEM) of the retina was performed to evaluate whether sub-RPE deposits correlate with plasma cholesterol and triglyceride levels. Several eyes were stained with filipin to detect cholesterol and osmium-thiocarbohydrazide-osmium (OTO) to detect neutral lipids in Bruch's membrane (BrM). A third group of APO B100 2-month-old mice were pretreated with vitamin E subcutaneously twice a week throughout the experiment and underwent the same light-exposure protocol. RESULTS: Mice fed a high-fat diet had a more elevated plasma triglyceride and cholesterol level than those that consumed a regular diet. Young APO B100 mice fed a high-fat diet had blood lipid levels higher than those in young wild-type mice that consumed high-fat diets, and these two groups had higher lipid levels than animals with regular diets, as shown previously in wild-type C57BL/6 (old and young). Eyes of APO B100 mice treated with blue-green light showed a high frequency of "moderate BLD", whereas the nonexposed eyes did not. In contrast, no BLD formed in either eye of the wild-type young mice fed a high-fat diet. In individual affected mice, only a weak correlation was observed between deposit severity and plasma lipid concentration. None of the eyes in mice with sustained hyperlipidemia with or without BLD demonstrated obvious widespread neutral lipid or cholesterol deposition in BLD or BrM. However, vitamin E-treated mice showed minimal formation of BLD. CONCLUSIONS: Although a high-fat diet is a necessary precondition for this model of BLD, the findings demonstrated a convincing direct correlation between plasma lipidemia and deposit severity. The results suggest that age, as shown in previous studies, and high-fat predispose to formation of BLD by altering hepatic and/or RPE lipid metabolism in ways more complicated than plasma hyperlipidemia alone.

Bone marrow-derived progenitor cells contribute to experimental choroidal neovascularization.

PURPOSE: The pathogenesis of choroidal neovascularization (CNV) is postulated to be driven by angiogenesis, a process in which the cellular components of the new vessel complex are derived from cells resident within an adjacent preexisting capillary. Recently, an alternative paradigm, termed postnatal vasculogenesis, has been shown to contribute to some forms of neovascularization. In vasculogenesis, the cellular components of the new vessel complex are derived from circulating vascular progenitors from bone marrow. In the current study, transplantation of green fluorescent protein (GFP)-labeled bone marrow and laser-induced CNV were combined to examine the contribution of vasculogenesis to the formation of CNV. METHODS: Ten adult C57BL/6 female mice were used as recipients for bone marrow transplantation. Bone marrow was obtained from three C57BL/6 female mice transgenic for the beta-actin promoter GFP. One month after bone marrow transplantation, CNV was induced in recipient mice by making four separate burns in the choroid of each eye with a red diode laser. Four weeks after CNV was induced, eyes of recipient mice were processed for immunohistochemistry to detect GFP and markers for vascular smooth muscle cells (alpha-smooth muscle actin, desmin, and NG2 chondroitin sulfate proteoglycan), endothelial cells (CD31, BS-1 lectin), or macrophages (F4/80). RESULTS: GFP-labeled cells represented 17% of the total cell population in the lesion. Many of the GFP-labeled cells were immunoreactive for alpha-smooth muscle actin (39%), desmin, NG2, CD31 (41%), BS-1 lectin, or F4/80. GFP-labeled cells were morphologically indistinguishable from cells normally present in CNV lesions. CONCLUSIONS: This study is the first to demonstrate that bone marrow-derived progenitor cells are a source of endothelial and smooth musclelike cells in CNV.

Nicotine increases size and severity of experimental choroidal neovascularization.

PURPOSE: Cigarette smoking is the strongest environmental risk factor for all forms of age-related macular degeneration (AMD). In the present study, the influence of nicotine on the severity of choroidal neovascularization (CNV) in a mouse model of neovascular AMD and its effects on vascular smooth muscle cells derived from mouse choroid were investigated. METHODS: A mouse model for CNV was used to study the effects of nicotine in young and middle-aged mice. Nicotine was administered orally in the drinking water to achieve serum levels consistent with those of chronic smokers. Hexamethonium, a nonspecific nicotinic receptor antagonist, was injected subconjunctivally to counteract the effects of nicotine. A mouse choroidal vascular smooth muscle cell line was exposed to nicotine, vascular endothelial growth factor (VEGF), platelet-derived growth factor (PDGF), or a combination of one of the factors and nicotine. Cell growth was determined by cell counts, and the activity of matrix metalloproteinase (MMP)-2 and -9 was quantified by gel zymography. RESULTS: Nicotine administration resulted in increased size and vascularity of CNV, and older mice developed a greater relative increase than younger mice. This effect was blocked by subconjunctival hexamethonium. Choroidal vascular smooth muscle cells demonstrated a statistically significant increase in growth after exposure to a combination of PDGF and nicotine. Nicotine also reversed VEGF-induced suppression of MMP-2 activity. CONCLUSIONS: Nicotine increases size and severity of experimental CNV in the present mouse model, possibly by potentiating PDGF-mediated upregulation of proliferation of choroidal smooth muscle cells or by other mechanisms. These results suggest that non-neuronal nicotinic receptor activation probably mediates some of the harmful effects of cigarette smoking in wet AMD.

Age as an independent risk factor for severity of experimental choroidal neovascularization.

PURPOSE: For many vascular diseases, aging appears to be an independent risk factor for severity of vascular complications, and blood vessels of aged individuals often demonstrate exaggerated repair responses to injury. This study was undertaken to determine the influence of aging on the severity of neovascularization in a mouse model of laser-induced choroidal neovascularization (CNV). METHODS: CNV was induced in young (2-month-old) and aged (16-month-old) C57BL/6 mice by making four separate choroidal burns in each eye with a diode red laser (650 nm). At 1, 2, and 4 weeks, the left eyes were removed for histopathology, and the right eyes were removed for flatmount analysis of CNV surface area, vascularity, and cellularity. RESULTS: Aged mice demonstrated a much larger area of CNV than did young mice (3.81 +/- 1.28 vs. 1.36 +/- 0.99 disc areas, P < 0.001) at 2 weeks, when the lesions showed maximum growth. Aged mice also demonstrated higher ratios for vascularity and cellularity of the CNV (1.34 +/- 0.06 vs. 1.03 +/- 0.11, P < 0.0001 and 4.06 +/- 1.19 vs. 1.91 +/- 0.81, P < 0.002 at 2 weeks, respectively). Histopathology revealed that CNV in older eyes was larger, thicker, and more cellular than in young eyes. CONCLUSIONS: In mice, age is associated with more severe CNV, defined as larger surface area, greater vascularity, and greater cellularity. Age-related systemic susceptibility factors, independent of local changes in the retina, may contribute to the greater severity of CNV in older than in younger individuals.