Iron-induced fluorescence in the retina: dependence on vitamin A

PURPOSE: Intravitreal iron injection induces fluorophore formation in the photoreceptor outer segments, followed by an accumulation of inclusions with lipofuscin-like fluorescence in the retinal pigment epithelium (RPE). The accumulation of RPE lipofuscin during aging is dependent on vitamin A availability. Experiments were conducted to determine whether iron-induced fluorophore formation in the outer segments and in RPE is also dependent on vitamin A, and thus whether oxidation promotes the participation of vitamin A in lipofuscin formation. METHODS: For 23 weeks, beginning at weaning, albino Fischer rats were fed diets containing vitamin A either in the form of retinyl palmitate (+A), which can be metabolically converted into the retinoids involved in vision, or retinoic acid (-A), which does not support visual function. After 23 weeks, when rhodopsin levels had decreased more than 90% in the -A rats, some animals in this group were given an intramuscular injection of all-trans retinol and were allowed to recover from retinoid deficiency for 7 days (-A+A). Animals in all three treatment groups were then given an intravitreal injection of ferrous sulfate. Both 1 day and 7 days after the iron injections, the retinas and RPEs were examined for fluorophores with excitation and emission properties similar to those of RPE lipofuscin fluorophores. RESULTS: In retina sections examined with fluorescence microscopy 24 hours after the ferrous sulfate treatment, the photoreceptor outer segments of rats in all of the treatment groups displayed a fluorescence with a blue emission maximum. This outer-segment fluorescence was not present in untreated eyes. The in situ outer-segment fluorescence was correlated with the appearance of blue-emitting fluorophores in organic solvent extracts of the retinas. One week after the iron injections, the RPE cells of the +A animals became filled with inclusions that displayed a golden-yellow fluorescence emission when excited by blue light. Very little of this lipofuscin-like fluorescence was observed in the RPE of the -A rats 1 week after iron treatment. However, in the -A rats that had been repleted with vitamin A, the ability of iron to induce the RPE fluorescence was restored. Several orange-emitting fluorophores were present in organic solvent extracts of the RPE-choroids of the +A rats. The amounts of these fluorophores were not appreciably affected by the iron treatment. These orange-emitting compounds were not observed in extracts of any eyes in the -A or -A+A groups. CONCLUSIONS: The results of this study suggest that oxidation of the photoreceptor outer-segment lipids generates blue-emitting fluorophores that are not directly involved in RPE lipofuscin fluorophore formation. The findings also indicate that retinoids are direct precursors of RPE lipofuscin fluorophores, and that oxidative stress to the retina promotes participation of vitamin A in the formation of some of the compounds responsible for RPE lipofuscin fluorescence.     

Lipofuscin accumulation in cultured retinal pigment epithelial cells reduces their phagocytic capacity

PURPOSE: Retinal pigment epithelial (RPE) cells slowly accumulate lipofuscin pigment within their acidic vacuolar apparatus as a result of extra- and/or intralysosomal oxidative alterations of phagocytosed photoreceptor outer segments (POS) with consequent imperfect degradation of these structures. In old age, lipofuscin accumulation may become quite substantial. It has been suggested that pronounced accumulation of lipofuscin is related to decreased RPE function and, possibly, to age-related macular degeneration. The aim of the present investigation was to study whether heavy loading with lipofuscin of RPE acidic lysosomes would affect the further phagocytic ability of the cells. METHODS: In the first section of the investigation, cultures of rabbit RPE cells were exposed daily to bovine UV-irradiated POS (artificial lipofuscin) for 4 weeks, resulting in a pronounced lipofuscin accumulation of the cells. Fluorescent latex beads (labelled with a red fluorophore) were added to unloaded control cultures at O and 4 weeks after their establishment, and to lipofuscin loaded cells after 4 weeks of feeding with artificial lipofuscin. Cellular amounts of lipofuscin, and their phagocytotic activity, were quantified by static fluorometry measuring lipofuscin-specific and red bead-specific fluorescence, respectively. The intracellular location of the beads was verified by confocal laser scanning microscopy. RESULTS: Unloaded, and thus almost lipofuscin-free, control cells exposed to latex beads showed numerous cytoplasmic particles emitting reddish fluorescence, while few particles were taken up by cells initially loaded with artificial, POS-derived, lipofuscin. Measurement of the latex bead-specific fluorescence showed significantly (p < 0.001) higher levels in unloaded control cells than in lipofuscin-loaded ones. In the second part of the investigation, unloaded control cultures and lipofuscin-loaded cultures were exposed to native bovine Texas Red-X-labelled POS 4 weeks after the establishment of the cultures. Unloaded control cells showed a large number of cytoplasmic POS emitting reddish fluorescence, while fewer POS were phagocytosed by cells loaded with artificial lipofuscin. Measurement of the Texas Red-X-specific fluorescence, thus quantifying the phagocytic ability of the cells, showed significantly (p < 0.001) higher levels in control cells than in lipofuscin-loaded ones. CONCLUSIONS: Severe lipofuscin accumulation of RPE cells appears to result in a greatly decreased phagocytic capacity. The resulting reduction in ability to cope with the needs of the overlying photoreceptor cells, in order to eliminate the obsolete tips of their POS, may well be of significance in the development of age-related macular degeneration.     

Integrated Child Development Services Programme--need for reappraisal

BACKGROUND: Lipofuscin granules in the retinal pigment epithelium are lipid protein aggregates which are thought to represent the lifelong accumulation of the non-degradable end products from the phagocytosis of photoreceptor outer segments. Given the increasing evidence for a key role for vitamin A in the formation of ocular lipofuscin, the fluorophores generated by reacting vitamin A with lipid were assessed. METHODS: Reaction mixtures consisting of vitamin A (retinol) or its aldehyde (retinal) and (a) isolated rod outer segments, (b) the lipid extract of rod outer segments, (c) protein, or (d) liposomes were incubated at either pH 4.5 or 7.0 for up to 42 days. The fluorescence characteristics and mobility of the chloroform soluble fluorophores generated were compared with those extracted from purified human lipofuscin. Finally, the effect of lysosomal degradation on fluorophores generated in the above mixtures was assessed. RESULTS: Major spectral changes were observed when ROS or liposomes were incubated with retinal. These changes were pH dependent and did not occur if retinal was replaced with retinol. A number of the fluorophores generated exhibited similar fluorescence characteristics and chromatographic mobility to those of lipofuscin. Neither the presence of protein nor exposure to lysosomal enzymes had any effect on the spectral profile or fluorophore mobility of the fluorophores generated. CONCLUSIONS: These results suggest that some of the chloroform soluble fluorophores of lipofuscin are formed as a direct reaction product of retinal and lipid.     

Evaluation of oxidative processes in human pigment epithelial cells associated with retinal outer segment phagocytosis

To investigate the nature of the oxidative event that occurs during phagocytosis of retinal outer segments (ROS) by cultured human retinal pigment epithelial (RPE) cells, cells were incubated with isolated bovine ROS labeled with either the fluorescence probe carboxy-SNAFL-2 or the nonfluorescent, oxidizable probe 2',7'-dichlorodihydrofluorescein (H2DCF). The increase in fluorescence following phagocytosis was measured by a flow cytometer. Other measurements included: oxygen consumption using a Clark-type oxygen electrode, extracellular superoxide release by superoxide dismutase inhibitable lucigenin chemiluminescence, intracellular hydrogen peroxide (H2O2) production, and the effect of catalase inhibition on cellular thiobarbituric acid-reactive substances (TBARS) caused by phagocytosis. The activities of the enzymes NADPH oxidase and palmitoyl-CoA oxidase were also measured. H2DCF attached to bovine ROS was oxidized during phagocytosis with a time course suggesting oxidation subsequent to ROS uptake. Measurements of oxygen consumption showed a time-dependent increase of 10%, 4 h after ROS feeding, attributable to a doubling of the cyanide-resistant oxygen consumption. Intracellular H2O2 production also doubled 4 h after ROS phagocytosis. ROS uptake by RPE cells produced no significant extracellular superoxide, while extracellular superoxide production was readily demonstrated in a control macrophage cell line. Enzyme activity measurements showed that incubation of RPE cells with ROS doubled catalase activity without affecting superoxide dismutase or glutathione peroxidase activities. Inhibition of catalase during ROS uptake increased TBARS by 66%. Other enzyme activity measurements showed that human RPE cells possess both NADPH oxidase and palmitoyl-CoA oxidase activities. We conclude that ROS phagocytosis subjects RPE cells to an oxidative event on the same order of magnitude as measured in a macrophage. The event is not an extracellular macrophage-type respiratory burst and may be due to intracellular H2O2 resulting from an NADPH oxidase in the phagosome or from beta-oxidation of ROS lipids in peroxisomes. Irrespective of case, the enzyme catalase appears to be essential in protecting the RPE cell against reactive oxygen species produced during phagocytosis.     

Antibiotic susceptibility among aerobic gram-negative bacilli in intensive care units in 5 European countries. French and Portuguese ICU Study Groups

BACKGROUND: Many successful pigment epithelium transplantation studies involving pink-eyed Royal College of Surgeons (RCS) dystrophic rats showed highly pigmented transplanted cells forming a double layer with slightly pigmented cells, attached to Bruch's membrane. Since it is not clear whether transplanted pigmented cells can displace retinal pigment epithelial (RPE) host cells from Bruch's membrane, we suggested that RPE cells of RCS dystrophic rats can phagocytize melanin granules, possibly derived from perished transplanted cells. METHODS: In a series of three experiments, RPE cells of nine pink-eyed, 2 1/2-month-old RCS dystrophic rats were isolated by trypsinization and mechanical dissection and cultivated in Dulbecco's modified Eagles' medium. These cells were then fed with melanin granules, isolated from bovine RPE cells, double-trypsinized after phagocytosis and viewed by light and electron microscopy. We also transplanted iris pigment epithelial (IPE) cells of 20-day-old Long-Evans rats into the subretinal space of pink-eyed RCS dystrophic rats of the same age, shown in light-microscopic photography after 42 days. RESULTS: Living RPE cells were heavily pigmented after feeding with isolated melanin granules in all three experiments as viewed by light microscopy. In addition, we identified melanin granules phagocytized by dystrophic RPE cells in electron microscopy. After transplantation of pigmented IPE cells into the subretinal space of pink-eyed RCS dystrophic rats' eyes, a layer of slightly pigmented cells was seen on Bruch's membrane below the transplanted IPE cells, shown in light microscopy. CONCLUSION: We have shown by phagocytosis assay that dystrophic RPE cells can take up melanin granules in vitro. Our results assume that pigmented cells in transplantation studies, found as a monolayer, attached to Bruch's membrane, cannot automatically be identified as transplanted cells. Instead, the possibility of perished transplanted cells serving as melanin donors for RPE host cells must be taken into consideration.     

Vitronectin is responsible for serum-stimulated uptake of rod outer segments by cultured retinal pigment epithelial cells

PURPOSE: To examine whether the vitronectin (VN) in serum is responsible for the serum stimulation of phagocytosis in the rod outer segment (ROS) by cultured retinal pigment epithelial (RPE) cells. METHODS: Vitronectin was removed from fetal bovine serum by heparin-agarose affinity chromatography. Concentrations in normal and depleted serum were determined by enzyme-linked immunosorbent assay, using a polyclonal antibody against bovine VN and commercially prepared human VN as a standard. A monoclonal antibody against human alpha v beta 5 was used in localization and in blocking experiments. Rod outer segment phagocytosis was measured using a flow cytometric assay. RESULTS: Affinity chromatography removed 95% of the VN from serum as determined by enzyme-linked immunosorbent assay. Vitronectin-depleted serum did not stimulate ROS phagocytosis by RPE cells. Commercially prepared VN added to serum-free medium stimulated ROS phagocytosis in a dose-dependent manner. Pretreatment of RPE cells with an antibody against alpha v beta 5, an integrin receptor for VN, had no effect on phagocytosis in the absence of serum but completely blocked the serum stimulation of ROS phagocytosis. Antibody against alpha v beta 5 demonstrated a variable labeling pattern on the cultured RPE cell surface with morphologically distinct cell clusters exhibiting less labeling. Those cell clusters exhibiting less receptor labeling also showed less uptake of fluorescent-labeled ROS. CONCLUSIONS: Vitronectin is the component responsible for serum stimulation of ROS uptake, and this uptake appears to be mediated by an alpha v beta 5 integrin. Although clearly important in vitro, a role for VN in ROS uptake by RPE cells in situ remains to be determined.     

Does heparin coating improve biocompatibility? A study on complement, blood cells and postoperative morbidity during cardiac surgery

BACKGROUND: We investigated fundus autofluorescence in vivo using a novel scanning laser ophthalmoscope. MATERIALS AND METHODS: A total of 550 patients with various retinal diseases were examined and compared with normal eyes. Autofluorescence was detected after excitation with an argon blue laser (488 nm), and emission was recorded with a short wavelength cut off above 500 nm. RESULTS: Reduced autofluorescence was observed in the foveal and parafoveal region due to retinal xanthophyll, along the retinal vessels, at the optic nerve head and in areas with atrophy of the retinal pigment epithelium (RPE). Autofluorescence intensity was increased either focally or diffusely in certain degenerative (AMD) or genetically determined retinal diseases (e.g., Stargardt's disease, Best's disease). CONCLUSIONS: These findings are in accordance with the view that in vivo fundus autofluorescence originates at the level of the RPE and suggest that it is derived from lipofuscin.     

Localization and seizure-regulation of integrin beta 1 mRNA in adult rat brain

Lipofuscin (age pigment) is a brown-yellow, electron-dense, autofluorescent material that accumulates progressively over time in lysosomes of postmitotic cells, such as neurons and cardiac myocytes. The exact mechanisms behind this accumulation are still unclear. This review outlines the present knowledge of age pigment formation, and considers possible mechanisms responsible for the increase of lipofuscin with age. Numerous studies indicate that the formation of lipofuscin is due to the oxidative alteration of macromolecules by oxygen-derived free radicals generated in reactions catalyzed by redox-active iron of low molecular weight. Two principal explanations for the increase of lipofuscin with age have been suggested. The first one is based on the notion that lipofuscin is not totally eliminated (either by degradation or exocytosis) even at young age, and, thus, accumulates in postmitotic cells as a function of time. Since oxidative reactions are obligatory for life, they would act as age-independent enhancers of lipofuscin accumulation, as well as of many other manifestations of senescence. The second explanation is that the increase of lipofuscin is an effect of aging, caused by an age-related enhancement of autophagocytosis, a decline in intralysosomal degradation, and/or a decrease in exocytosis.     

Comparative effects of dilator drugs on human penile dorsal artery and deep dorsal vein

The role of trace elements in vivo has not been completely clarified. Trace elements were studied in melanin granules in the retinal pigment epithelium (RPE) and choroid of hereditary copper-deficient macular mice as a model of Menkes' disease. The analysis of elements in these melanin granules was done by new methods: freeze-embedding and an energy dispersive X-ray microanalysis (EDX). We used 14-day- and 1-month-old male hemizygote macular mice for the experiments and normal litter-mates as controls. Melanin granules in RPE and choroid contained sulfur, chloride, calcium, iron, copper and zinc. Calcium and copper were especially abundant in 14-day-old hemizygote macular mice, although there were few melanin granules in their RPE. The fact that copper was most abundant in the melanin granules in the RPE of 14-day-old macular mice suggests that the synthesis of melanin granules in the RPE and choroid of the hemizygote macular mice cannot be completed because of the lower activity of copper-containing enzymes such as tyrosinase and the abnormal copper distribution in various organs. Therefore, the melanin granules in the RPE and choroid of hemizygote macular mice are irregular in shape and few in number. Large amounts of copper concentrated in melanin granules in the RPE and choroid of hemizygote macular mice might induce quantitative abnormalities of trace elements.     

Multiplane transesophageal echocardiography in diagnosis of anomalous origin of the left coronary artery from the pulmonary artery: a case report

PURPOSE: To investigate whether there is a difference in the expression of adenovirus transgenes in human retinal pigment epithelial cells when the vector was exposed to the apical or basal surface, the effect of transgene expression on rod outer segment (ROS) phagocytosis and finally, the role of phagocytosis in gene transfer to RPE cells, using the Royal College of Surgeons (RCS) rat. METHODS: Monolayers of human retinal pigment epithelium (HRPE) or an RPE cell line (A407) had the apical or basal surfaces exposed to 10(7) pfu/ml of replication deficient adenovirus (Ad.RSV.betagal) carrying the beta-galactosidase marker gene, and the numbers of expressing cells were compared. Parallel cultures were infected and challenged with fluorescein-labelled bovine rod outer segments (FBROS). The fluorescence of infected versus uninfected cells was recorded for both challenged and unchallenged states, using fluorophotometric flow cytometry. Primary cultures of RCS rat RPE were established and the transgene uptake dynamics compared to control Long Evans rat RPE cells. RESULTS: The expression of transgene in HRPE and A407 cell cultures was an order of magnitude greater when the vector was exposed apically (analysis of variance p < 0.05). There was no difference in the phagocytic capacity of Ad.RSV.betagal-infected and -noninfected cells when challenged with FBROS. There was also no difference in the number of cells expressing transgene, when compared to the RCS or Long Evans control rat RPE. CONCLUSIONS: The surface of exposure in polarized retinal pigment epithelial cells affects the rate of uptake and expression of adenovirus. The defective ROS phagocytosis in RCS rat RPE cells did not lead to a decrease in transgene expression relative to the Long Evans control cells. Finally we have found that phagocytosis is not significantly altered with adenoviral transgene expression in this in vitro model.     

Descemet''s membrane as membranous support in RPE/IPE transplantation

PURPOSE: The correct orientation of retinal pigment epithelium (RPE) cells is necessary for the integrity and proper function of the retina. For transplantation of RPE/iris pigment epithelium (IPE) grafts to the subretinal space in age-related macular degeneration, this cellular orientation is most effectively provided by a membranous support. The goal of this study was to establish an autologous or homologous membrane as a substratum for the growth of RPE/IPE. METHODS: Porcine and bovine RPE and IPE were placed in primary culture on a dissected sheet (5 x 5 mm) of autologous porcine and bovine Descemet's membrane in slide chambers and grown to confluence. RESULTS: RPE and IPE cells cultured on Descemet's membrane form an intact monolayer. Light and electron microscopy showed the formation of both an intact monolayer and microvilli in both cell types. CONCLUSION: Since the slow host-graft rejection appears to play an important role in the failure of RPE transplantation in the subretinal space, it is critical to be able to transplant autologous materials. The techniques presented here establish a novel means to culture RPE or IPE cells on autologous Descemet's membrane where they form a "cell monolayer patch," consisting of a fragment of Descemet's membrane with cultured RPE or IPE, which can be easily manipulated and transplanted, using an established glass pipette method.     

Retinoic acid metabolism in cultured retinal pigment epithelial cells

PURPOSE: To examine the stability of retinoic acid administered to cultured bovine retinal pigment epithelial (RPE) cells and to determine if RPE cells metabolize retinoic acid by a cytochrome P-450 mechanism. METHODS: Retinoic acid metabolism was examined in cultured RPE cells and subcellular fractions quantitatively by a thin-layer chromatography procedure and qualitatively by normal and reverse phase high-performance liquid chromatography. RESULTS: Cultured bovine RPE cells were found to have an activity that converts retinoic acid into more polar metabolites rapidly released from the cell. The highest specific activity for this process is found in the post-mitochondrial pellet (100,000g), is induced by retinoic acid, and is inhibited by ketoconazole. The major product of the RPE cell-mediated metabolism of retinoic acid is 4-oxo-retinoic acid, a known P-450 monooxygenase product of retinoic acid. The retinoic acid metabolizing activity is greatest in primary RPE cultures and decreases with aging in culture. CONCLUSIONS: These data suggest that a cytochrome P-450 monooxygenase is involved in the metabolism of retinoic acid in RPE cells, and this is similar to the findings of other investigators using other cells and tissues. The authors' findings suggest that the RPE may be important in the deactivation of this biologically potent retinoid in the retina.     

Harvest and storage of adult human retinal pigment epithelial sheets

PURPOSE: To describe a method for the harvesting and storing of intact viable sheets of adult human retinal pigment epithelial (RPE) cells. METHODS: Adult human RPE cells were harvested as intact sheets from 21 cadaver eyes, using the enzyme Dispase. The sheets were embedded in 50% gelatin containing 300 mM sucrose and stored at 4 degrees C. The viability of the cells, as well as their ability to proliferate in vitro, was studied for 96 hours after harvesting. Light microscopy (LM), transmission (TEM) and scanning electron microscopy (SEM) were performed to determine the integrity and ultrastructural features of the cells. Microbiologic culture of the harvested sheets was performed to exclude contamination. RESULTS: LM, TEM and SEM showed intact RPE cells with well-developed microvilli, basal infoldings and intercellular connections. The initial viability of intact RPE sheets was 86%, with a progressive decline in viability with increased storage time. Cells harvested within 24 hours after death maintained greater viability than those harvested after 24 hours (p < 0.05). Harvested RPE cells were free of microbial contamination and rapidly proliferated when cultured in vitro. CONCLUSION: Intact sheets of adult human RPE can be isolated using the enzyme Dispase. The cells appeared suitable for retinal transplantation if harvested within 24 hours of death and maintained 82% viability for as long as 48 hours if stored at 4 degrees C.     

Lysosomal changes in rat spinal ganglia neurons after prolonged treatment with cisplatin

We performed morphometric and ultrastructural studies to determine the morphological response of rat spinal ganglion sensory neurons to prolonged administration of cisplatin up to a total dose of 18 mg/kg. We quantitated the different types of lysosomal system (LS) bodies present (primary and secondary lysosomes, lipofuscin granules) as well as multivesicular bodies in treated and control animals. Five rats were examined per group. This ultrastructural study on cisplatin-induced changes in LS of spinal ganglia neurons shows that the total area and total number of LS structures are significantly increased by cisplatin treatment. The main specific changes were increase in number of small-size lysosomes and increase in number of polymeric lipofuscin granules. Other alterations observed were presence of nucleolar segregation, patches of neurofilaments and deposits of osmiophilic material in the perikaryon and axon hillock, all indicating that sensory neurons are a major target of cisplatin.     

Enhancement of neurite outgrowth by the soluble form of human L1 (neural cell adhesion molecule)

L1, a neural cell adhesion molecule, is involved in neurite outgrowth, migration and fasciculation. Although L1 is a membrane glycoprotein expressed on neural cells, the soluble form of L1 is generated in vivo by proteolysis. In the present study, a stable transfectant of Chinese hamster ovary (CHO) cells secreting human L1 without cytoplasmic and membrane spanning domains was generated, and the function of the secreted L1 was examined. Explants from embryonic chick brain stem were cultured on a substrate coated with polyethylenimine (PEI) alone, on substrate-bound L1 or in medium containing soluble L1. The neurites induced by L1, both the substrate-bound form and the soluble form, were 2-3 times longer than those cultured on PEI. The ability of the soluble L1 to induce neurite formation was slightly greater than that of the substrate L1. The present results demonstrated that neurite outgrowth was induced not only by substrate-bound L1 but also by soluble L1. Soluble L1 could be a pharmaceutical candidate for the promotion of nerve regeneration.     

Behavioral thermoregulatory responses of single- and group-housed mice

Embryonic dysmorphogenesis has been blocked by antioxidant treatment in vivo and in vitro, suggesting that embryonic excess of reactive oxygen species (ROS) has a role in the teratogenic process of diabetic pregnancy. We report that the basal levels of ROS in dispersed rat embryonic cells in vitro, as determined by fluorescence of dichlorofluorescein (DCF), were not different in cells from control and diabetic pregnancy at day 10 or 12. Beta-hydroxybutyrate (beta-HB) and succinic acid monomethyl ester both augmented DCF fluorescence in cells from day 12 embryos of normal and diabetic rats but not from day 10 embryos. Cells of day 10 and day 12 embryos from normal and diabetic rats responded to increasing glucose concentrations with a dosage-dependent alleviation of DCF fluorescence. Day 10 embryonic cells exhibited high glucose utilization rates and high pentose phosphate shunt rates, but low mitochondrial oxidation rates. Moreover, in vitro culture of embryos between gestational days 9 and 10 in the presence of 20% oxygen induced an increased and glucose-sensitive oxidation of glucose compared with embryos not cultured in vitro. At gestation day 12, however, pentose phosphate shunt rates showed a decrease, whereas the mitochondrial beta-HB oxidation rates were increased compared with those at gestation day 10. This was paralleled by a lower expression of glucose 6-phosphate dehydrogenase- and phosphofructokinase-mRNA levels at day 12 than at day 10. On the other hand, H-ferritin mRNA expression at day 12 was high compared with day 10. None of the mRNA species investigated were affected by the diabetic state of the mother. It was concluded that beta-HB-induced stimulation of mitochondrial oxidative events may lead to the generation of ROS at gestational day 12, but probably not at day 10, when only a minute amount of mitochondrial activity occurs. Thus our results do not support the notion of diabetes-induced mitochondrial oxidative stress before the development of a placental supply of oxygen.     

Chimeric Wnt proteins define the amino-terminus of Wnt-1 as a transformation-specific determinant

PURPOSE: To determine whether hepatocyte growth factor (HGF) receptor (HGFR) is expressed in retinal pigment epithelial (RPE) cells and to test whether RPE cells are responsive to HGF. To evaluate expression of HGFR in human donor eyes and in several epiretinal membranes associated with proliferative vitreoretinopathy and idiopathic epiretinal membranes. METHODS: HGF-dependent migration and proliferation in primary and simian virus (SV) 40-transformed human RPE cells was studied using a Boyden chamber and [3H]thymidine uptake, respectively. The expression and tyrosine phosphorylation of HGFR protein was evaluated in RPE cells by immunoprecipitation and western blot analysis. Expression of HGFR in human donor eyes and in several epiretinal membranes associated with proliferative vitreoretinopathy (PVR) and idiopathic epiretinal membranes was analyzed by immunohistochemistry. RESULTS: HGFR was expressed in RPE cells and was tyrosine-phosphorylated in response to HGF. Whereas HGF was a potent motogen for RPE cells, it induced only a modest, dose-dependent uptake of [3H]thymidine. Evaluation of human donor eyes showed that the RPE monolayer was the major cell type that was strongly positive for HGFR. HGFR was uniformly and readily detected in the cellular component of epiretinal membranes associated with PVR, whereas little or no HGFR was found in idiopathic epiretinal membranes. CONCLUSIONS: HGFR is expressed in cultured RPE cells, in the RPE monolayer in human donor eyes, and in epiretinal membranes obtained from patients with PVR. Furthermore, HGF is a potent chemoattractant for cultured human RPE cells. These observations suggest a role for HGF and HGFR in normal function of RPE cells and in RPE-related disease such as PVR.     

Transplantation of cultured human retinal pigment epithelium into rabbit subretina

Transplantation of normal retinal pigment epithelium (RPE) into a diseased eye holds promise for treatment of several blinding disorders. Previous studies have involved immunosuppression and implantation of freshly isolated cells. We report here the successful transplantation of cultured human RPE cells into rabbits that were not immunosuppressed. A modified pars plana transvitreal technique was used for RPE transplantation. The cultured RPE cells, loaded with carbon as a marker, were transplanted into the denuded Bruch's membrane of albino rabbits. The animals were followed for from 1 week to 3 months. On histologic examination at 2 months, no infiltrating lymphocytes were found in the vitreous cavity or choroid, even though Bruch's membrane was damaged. At about 3 months there were some macrophages in the subretina of transplanted eyes, indicating that an immunoreaction does occur eventually. Electron microscopy of the transplanted RPE showed apical-basal polarity and gap junctions. Restored function was attested to by the presence of phagosomes and phagocytosed outer segments in the transplanted cells. Our findings suggest that there is a weak, delayed immunoreaction to human RPE cells transplanted beneath the retina of the rabbit; however, functional recovery of the transplanted cells occurs before this immune response develops.