Immunocytochemical study of retinal diode laser photocoagulation in the rat

AIM: To determine the nature of the cellular infiltrate, alterations in cell adhesion molecules, and MHC II antigen expression in the rat retina following diode laser retinal photocoagulation. METHOD: 20 normal Lister rats underwent diode laser photocoagulation of the retina. Frozen sections from eyes enucleated at 0, 1, 5, 13, and 33 days post laser were examined for T cells (R7.3), CD4 T cells (W3/25), activated CD4 T cells (OX-40), CD8 T cells (OX-8), B cells (OX-33), and macrophages (OX-42), MHC II antigen (OX-6), and E-Selectin-1, VCAM-1, and ICAM-1. RESULTS: Retinal diode laser photocoagulation stimulated a wound healing response in the outer retina and choroid. The cellular infiltrate included macrophages and activated CD4 T cells at 13 and 33 days post laser. Glial cells in the inner plexiform and inner nuclear layers expressed MHC II antigen at 24 hours only. ICAM-1 antigen was induced in RPE cells and in Muller cells in the inner retina at all time intervals post laser and intense staining for ICAM-1 was present around intraretinal migrated cells at 13 and 33 days post laser. VCAM-1 antigen expression was induced in the choroidal vascular endothelium and RPE at 13 and 33 days after laser as was E-Selectin-1 antigen expression which was also evident focally at the external limiting membrane in association with migrated cells adjacent to the burn. CONCLUSIONS: These results suggest that alterations in cell adhesion molecules may regulate the migration and activation of retinal pigment epithelium, macrophages and CD4 T cells at the outer blood-retinal barrier and choroid following diode laser photocoagulation of the normal Lister rat retina.     

Immunological mimicry between retinal S-antigen and group A streptococcal M proteins

Immunological mimicry between host and microbial proteins has been suggested as a potential mechanism in the development of uveitis in humans. In this study immunological crossreactivity between anti-streptococcal monoclonal antibodies (MAbs) and the human eye was investigated. In indirect immunofluorescence, we demonstrated novel immunological crossreactivity of two anti-streptococcal MAbs (27 and 112) with the rod outer (and inner) segments of the retina of the human eye. In further studies, retinal S-Ag, a uveitogenic protein in the rod outer (and inner) segments, was found to react with the anti-streptococcal MAbs. In addition, several uveitogenic peptides of S-Ag were recognized by the anti-streptococcal MAbs. In the ELISA and Western immunoblot, anti-S-Ag MAbs crossreacted with group A streptococci and the streptococcal M protein further demonstrating sites of antigenic similarity. Homology between the retinal S-Ag and streptococcal M protein was observed in amino acid sequences repeated in the B repeat region of the streptococcal M5 protein. These data show that retinal S-antigen has immunological similarities with streptococcal M protein, a major virulence determinant and strong bacterial cell surface antigen.     

A new method for studying the selective adherence of blood lymphocytes to the microvasculature of human retina

PURPOSE: To develop a sensitive and reproducible technique for measuring the adherence of blood lymphocytes to vessel walls exposed in sections of human retina and for examining the role of lymphocyte and vascular adhesion molecules in these events. METHODS: Cryostat sections of human retina were overlaid with blood lymphocytes from healthy subjects, and experimental conditions were sought by which preferential attachment of the cells occurred to blood vessel walls in the retinal sections. Adherent lymphocytes were identified by staining with methyl green-thionine, and transected blood vessels were identified by their structure and by staining of basement membranes with periodic acid-Schiff. The adherence of enriched preparations of CD4+ (T-helper) and CD8+ (T-cytotoxic) lymphocytes, of interleukin-2 (IL-2)-activated cells, and of lymphocytes from patients with ocular Beh?et's disease was examined. The distribution of adhesion molecules on retinal vessel walls was determined by immunohistochemistry, and the contribution of leukocyte integrins to lymphocyte binding was studied by blocking experiments with monoclonal antibodies. RESULTS: The optimal selectivity of blood lymphocyte attachment to retinal vessel walls occurred when purified lymphocytes were suspended in culture medium with 10% fetal calf serum and overlaid onto retinal sections for 30 minutes at 23 degrees C with gentle agitation. Under these conditions, 92% of the lymphocytes that adhered to the section were confined to the retinal microvasculature, and CD4+ T cells were more adherent than CD8+ T cells (P < 0.01). Prior exposure of normal lymphocytes to IL-2 enhanced their binding to retinal blood vessels, and lymphocytes from patients with Beh?et's disease showed supranormal vascular adherence (P < 0.005). Many transected vessels stained positively for CD31; PECAM (mean 62%), CD54; ICAM-1 (mean 73%), CD62E; E-selectin (mean 35%), CD62P; P-selectin (mean 61%), and CD106; VCAM-1 (mean 42%). However, these vascular adhesion molecules occupied < 20% of the area of the blood vessel walls. Lymphocyte adhesion to the retinal vessels was more dependent on CD29 (the common chain of the beta 1 integrins) expression than either CD11a/CD18 or CD49d. CONCLUSIONS: This technique allows measurements to be made of lymphocyte adherence to vascular and nonvascular structures of retina ex vivo. Extension of this approach to the study of leukocyte adherence to sections of pathologic retina may be of clinical and experimental applicability in understanding mechanisms of retinal inflammation.     

Molecular mimicry as a therapeutic approach for an autoimmune disease: oral treatment of uveitis-patients with an MHC-peptide crossreactive with autoantigen--first results

In the rat model of experimental autoimmune uveitis (EAU) we have demonstrated that a peptide from the sequence of human disease-associated MHC-class I antigens can induce uveitis upon immunization. Moreover, oral administration of this MHC-peptide tolerized Lewis rats to the disease induced with two different retinal autoantigens, retinal S-antigen (S-Ag) and IRBP. In uveitis patients T cells responding to S-Ag peptide also respond to the MHC-peptide, which shows crossreactivity with the major epitope from S-Ag due to some shared discontinuous amino acid homologies. The 14-mer peptide B27PD is derived from the sequence of all HLA-B antigens that are statistically associated with uveitis (including HLA-B27). Patients with long-lasting endogenous uveitis, suffering from side effects of conventional immuno-suppressive therapy or being therapy-refractive, were orally tolerized with peptide B27PD in this first open therapeutic trial. Patients received peptide three times a week over a 12 weeks period, while only low dose steroids were allowed as concomitant medication. The aims were (1) to investigate whether immunosuppressive therapy could be discontinued and steroids reduced while relapses of ocular inflammation reside and (2) to search for side effects. The Helsinki Declaration was strictly observed and the study design approved by the local ethical committee. The first patients orally tolerized with the HLA-peptide (two had stopped azathioprine immediately prior to onset of oral peptide treatment) could discontinue their steroids because of reduced intraocular inflammation. No side effects of therapy were observed. Oral tolerance induction with a peptide derived from the patients' own HLA-antigens and crossreactive with the organ-specific autoantigen seems to be a potent therapeutic approach.     

Light-induced apoptosis: differential timing in the retina and pigment epithelium

Apoptosis is a genetically regulated form of cell death. Individual cells show condensed nuclear chromatin and cytoplasm, and biochemical analysis reveals fragmentation of the DNA. Ensuing cellular components, apoptotic bodies, are removed by macrophages or neighboring cells. Genes involved in the regulation of apoptosis as well as stimuli and signal transduction systems, are only beginning to be understood in the retina. Therefore, we developed a new in vivo model system for the investigation of events leading to apoptosis in the retina and the pigment epithelium. We induced apoptosis in retinal photoreceptors and the pigment epithelium of albino rats by exposure to 3000 lux of diffuse, cool white fluorescent light for short time periods of up to 120 minutes. Animals were killed at different time intervals during and after light exposure. The eyes were enucleated and the lower central retina was processed for light- and electron microscopy. DNA fragmentation was analysed in situ by TdT-mediated dUTP nick-end labeling (TUNEL) or by gel electrophoresis of total retinal DNA. We observed that the timing of apoptosis in the photoreceptors and pigment epithelium was remarkably different, the pigment epithelium showing a distinct delay of several hours before the onset of apoptosis. In photoreceptors, apoptosis was induced within 90 minutes of light exposure, with the morphological appearance of apoptosis preceding the fragmentation of DNA. In the pigment epithelium, the morphological appearance of apoptosis and DNA fragmentation were coincident. Different regulative mechanisms may lead to apoptotic cell death in the retinal photoreceptors and pigment epithelium. This in vivo model system will allow measurement of dose-responses, a potential spectral dependence and the molecular background of apoptotic mechanisms in the retina.     

The role of the p53 protein in the selective vulnerability of the inner retina to transient ischemia

PURPOSE: To determine whether the p53 protein plays a role in the selective vulnerability of the inner retina to transient ischemia. METHODS: Transient retinal ischemia was induced using a high intraocular pressure (HIOP) model in the Sprague-Dawley rat for 60 minutes. Histopathologic outcome was determined 7 days after ischemia. In addition, analysis for evidence for apoptosis (TdT-dUTP terminal nick-end label [TUNEL] staining) and p53 protein expression (immunohistochemistry) was performed at several points during the reperfusion period. In a separate set of experiments, wild-type mice and two groups of transgenic mice, one homozygous and the other heterozygous for the p53 null gene, were also subjected to HIOP for 60 minutes, and histopathology was performed 7 days later. RESULTS: At 7 days subsequent to 60 minutes of ischemia in the rat, there was marked thinning of the inner retinal layers. There were scattered TUNEL-positive cells within the inner retina, peaking at 24 to 48 hours and persisting for at least 7 days. p53 immunochemistry demonstrated elevated protein levels within the inner retina; this finding peaked at 24 to 48 hours but was no longer present at 4 days after ischemia. TUNEL staining of the inner retina of the mouse was most prominent 24 hours subsequent to ischemia but persisted at 48 hours. Seven days subsequent to 60 minutes of ischemia in the wild-type and transgenic mice, histopathologic evaluation demonstrated preservation of the retinal histoarchitecture in the heterozygous group compared with the wild-type or homozygous animals. CONCLUSIONS: These data further support the hypothesis that the delayed cell death that occurs after transient retinal ischemia is, in part, apoptotic. In addition, they suggest a role for the p53 protein in the selective vulnerability of the inner retina to transient ischemia. p53 protein may be a target for future therapeutic agents in the treatment of disorders of the retina where ischemia plays a pathogenetic role.     

Retinal functional change caused by adenoviral vector-mediated transfection of LacZ gene

We examined the effect of insertion of an exogenous gene on retinal function to assess the rationale of adenoviral vector-mediated gene transfer for future gene therapy. An adenoviral vector expressing bacterial LacZ (AdCALacZ) was injected into the eyes of adult rats either intravitreally (group A) or subretinally (group B), and the gene expression and retinal function were thus examined at different time points after gene transfer for 3 weeks. X-Gal histostaining showed that neural retinal cells were transfected in group A and that retinal pigment epithelial cells were transfected in group B. The gene transfer was more efficient in group B (54.4% of the fixed retinal area was stained) than in group A (10.4%). The electroretinogram (ERG) revealed retinal dysfunction in the AdCALacZ-transfected rats even at the stage in which the histological damage was not apparent by electron microscopy and immunohistochemical studies for cytokeratin, S-100 protein, and glial fibrillary acidic protein. The ERG change was correlated with the intensity of inflammation, and retinal function recovered to the original level by 3 weeks, along with a diminution of inflammation. Functional changes were more evident in eyes treated with AdCALacZ than in those infected with adenoviral vector with no exogenous gene; however, no histological difference was observed between these groups, indicating that the insertion of exogenous gene itself affects retinal function. The results showed that different kinds of retinal cells could be gene-transferred by an adenoviral vector, depending on the application method. The retinal dysfunction caused by each adenoviral transfection method was caused by inflammation and the insertion of exogenous gene, and this retinal dysfunction was recoverable. In future gene therapy, special attention should be given to the method of exogenous gene insertion in the retina.     

Requirements for passage of T lymphocytes across non-inflamed retinal microvessels

Although activated T lymphocytes can migrate through unstimulated neural endothelium to perform immune surveillance or initiate inflammation, the precise mechanism by which this occurs is not clear. In this study, we have used intravital scanning laser ophthalmoscopy to show that circulating, activated T cells induce early changes in the retinal venules that enable T cell diapedesis in the absence of cell rolling, and without any reduction in shear stress within the venules. Concanavalin A (Con A)-activated T cells, but not naive T cells, were able to penetrate the normal blood-retinal barrier (BRB) 8-16 h after adoptive transfer. A minimum number (> or =1 x 10(5) cells/mouse) of Con A-activated T cells needed to be transferred before lymphocytes crossed the normal BRB. Cell rolling and reduction of shear stress did not occur in normal retinal venules and post-capillary venules. In contrast, in mice with experimental autoimmune uveoretinitis (EAU), in which the BRB has broken down, 45% of blast cells were rolling in retinal venules. Cell rolling correlated with significantly reduced shear stress. Both naive and Con A-activated T cells could cross the disabled barrier, with Con A-activated T cells migrating faster and in greater numbers than naive cells. Adoptive transfer of Con A-activated cells into normal recipient mice induced limited and transient breakdown of the BRB and up-regulation of ICAM-1 but not P-selectin. Pretreatment of Con A-activated cells with anti-LFA-1 significantly suppressed T cell infiltration in normal recipient mice. Our data indicate that critical to immune surveillance in the central nervous system (CNS) is the ability of activated T cells to interact with the endothelium, up-regulating ICAM-1 and inducing transient breakdown of the barrier.     

Experimental Toxoplasma retinitis: a light and electron microscopical study

In a light and electron microscopical study of the morphological lesions of acute experimental Toxoplasma retinitis in the rabbit, produced by intravitreal inoculation with RH strain T gondii, all layers of the retina were found to be infected with the parasite. The Bruch membrane appeared to be a relatively impermeable barrier to invasion by the parasite. The underlying choroid showed an inflammatory cellular infiltrate but was free of organisms. Evidence of lateral spread of infection between the layers of the retinal tissue was observed. Examples of glial cell infection were also seen. Trophozoities may enter the brain by spreading along contiguous glial cell elements of the optic nerve; retinal tissue destruction occurs by direct invasion of cells by trophozoites. In other areas, tissue destruction by inflammatory cells occurred in the absence of organisms and may indicate an immunologically induced process of tissue destruction.     

Effect of cyclosporine on anterior chamber-associated immune deviation with retinal transplantation

PURPOSE: To determine whether immunosuppression using cyclosporine interferes with anterior chamber associated immune deviation (ACAID) and can promote survival of retinal allografts in the anterior chamber. METHODS: Neonatal neural retinas of C57BL/6 mice or ovalbumin were injected into the anterior chamber of BALB/c adult mice. In the test group recipients were injected with cyclosporine (10 mg/kg per day) from day 0 to 11 or from day 11 to 34 after implantation. At 12 and 35 days after transplantation, lymphocytes from the test group were injected into naive BALB/c mice to assay for the presence of suppressor T cells (adoptive transfer). The fate of the retinal grafts was determined by histologic examination at day 12 and 35. To evaluate the potential neurotoxic effects of cyclosporine in the absence of immune rejection mechanisms, cyclosporine was given to SCID mice during days 11 to 34 after syngeneic neonatal neural retinal grafts were placed in the anterior chamber. RESULTS: At 12 days after transplantation, spleens of both cyclosporine-treated and control mice contained suppressor cells against donor alloantigens. The retinal grafts in the anterior chamber of both groups of mice were fully developed and well differentiated. The same duration of administration of cyclosporine did not interfere with the production of efferent suppressor cells after inoculation of ovalbumin into the anterior chamber. At 35 days after transplantation, only spleen cells from the cyclosporine-treated group showed the capacity to suppress donor-specific delayed hypersensitivity. However, allografts in the cyclosporine group had deteriorated by 35 days in a fashion similar to the control group. Syngeneic grafts in SCID mice showed differentiated retinal layers 35 days after transplantation. CONCLUSIONS: Cyclosporine treatment does not interfere with the ability of allogeneic neonatal retinal grafts to induce anterior chamber associated immune deviation when placed in the anterior chamber, nor does prolonged treatment with this drug interfere with the persistence of allospecific suppressor cells for 35 days after the graft. Because 35-day grafts of cyclosporine-treated mice display histologic evidence of graft failure similar to grafts placed in the anterior chamber of untreated mice, graft destruction is either the result of immune effector mechanisms not inhibited by cyclosporine, or the consequence of nonimmunologic factors.     

Bilateral electroretinographic changes induced by unilateral intra-visual cortex inoculation of herpes simplex virus type 1 in BALB/c mice

Intra-visual cortex inoculation of 10(2) plaque-forming units of herpes simplex virus type 1 (KOS-63) induced physiologic and morphologic retinal changes in 62.3% (33/53) of infected animals; of these, 91% were bilateral. In contrast, inoculation of the same viral titers into the frontal lobe induced retinal alterations in only 13.3% (2/15). Initially, there was a decrease of the b-wave amplitude and retinal sensitivity and necrotic changes of the ganglion cells and nuclei in the inner nuclear layer. Immunoperoxidase staining for virus-specific antigens showed positive staining of the same cell type. Over time, there was a progressive decrease in the electroretinogram until it was extinguished and the retina was replaced by gliotic tissue. Parallel viral recovery studies demonstrated detectable infectious virus in one of eight eyes on day 2 after inoculation and in three of eight eyes on day 4. Thereafter, there was an increase in the percentage of eyes with infectious virus and a concomitant increase in viral titers. Immunoperoxidase staining of brain sections obtained on days 6 through 8 demonstrated virus-specific antigens on cells in the lateral geniculate nuclei and the suprachiasmatic nuclei bilaterally.     

Preparation and transplantation of photoreceptor sheets

PURPOSE: Photoreceptor (PR) transplantation may be a treatment for blindness secondary to PR degeneration. We studied different technical aspects of PR-sheet preparation. METHODS: Geographic variation in the thickness of the cat PR layer (from the outer segments to the outer plexiform layer) and inner retina (width of the remainder of the retina) was studied. PR sheets (cat and human) were prepared through gelatin embedding and subsequent vibratoming or excimer laser ablation. Cat PR sheets were evaluated after transplantation. RESULTS: The thickness of the cat PR layer and inner retina varied in different regions. The superior central retina, including the area centralis, was thickest (PR layer: 115-123 microm, entire retina: 225-230 microm, in fixed tissue). The peripheral retina was approximately 40% thinner than the center. Fresh retina was approximately 7.9% thicker than the fixed retina. Both vibratomy and excimer laser ablation removed the inner retina, leaving a PR-layer sheet with good morphology. To produce good quality PR sheets with vibratomy, use of different gelatin concentrations (2% to 35%) at various stages of sheet preparation was crucial. To produce PR sheets of uniform thickness with excimer laser ablation, control of fluid on the retinal surface was critical. Twenty-four hours after PR transplantation surgery, donor PR cells were well oriented and in close contact with host retinal pigment epithelial cells. Gelatin supporting the transplant dissolved as early as 100 min after surgery. CONCLUSIONS: We confirmed and expanded the work of previous investigators and showed that cat and human PR sheets can be manufactured using vibratomy or excimer laser ablation. This preparation provides a well oriented and organized PR cell layer after transplantation.     

ABI1 of Arabidopsis is a protein serine/threonine phosphatase highly regulated by the proton and magnesium ion concentration

We have recently described a rat model of hypertensive eye in which cauterizing limbal derived episcleral veins leads to increase in the intraocular pressure [S.R. Shareef, E. Garcia-Valenzuela, A. Salierno, J. Walsh, S.C. Sharma, Chronic ocular hypertension following episcleral venous occlusion in rats, Exp. Eye Res. 61 (1995) 379-382.]. We have further documented that retinal ganglion cell death is apoptotic [E. Garcia-Valenzuela, S. Shareef, J. Walsh, S.C. Sharma, Programmed cell death of retinal ganglion cells during experimental glaucoma, Exp. Eye Res. 61 (1995) 33-44.]. Here, we describe the total loss of retinal ganglion cells at various time intervals following increased IOP. At early time points death of ganglion cells in the central, peripheral retina occurred with similar frequencies. Between 4-6 weeks after intraocular elevation, ganglion cells in the peripheral retina were more susceptible than the central retina. Percentage of total ganglion cell death over the 10 week period was presumably linear and was about 4% per week.     

Distribution of an endogenous 16-kd S-lac lectin in the chicken retina

PURPOSE: To examine by indirect immunofluorescence the distribution of an endogenous 16-kd S-lac lectin (soluble lactose binding lectin) during development of the chicken retina. METHODS: Cryosections of retinal tissue at different developmental stages and cultured retinal cells (either not permeabilized or permeabilized with acetone) were incubated with a rabbit antiserum that specifically reacts with the retinal 16-kd S-lac lectin. After incubation with a fluorescent-labeled secondary antibody, tissue sections and cultured cells were analyzed by fluorescence microscopy. RESULTS: Retina was weakly stained with the antiserum on early embryonic day 7, whereas on embryonic days 13 and 18 it showed a restricted "granular" staining in the outer retina. At embryonic day 18, in addition, there was widespread staining in all retinal layers. This pattern was maintained by postnatal day 5 and in the adult retina, although the intensity of the staining of the outer retina was weaker. In retinal cell cultures, glial-like flat cells and monopolar, bipolar, and multipolar neurons were stained with the antiserum, but only if they had been previously permeabilized with acetone. CONCLUSION: The results suggest that the distribution of a 16-kd S-lac lectin changes during retinal development. Cell culture experiments indicate that most often the lectin is localized intracellularly in the different retinal cell types.     

Seven retinal specializations in the tubular eye of the deep-sea pearleye, Scopelarchus michaelsarsi: a case study in visual optimization

The deep-sea pearleye, Scopelarchus michaelsarsi (Scopelarchidae) is a mesopelagic teleost with asymmetric or tubular eyes. The main retina subtends a large dorsal binocular field, while the accessory retina subtends a restricted monocular field of lateral visual space. Ocular specializations to increase the lateral visual field include an oblique pupil and a corneal lens pad. A detailed morphological and topographic study of the photoreceptors and retinal ganglion cells reveals seven specializations: a centronasal region of the main retina with ungrouped rod-like photoreceptors overlying a retinal tapetum; a region of high ganglion cell density (area centralis of 56.1 x 10(3) cells per mm2) in the centrolateral region of the main retina; a centrotemporal region of the main retina with grouped rod-like photoreceptors; a region (area giganto cellularis) of large (32.2+/-5.6 microm2), alpha-like ganglion cells arranged in a regular array (nearest neighbour distance 53.5+/-9.3 microm with a conformity ratio of 5.8) in the temporal main retina; an accessory retina with grouped rod-like photoreceptors; a nasotemporal band of a mixture of rod- and cone-like photoreceptors restricted to the ventral accessory retina; and a retinal diverticulum comprised of a ventral region of differentiated accessory retina located medial to the optic nerve head. Retrograde labelling from the optic nerve with DiI shows that approximately 14% of the cells in the ganglion cell layer of the main retina are displaced amacrine cells at 1.5 mm eccentricity. Cryosectioning of the tubular eye confirms Matthiessen's ratio (2.59), and calculations of the spatial resolving power suggests that the function of the area centralis (7.4 cycles per degree/8.1 minutes of arc) and the cohort of temporal alpha-like ganglion cells (0.85 cycles per degree/70.6 minutes of arc) in the main retina may be different. Low summation ratios in these various retinal zones suggests that each zone may mediate distinct visual tasks in a certain region of the visual field by optimizing sensitivity and/or resolving power.     

Activation of interleukin 4- and interleukin 6-secreting cells by HIV-specific synthetic peptides

Peptides were synthesized in which the type-specific determinant of the V3 loop region of gp120 (SP10) was expressed C terminal to a conserved T helper epitope (T1) on the same molecule. These T1-SP10 peptides can stimulate both cell-mediated and humoral immune responses. The current work used a novel approach to study the nature and specificity of the response elicited by these peptides. Cytokine-specific ELIspot assays were used to examine the number, kinetics and fine specificity of cells induced to secrete IL-4 and IL-6 in mice immunized with T1-SP10 peptides. Results indicate that the peptides activated cytokine-secreting cells in a dose-dependent manner in vivo. In vitro restimulation experiments demonstrated that both the SP10 and T1 regions contributed to this activation. Consistent with previous studies, mice sequentially immunized with peptides expressing different V3 loop regions generated B cell responses that were larger and more cross-reactive than those induced by a single peptide. Sequential immunizations had less effect on the number or specificity of the cytokine-producing cells.     

A role for the fibroblast growth factor receptor in cell fate decisions in the developing vertebrate retina

The mature vertebrate retina contains seven major cell types that develop from an apparently homogenous population of precursor cells. Clonal analyses have suggested that environmental influences play a major role in specifying retinal cell identity. Fibroblast growth factor-2 is present in the developing retina and regulates the survival, proliferation and differentiation of developing retinal cells in culture. Here we have tested whether fibroblast growth factor receptor signaling biases retinal cell fate decisions in vivo. Fibroblast growth factor receptors were inhibited in retinal precursors in Xenopus embryos by expressing a dominant negative form of the receptor, XFD. Dorsal animal blastomeres that give rise to the retina were injected with cDNA expression constructs for XFD and a control non-functional mutant receptor, D48, and the cell fates of transgene-expressing cells in the mature retina determined. Fibroblast growth factor receptor blockade results in almost a 50% loss of photoreceptors and amacrine cells, and a concurrent 3.5-fold increase in Müller glia, suggesting a shift towards a Müller cell fate in the absence of a fibroblast growth factor receptor signal. Inhibition of non-fibroblast-growth-factor-mediated receptor signaling with a third mutant receptor, HAVO, alters cell fate in an opposite manner. These results suggest that it is the balance of fibroblast growth factor and non-fibroblast growth factor ligand signals that influences retinal cell genesis.     

Elucidation of the mechanism of retinal degeneration and regeneration and the prospects for its clinical application

In order to obtain the basic knowledge necessary to develop therapeutical intervention for blindness due to the damaged retina and optic nerve, the mechanism of retinal degeneration and regeneration in an amphibian model, Cynops pyrrhogaster, was studied. In the retinal degenerative process following enucleation and reimplantation of the eye ball, evidence was found for active cell death of neural retinal cells. As the degeneration proceeded, Musashi, an ribonucleic acid (RNA)-binding protein, started its expression in the daughter cells of proliferating retinal pigment epithelium (RPE) cells, messenger RNA (mRNA) expression of proneural genes with basic helix-loop-helix motif was then detected in the newly developing retina. These results suggest that transdifferentiation of RPE cells to neural retina involves at least partial cascade, if not entirely, of neural induction from uncommitted ectodermal tissue. Search for genes that are required for transdifferentiation of RPE cells to neural retinal cells, in addition to those mentioned above, will provide the basic knowledge for successful retinal transplantation and retinal regeneration in higher vertebrates.