Role of PTB-like protein,a neuronal RNA-binding protein,during the differentiation of PC12 cells

PTB-like protein (PTBLP) is a new homologue of pyrimidine tract binding protein (PTB), and has been cloned as a possible autoantigen in cancer-associated retinopathy. PTBLP has two functional domains, the nuclear localization signal and the RNA recognition motifs (RRMs). Full-length PTBLP (PTBLP-L) has four RRMs, and its alternative splicing product (PTBLP-S) lacks the third and fourth RRMs. Although PTBLPs are expressed in neuronal tissues, the function of PTBLPs has not been determined. We have studed whether PTBLP plays a role in neuronal differentiation using PC12 cells. During the process of nerve growth factor-induced neuronal differentiation of PC12 cells, PTBLP-L was down-regulated whereas PTBLP-S was up-regulated. Transfection of PTBLP-L into PC12 cells led to the suppression of neuronal differentiation. In PTBLP-S transfected cells, however, this suppression was not evident. When both PTBLP-L and PTBLP-S were co-transfected, the suppressive effect of PTBLP-L decreased. In differentiated cells, PTBLP-S localized in the nucleus and PTBLP-L was found dispersed throughout the cytoplasm and neuronal growth cone. These findings suggest that PTBLP-L acts as a negative regulator of neuronal differentiation and PTBLP-S acts as a competitor of PTBLP-L.     

Cloning and characterization of human homologue of Drosophila retinal degeneration B: A candidate gene for degenerative retinal diseases

Mutations in the Drosophila retinal degeneration B (D-rdgB) gene cause light-enhanced retinal degeneration. Here, we report the isolation of the cDNA encoding human homologue of the D-rdgB and initial characterization of the gene products. Like D-rdgB, the human rdgB homologue (H-rdgB) is a transmembrane protein with the N-terminus sharing high homology to two closely related cytosolic proteins, phosphatidylinositol transfer protein (PITP) α and β, indicating that rdgB like proteins belong to the family of PITP proteins. Using Northern and Western blotting, we demonstrated that the rdgB homologue is expressed in rat retina, olfactory bulb, and brain, but not in nonneuronal tissues. In the rat retina, immunoreactivity of the rdgB homologue was observed in photoreceptors and throughout the inner nuclear and plexiform layers; the strongest staining was in the inner plexiform layer. In the photoreceptor cells, the rdgB homologue was located primarily in the inner segment where sorting and traffic of membranes required for outer segment assembly take place. These data, together with recent findings showing PITPs as an important component of intracellular membrane traffic apparatus in mammalian cells, suggest that rdgB homologue may play a role in photoreceptor membrane renewal and in neurotransmitter release. Furthermore, using somatic hybrid cell hybridization and fluorescence in situ hybridization H-rdgB gene was mapped to human chromosome 11q13, a region known to contain several retinopathy loci, including Best disease and Bardet-Biedl syndrome I. Therefore, H-rdgB gene is an attractive candidate for several inherited retinal degenerative diseases. Dev. Genet. 20:235–245, 1997. © 1997 Wiley-Liss, Inc.     

In vitro organotypic cultivation of adult newt and rat retinas

Adult rat and newt retinas were studied during long organotypic 3D cultivation. A high proliferation level was discovered in the region of growth by applying DNA synthesis markers and in vitro mitosis registration in newt retina. Aggregates were formed in the retina spheroid cavity because dedifferentiated cells migrated into this region. Small cell populations in nuclear layers also had dividing and migration capacity. Rosette formation has been shown in newt retina. It is a characteristic of fetal retinal development under pathological conditions. The antiGFAP antibody dye demonstrated an increase in the parent Müller cell population and generation of a small cell pool with short GFAP-extensions de novo. Recoverin expression studies detected its translocation from photoreceptor extensions to the cell bodies. Moreover, protein was presented in some cells inside the spheroid. It has been shown for the first time that cell proliferation occurred in the adult rat retinal spheroid developing in vitro; BrdU-positive cells and multiple mitoses were revealed in this fissue. However, the source of proliferation was not in the peripheral retina, and resident macrophages and glial cells located among neurons of the inner nuclear layer had the ability to divide. The antiGFAP antibody showed an increase in GFAP fibers in the rat retina as well as in the newt retina. Recoverin translocated into photoreceptor perikaryons and the outer plexiform layer in cultivated rat retina. Interestingly, some cells with probably de novo expression of recoverin were discovered in rat and newt inner retinas.     

Expression of p97/VCP and ubiquitin during postnatal development of the degenerating rat retina

In this study, we aimed to investigate the distribution pattern of ubiquitin and p97/VCP in the rat retina during postnatal development. Eyeballs from 1-, 4-, 10-, 36- and 72-week-old rats were examined by immunohistochemistry, and protein colocalization was determined by immunofluorescence microscopy. In the 1-week-old rat retina, p97/VCP was strongly expressed in the neuroblast layer, however no ubiquitin immunoreactivity was observed. p97/VCP immunoreactivity was present in the ganglion cell layer (GCL), inner nuclear layer (INL), outer nuclear layer (ONL), inner segment (IS) of the photoreceptor layer, and retinal pigment epithelium in the 4- and 10-week-old rat retinas. p97/VCP immunoreactivity increased significantly in the 10-week-old rat retinas. Ubiquitin was barely seen in the 4-week-old rat retinas, and ubiquitin expression was weak in the GCL and the IPL of the 10-week-old rat retinas. In the 36- and 72-week-old rats, the presence of ubiquitin was remarkable in the IS, INL, IPL and GCL, however, p97/VCP immunoreactivity was significantly decreased. Colocalization of ubiquitin and p97/VCP was also observed in the INL, IS, GCL and ONL of 36- and 72-week-old rat retinas. Our results indicate that p97/VCP immunoreactivity in the retina significantly decreases after rats reach 10 weeks of age, whereas ubiquitin immunoreactivity increases with aging. These results suggest that an altered expression pattern of p97/VCP and ubiquitin in the developing rat retina may associate with age-related retinal degeneration.     

Immunocytochemical Evidence of the Localization of the Crumbs Homologue 3 Protein (CRB3) in the Developing and Mature Mouse Retina

CRB3 (Crumbs homologue 3), a member of the CRB protein family (homologous to the Drosophila Crumbs), is expressed in different epithelium-derived cell types in mammals, where it seems to be involved in regulating the establishment and stability of tight junctions and in ciliogenesis. This protein has been also detected in the retina, but little is known about its localization and function in this tissue. Our goal here was to perform an in-depth study of the presence of CRB3 protein in the mouse retina and to analyze its expression during photoreceptor ciliogenesis and the establishment of the plexiform retinal layers. Double immunofluorescence experiments for CRB3 and well-known markers for the different retinal cell types were performed to study the localization of the CRB3 protein. According to our results, CRB3 is present from postnatal day 0 (P0) until adulthood in the mouse retina. It is localized in the inner segments (IS) of photoreceptor cells, especially concentrated in the area where the connecting cilium is located, in their synaptic terminals in the outer plexiform layer (OPL), and in sub-populations of amacrine and bipolar cells in the inner plexiform layer (IPL).     

Postnatal changes of vascular endothelial growth factor (VEGF) expression in the retinae of normal and hypertensive rats

Vascular endothelial growth factor (VEGF) has been shown to have potent mitotic activity specific to vascular endothelial cells and has been related to vascular permeability, angiogenesis and cell proliferation in both normal and pathological situations. The present study aimed at elucidating the spatio-temporal changes in the postnatal expression pattern of VEGF in the retinae of both normal and hypertensive rats. In situ hybridization with a riboprobe showed that in the pre-hypertensive stage (2 weeks postnatal, prior to the increase of the blood pressure of the hypertensive rat), VEGF expressed strongly in the retinal pigment epithelium (RPE) and inner nuclear layer (INL) but weakly in the ganglion cell layer and nerve fiber layer in both the normal and hypertensive rats. During the early hypertensive stage (6 weeks postnatal, initial increase of the blood pressure of the hypertensive rat), similar expression pattern was maintained but the INL of the hypertensive rat was found to have more positive cells in clusters than that of the normal rat. When a sustained high blood pressure was developed (12 weeks postnatal, sustained hypertensive stage) in the hypertensive rat, the VEGF expression was much reduced in all layers of the retina although weak expression was still observed in the RPE of the normal rat and RPE and INL of the hypertensive rat. Western blot analysis however showed that VEGF protein expression in the retina was much stronger in the hypertensive rat than in the normal rat at 2 and 6 weeks postnatal. At 12 weeks, the VEGF protein returned to a level comparable to that found in the normal rat. It is speculated that the change of the VEGF protein expression pattern during the early phase of the development of hypertension may be related to the subsequent changes in the retinal vasculature of the hypertensive rat.     

Colocalization of GLUT3 and choline acetyltransferase immunoreactivity in the rat retina

Toward elucidating the functional aspects ofGLUT3, a primary neuronal glucose transporter isoform in the vertebrate central nervous system, this study examined its expression in cholinergic amacrine cells made identifiable by the presence of acetylcholine-synthesizing enzyme, choline acetyltransferase (ChAT), in the rat retina. Double-immunofluorescence staining of adult rat retinal tissue with anti-GLUT3 and anti-ChAT antibodies revealed characteristic stratified GLUT3 immunoreactivity (GLUT3-IR) in the inner plexiform layer (IPL) that was identical to the arborization pattern of ChAT-positive neuronal processes there. In addition, approximately 30-50% of intensely GLUT3-immunoreactive cell bodies in the inner nuclear layer and ganglion cell layer showed ChAT-IR, while the majority of ChAT-positive cell bodies were also intensely GLUT3 immunoreactive. Analysis at the cellular level using retinal cells in culture revealed similar findings. These results collectively indicate that cholinergic amacrine cells constitute the major component of GLUT3-expressing cells in the rat retina. It is expected that the link demonstrated here between GLUT3 expression and cholinergic amacrine cell population will provide clues for further analyzing GLUT3 function in the retina.     

表皮生长因子及其受体和erb-B在鼠视网膜的表达

用免疫组织化学方法,对鼠视网膜的表皮生长因子(EGF)及其受体(EGF-R),和erb-B的表达,作了研究.结果表明:①EGF,EGF-R和erb-B分别在视网膜各层有不同表达;②EGF免疫反应着色不强,但有特异性地均匀分布在节细胞层(GCL)、内核层(INL)、外核层(ONL)和视网膜色素上皮层(RPE);③EGF-R免疫反应着色以GCL和INL的细胞明显,分布于细胞浆和细胞核,以细胞核更明显;④erb-B的分布类似EGF.但在ONL内出现一条较明显的着色带.对以上结果的可能意义进行了讨论.     

Pax-6 expression during retinal regeneration in the adult newt

The present study examined the expression of Pax-6 during retinal regeneration in adult newts using in situ hybridization. In a normal retina, Pax-6 is expressed in the ciliary marginal zone, the inner part of the inner nuclear layer, and the ganglion cell layer. After surgical removal of the neural retina, retinal pigment epithelial cells proliferate into retinal precursor cells and regenerate a fully functional retina. At the beginning of retinal regeneration, Pax-6 was expressed in all retinal precursor cells. As regeneration proceeded, differentiating cells appeared at the scleral and vitreal margins of the regenerating retina, which had no distinct plexiform layers. In this stage, the expression of Pax-6 was localized in a strip of cells along the vitreal margin of the regenerating retina. In the late stage of regeneration, when the layer structure was completed, the expression pattern of Pax-6 became similar to that of a normal retina. It was found that Pax-6 is expressed in the retinal precursor cells in the early regenerating retina and that the expression pattern of Pax-6 changed as cell differentiation proceeded during retinal regeneration.     

Developmental expression of GLUT2 in the rat retina

We previously demonstrated that GLUT2, a facilitated-diffusion glucose transporter isoform known to play critical roles in the regulation of systemic blood glucose level, is present at the apical ends of Müller cells in the rat retina. As a means of elucidating the ontogeny and possible role(s) of GLUT2 in the developing retina, this study examined its expression at various stages of retinal development by immunofluorescence staining using GLUT2-specific antibody. Evidence of GLUT2 expression first appeared at embryonic day 14 (E14) as linear staining along the boundary between the inner and outer layers of the optic cup, with this staining pattern being present throughout subsequent embryonic and neonatal stages. After the development of photoreceptor cell inner and outer segments (i.e., photoreceptor layer), GLUT2 immunoreactivity was localized along the boundary between the outer nuclear layer and photoreceptor layer. Localization of GLUT2 expression and the timing of its appearance, which coincided with the formation of choriocapillaries, together suggest that GLUT2 is involved in the anterior transport of glucose supplied by choroidal circulation from the early stages of retinal development.     

Pigmented epithelium to retinal transdifferentiation and Pax6 expression in larval Xenopus laevis

This study examines the retinal transdifferentiation (TD) of retinal pigmented epithelium (RPE) fragments dissected from Xenopus laevis larvae and implanted into the vitreous chamber of non-lentectomized host eyes. In these experimental conditions, most RPE implants transformed into polarized vesicles in which the side adjacent to the lens maintained the RPE phenotype, while the side adjacent to the host retina transformed into a laminar retina with the photoreceptor layer facing the cavity of the vesicle and with the ganglionar cell layer facing the host retina. The formation of a new retina with a laminar organization is the result of depigmentation, proliferation and differentiation of progenitor cells under the influence of inductive factors from the host retina. The phases of the TD process were followed using BrdU labelling as a marker of the proliferation phase and using a monoclonal antibody (mAbHP1) as a definitive indicator of retina formation. Pigmented RPE cells do not express Pax6. In the early phase of RPE to retinal TD, all depigmented and proliferating progenitor cells expressed Pax6. Changes in the Pax6 expression pattern became apparent in the early phase of differentiation, when Pax6 expression decreased in the presumptive outer nuclear layer (ONL) of the new-forming retina. Finally, during the late differentiation phase, the ONL, which contains photoreceptors, no longer expressed Pax6, Pax6 expression being confined to the ganglion cell layer and the inner nuclear layer. These results indicate that Pax6 may have different roles during the different phases of RPE to retinal TD, acting as an early retinal determinant and later directing progenitor cell fate.     

Lack of causal relationship between clusterin expression and photoreceptor apoptosis in light-induced retinal degeneration

Induction of apoptosis in the retina leads to cellular death by molecular mechanisms that are not well understood. Clusterin expression is increased in tissues undergoing apoptosis, including retinal neurodegenerative states, but the causal relationships remain to be clarified. To gain insight into clusterin's role in photoreceptor apoptosis, the cellular distribution of clusterin mRNA was compared with the pattern of apoptotic nuclear labelling in a rat model of light-induced retinal degeneration. In control retinal sections, clusterin mRNA was localized to the retinal pigment epithelium cells, photoreceptor inner segments, inner nuclear layer, and ganglion cell layer. Clusterin expression decreased in photoreceptors and retinal pigment epithelium cells, which progressively degenerated, and increased in preserved inner nuclear layer, in proportion to the duration of light exposure in both cyclic light- and dark-reared animals. These results suggest that clusterin is not causally involved in apoptotic mechanisms of photoreceptor death, but may relate to cytoprotective functions.     

Cellular and subcellular localization of heme oxygenase-2 in monkey retina

Carbon monoxide (CO), an activator of soluble guanylate cyclase (SGC) and generated enzymatically by heme oxygenases (HO), is considered to function as an intra- and intercellular neuromodulator or neurotransmitter in the central and peripheral nervous systems. HO-2 is the constitutive isoform of HO and is more prevalent in nervous tissues than in the other peripheral tissues. Because previous studies have demonstrated different distributions of HO-2 in the retina depending on the species of animals, the aim of this study was to identify which cell types of the monkey retina express HO-2. The expression of HO-2 protein was examined in monkey retina by Western blot analysis. Immunoblottings from monkey homogenates revealed a single clear protein band with a molecular mass of 36 kDa that is corresponding to rat HO-2. Immunoreactivity of HO-2 was found in the perikarya of ganglion cells. Density of immunoreactive ganglion cells was higher in the central area of retina than in the peripheral retina, and somata of larger ganglion cells were stained more densely than smaller ones. In electron microscopy, immunoreactivity of HO-2 was localized on the membrane of the endoplasmic reticulum and the nuclear outer membrane of the ganglion cells. By contrast, inner plexiform layer, inner nuclear layer and outer nuclear layer were devoid of HO-2 immunoreactivity. cGMP were strongly localized in all of ganglion cells. Some cells contributed to the relatively faint cGMP staining were seen in the inner nuclear layer. In combination of HO-2 and cGMP immunocytochemistry, the overlap of co-localization of HO-2 and cGMP would suggest that HO-2 in the ganglion cells would serve as a source for CO generation and CO could serve as a gaseous signaling molecule modulator of neural activity in the retina of monkey.     

Spatial and temporal expression patterns of GDNF family receptor alpha4 in the developing chicken retina

GDNF family receptor alpha (GFRalpha) receptors are involved in the regulation of different aspects of embryonic development such as proliferation, migration, differentiation and survival. To determine the possible role of GFRalpha4 in retinal development, we analysed its expression in the developing chicken retina. We found that GFRalpha4 is temporally co-expressed with c-ret. Both, the temporal and spatial expression of GFRalpha4 is developmentally regulated during retinogenesis and is first detected in cells of the ganglion cell layer at E6. As development of the retina proceeds, the expression of GFRalpha4 extends to cells of the inner half of the inner nuclear layer and to cells of the outermost cell row of the inner nuclear layer. Later on, GFRalpha4 expression is also found in additional cells of the outer half of the inner nuclear layer and in a subpopulation of photoreceptors. A central-to-peripheral gradient of retinal differentiation is evident, as the onset of GFRalpha4 expression is first detectable in the central retina, while it is delayed by two days in its periphery.