Synapsin I expression in the rat retina during postnatal development

Summary The expression of the synapsin I gene was studied during postnatal development of the rat retina at the mRNA and protein levels. In situ hybridization histochemistry showed that synapsin I mRNA was expressed already in nerve cells in the ganglion cell layer of the neonatal retina, while it appeared in neurons of the inner nuclear layer from postnatal day 4 onward. Maximal expression of synapsin I mRNA was observed at P12 in ganglion cells and in neurons of the inner nuclear layer followed by moderate expression in the adult. At the protein level a shift of synapsin I appearance was observed from cytoplasmic to terminal localization during retinal development by immunohistochemistry. In early stages (P4 and P8), synapsin I was seen in neurons of the ganglion cell layer and in neurons of the developing inner nuclear layer as well as in the developing inner plexiform layer. In the developing outer plexiform layer synapsin I was localized only in horizontal cells and in their processes. Its early appearance at P4 indicated the early maturation of this cell type. A shift and strong increase of labelling to the plexiform layers at P12 indicated the localization of synapsin I in synaptic terminals. The inner plexiform layer exhibited a characteristic stratified pattern. Photoreceptor cells never exhibited synapsin I mRNA or synapsin I protein throughout development.Abbreviations GCL ganglion cell layer - INB inner neuroblast layer - INL inner nuclear layer - IPL inner plexiform layer - ONB outer neuroblast layer - ONL outer nuclear layer - OPL outer plexiform layer     

Immunolocalization of cellular retinol-, retinaldehyde- and retinoic acid-binding proteins in rat retina during pre- and postnatal development

Summary Cellular retinol-, retinaldehyde- and retinoic acid-binding proteins were localized in rat retina during pre- and postnatal development by indirect immunofluorescence. Cryostat tissue sections were prepared daily from embryonic day 11 until the day of birth (E11–22) and from postnatal days 1–32 (P1–32). Cellular retinaldehyde- and retinol-binding proteins were first detected in retinal pigment epithelium on E13 and E18, respectively, and in Müller cells at P1 and P15. Parallel studies showed that in adult retina cellular retinoic acid-binding protein is present in a subpopulation of GABAergic amacrine cells. During retinal differentiation, cellular retinoic acid-binding protein was first detected at E18 in cells sclerad to the developing inner plexiform layer, suggesting that this binding protein is expressed in amacrine cells very early during differentiation. During early ocular morphogenesis, cellular retinoic acid-binding protein was present in mesenchymal cells enveloping the eye (E12–15), in the neuroblastic layer of the retina (E13–15), in the nerve fibre layer (E14–15), and the developing optic nerve (E15). Our results suggest that retinoic acid, the natural ligand of cellular retinoic acid-binding protein, may be involved in neuronal differentiation in the inner retina. The studies further support a role for cellular retinoic acid-binding protein in mediating the effects of retinoic acid on developing neural crest cells and raise new questions about the role of cellular retinaldehyde-binding protein in the visual cycle and during development.     

钠尿肽受体A在小鼠视网膜发育过程中的表达

目的检测钠尿肽受体(NPR)在不同年龄小鼠视网膜内的表达,探讨其在视网膜发育过程中的作用。方法收集从受孕16日(E16)到出生90日(P90)小鼠眼球标本共127只,对NPR-A进行免疫荧光检测。结果NPR-A广泛存在于视网膜神经元中,例如,在外核层,NPR-A于P7开始高表达在视锥、视杆细胞内、外突起上,于P14减弱,P30之后持续稳定弱表达;在内核层,从P7开始NPR-A持续弱表达在双极细胞的突起中,而在水平细胞中未见NPR-A表达;在神经节细胞层,NPR-A于E16开始高表达在神经节细胞胞体中,P14明显减弱,而在神经纤维层,即神经节细胞的轴突中,NPR-A从胚胎期至成年持续高表达;在外网状层和内网状层,NPR-A于P14均高表达,但于P30之后逐渐减弱。此外,NPR-A还广泛的存在于Müller细胞的突起中。结论 NPR-A参与了视网膜的发育,可能是小鼠视网膜神经元发育过程中的关键分子,并对Müller细胞的功能活动起着重要的调节作用。     

Immunohistochemical localization of protein kinase C-alpha in the retina of pigs during postnatal development

The cellular localization and protein expression level of protein kinase C (PKC)-alpha was examined in pig retina at different ages. Western blot analysis detected PKC-alpha in the retinas of 3-day-old piglets and indicated significantly increased expression in 6-month-old young adult and 2-year-old adult pigs. Immunohistochemistry of 3-day-old retinas revealed intense PKC-alpha reactivity in the inner plexiform and inner nuclear cell layers, weak reactivity in the ganglion cell layer, and few positive cells in the outer nuclear cell layer. The cellular localization of PKC-alpha in the adult retina was similar, with staining more intense than that in neonates. PKC-alpha was co-localized in some glial fibrillary acidic protein-positive cells and glutamine synthetase-positive cells in the retina. This study demonstrates that the protein level of retinal PKC-alpha is increased with maturation and suggests that PKC-alpha plays a role in signal transduction pathways for postnatal development in porcine retina.     

Immunohistochemical localization of heat shock protein 27 in the retina of pigs

The expression of heat shock protein 27 (HSP27) was examined in the retinas of pigs. Western blot analysis detected the expression of HSP27 in the retinas of 1-day-old piglets and showed that it was enhanced in the retinas of 6-month-old adult pigs. Immunohistochemically, HSP27 immunostaining was seen mainly in ganglion cell bodies in the ganglion cell layer, and in some processes of astrocytes in the innermost nerve fiber layer. In 1-day-old piglets, HSP27 was detected weakly in the inner plexiform, inner nuclear cell, outer plexiform, and rod and cone layers. The HSP27 immunoreactivity across the retinal layers was enhanced in the retinas of 6-month-old pigs compared with newborn piglets. The HSP27 immunoreactivity in the radial processes of Müller cells was particularly prominent in adult pig retinas. In summary, this finding suggests that HSP27 plays an important role in signal transduction of glial cells and neuronal cells in the retina.     

人胎视网膜超氧化物歧化酶和波形蛋白免疫阳性细胞的发育

目的：观察人胎视网膜超氧化物歧化酶（SOD）和波形蛋白（VIM）免疫阳性细胞的分布发育。方法：不同孕龄的人胎16例,ABC免疫细胞化学方法显示视网膜SOD和VIM免疫阳性细胞,结果：（1）SOD免疫阳性细胞：E15w节细胞层开始出现SOD免疫阳性细胞;D20W和E28W SOD免疫阳性细胞排列较整齐,分布于视网膜的外核层,内核层,节细胞层,其数量增多,其中内核层SOD免疫阳性细胞增多明显。（2）VIM免疫阳性细胞的发育：E15w内界膜开始出现Muller细胞的VIM免疫阳性终足,并见VIM免疫阳性突起伸向外界膜;E20 人VIM免疫阳性物质集中于内界膜,并见VIM免疫阳性突起伸向外界膜;E28wVIM免疫阳性物质的数量较E20w以前各孕龄明显增多,除色素上皮和视杆视锥层外均有VIM免疫阳性物质出现,除伸向外界膜的VIM免疫阳性突起外,还内网层,内核层,节细胞层和神经纤维层还可见水平走行的细胞突起,结论：（1）视网膜发育基本成熟后,视网膜SOD可能主要来源于内核层的SOD免疫阳性细胞。（3）视网膜神经纤维髓鞘是从内向外逐渐形成的。     

Spatial and temporal distribution patterns of enkephalinergic neurons in adult and developing retinas of the preproenkephalin-green fluorescent protein transgenic mouse

Enkephalin (ENK) peptides are present in the retina of several vertebrate species and play a crucial role in establishing specific circuits during retinal development. However, there is no information available concerning the development of ENKergic neurons in the mouse retina. To address this question, we used preproenkephalin-enhanced green fluorescent protein (GFP) transgenic mice, in which ENKergic neurons are revealed by GFP. Our results showed that most GFP-positive cells were located in the proximal part of the inner nuclear layer with a scattering of GFP-immunoreactive cells in the ganglion cell layer (GCL) in the adult retina. Double immunostaining with syntaxin indicates that GFP expression was restricted to a population of amacrine cells. The proportions of glycine transporter-1 and γ-aminobutyric acid-positive cells among ENKergic neurons were 57.3 ± 2.4% and 10.1 ± 1.8%, respectively. We then injected retrograde tracer into the superior colliculus and observed that none of the ENKergic neurons in the GCL were retrogradely labeled with the tracer. GFP-positive cells were first observed at embryonic day (E) 15 in the inner neuroblastic layer at only very low levels, which gradually increased until E18. After birth, there was a steep rise in GFP expression levels, reaching maximal activity by postnatal day (P) 7. The distribution and intensity of GFP-positive cells at P15 were similar to those of adult retina. It was found that immunoreactive processes in the inner plexiform layer formed strongly stained patches. The present results provide detailed morphological evidence of the cell type and spatial and temporal distribution of ENKergic neurons in the retina.     

On the synaptogenic sequence in the chick retina

Study of the developing chick retina with the electron microscope revealed that dyad ribbon synapses begin to form in the inner plexiform layer before synaptic ribbons begin to appear in photoreceptor terminals of the outer plexiform layer. This centrifugal (inner to outer) sequence of synaptogenesis in the predominantly cone retina of the chick differs from the centripetal sequence that has been reported for the predominantly rod retinas of the mouse and rat. This difference does not favor the hypothesis, suggested by others, that the photo-receptor may influence the maturation of inner retinal elements. The different patterns of synaptogenesis are discussed briefly with reference to anatomical differences between the retinas of different species.     

Distribution of the small molecular weight GTP-binding proteins Rac1, Cdc42, RhoA and RhoB in the developing chick retina

Immunohistochemistry was used to determine the distribution of Rac1, Cdc42, RhoA and RhoB GTPases during development of the chick retina. All proteins appear as early as embryonic day 5 (E5) in cells of the vitreal margin, E7–8 in cells of the inner third of the inner nuclear layer and E9–10 in photoreceptors. From E10 until hatching, RhoA, Rac1 and Cdc42 were seen in perikarya and/or processes of amacrine, ganglion cells, and photoreceptors. Rho proteins were also observed in retinal Müller cells, with different distributions. RhoB showed a transient expression, being severely down regulated after E18. The distribution pattern of Rho proteins during the development of the chick retina suggests a concerted role in the differentiation of specific cell types, and probably during synaptogenesis.     

Synaptophysin Expression in Rat Retina Following Acute High Intraocular Pressure

In response to injury, synapse alteration may occur earlier than the changes in the cell body of neurons. Although retinal ganglion cell death and thinning of the inner part of retina were found after acute high intraocular pressure (HIOP), the structural and functional changes of synapses in the retina remain unknown. In the present study, we investigated the protein and mRNA expression of synaptophysin (SYN), an important molecule closely related to synaptic activities, synaptogenesis and synaptic plasticity. In addition, we also studied the ultrastructural changes of the retinal synapses. We found that (1) synaptophysin was upregulated transiently at both protein and mRNA level following HIOP; (2) broadened distribution of synaptophysin protein was present within the outer nuclear layer at the early stage following HIOP; (3) in the outer nuclear layer bouton-like vesicle-containing structures were observed by electron microscopy. This data suggested that, besides degeneration, synapses in rat retina may undergo regenerative events following HIOP.     

An immunohistochemical study of the ontogeny of the horizontal cell in the rat retina using an antiserum against spot 35 protein, a novel Purkinje cell-specific protein, as a marker

A sequence of morphological changes during the differentiation of retinal horizontal cells was studied by means of immunohistochemistry for spot 35 protein, a novel Purkinje cell-specific protein, in the rat retina. Spot 35-immunoreactive horizontal cell anlagen were first identified at embryonic day 18 (E18) in the outer zone of the neuroblastic cell layer as fusiform cells with slender inner and outer processes. As the development proceeded, the immunoreactive cells increased in number and intensity of the immunostaining, and the outer processes of the immunoreactive cells were often bifurcated close to their origin or at their periphery. At postnatal days 3 and 5 (P3 and P5), a regional difference in morphology of the immunoreactive horizontal cell anlagen was recognized: The immunoreactive cells near the ora serrata still assumed a bipolar shape, and those in the central portion of the retina had multiple processes. At P7 and P10, the immunoreactive cells in the periphery of the retina extended most of their outer processes in the plane of the retina, forming a network together with processes of adjacent immunoreactive horizontal cells. Their internally extending processes during these postnatal stages tended to be present in small numbers and to be short. At P14 all the immunoreactive horizontal cells extended their processes horizontally to form a tight bundle all the way along the outer plexiform layer. These findings indicate that spot 35 protein is a specific marker for the horizontal cells of the rat retina in the developmental process from their bipolar stage at E18 until reaching their mature configuration at P14.     

Doublecortin expression continues into adulthood in horizontal cells in the rat retina

The doublecortin (DCX) protein is associated with microtubules, and is essential for neuronal migration, differentiation, and plasticity. In mammals, it is expressed in developing neurons and new immature neuroblasts in the adult brain, but not generally in mature neurons. In the retina, doublecortin is detectable as early as embryonic day 15 (E15), is highly expressed between E18 and E20, and is poorly expressed postnatally. In this study, we investigated immunohistochemically the expression and cellular localization of doublecortin in the adult rat retina. Doublecortin was expressed in the outer plexiform layer (OPL), and in cells in the outer border of the inner nuclear layer (INL). No other layers were labeled by anti-doublecortin antibodies. In double-labeling experiments, doublecortin expression co-localized with the expression of the marker for horizontal cells, calbindin D. By contrast, the marker for immature neuroblasts, polysialylated neural cell-adhesion molecule, was not expressed in horizontal cells. These results suggest that either horizontal cells have the capacity to continuously remodel their neurites or doublecortin has a different function in horizontal cells from the control of neuronal plasticity that it is known to modulate other neurites. In addition, doublecortin might be an alternative molecular marker for horizontal cells in the adult rat retina.     

Expression of the 40 kDa catecholamine regulated protein in the normal and injured rat retina

Catecholamine regulated protein 40 (CRP40) has been shown to be expressed in the central nervous system (CNS) of several mammalian species where it may function in a similar manner to members of the heat shock protein (HSP) family. Immunohistochemical and immunoblotting techniques were utilized to investigate whether CRP40 is expressed in normal rat retinas. In addition, changes in CRP40 expression were studied following optic nerve transection. The immunohistochemical results showed that CRP40 is expressed in the normal rat retina. The protein was found to be highly expressed in the ganglion cell layer (GCL), the inner nuclear layer (INL) and the outer plexiform layer (OPL). In addition, a low level of CRP40 was found in the inner plexiform layer (IPL), and in the inner segment layer (ISL). No expression was found in the outer nuclear layer (ONL) of normal rat retina. The immunoblotting results show that CRP40 expression decreased in a time-dependent fashion after the optic nerve transection. This decrease indicates that the expression of CRP40 is dependent on the neuron's normal physiological state and that it plays an important function in physiological and pathological conditions in the retina.     

人胎视网膜发生的光镜和电镜观察

本文在光镜下观察40例人胎视网膜的发生,在电镜下观察15例人胎视网膜视细胞、双极细胞、节细胞的发育。结果表明:胚胎第9周时神经上皮可分内、外成神经细胞层。第10周时内、外成神经细胞层之间的Chievitz带消失;第11周时节细胞从内成神经细胞层内迁;第13周节细胞与内成神经细胞之间出现内网层;第16周始双极细胞从外成神经细胞层中内迁形成外网层和内核层。第20周后视网膜各层形成。而视细胞、双极细胞、节细胞的超微结构于胎儿8个月后才发育完善。其结构与成人基本相同。     

高血压大鼠视网膜组织Ca^2＋酸性磷酸酶组织化学的研究

目的：应用光镜定量酶组织化学方法对正常京都种大鼠（ＷＫＹ）和自发性高血压大鼠（ＳＨＲ）视网膜组织的Ｃａ＾２＋－酸性磷酸酶的分布和活性进行定量观察，结果：Ｃａ＾２＋酸性磷酸酶在ＷＫＹ视网膜组织的活性由强到弱依次为（Ｆ检验，Ｐ〈０．０５）；（１）杆锥细胞内节和外核层；（２）节细胞层；（３）内核层；（４）内网层和外网层；（５）杆锥细胞外节阴性，在ＳＨＲ视网膜组织中，各层Ｃａｓ＾２＋酸性磷酸酶活性下降，以     

Expression of Glutamate and GABA during the Process of Rat Retinal Synaptic Plasticity Induced by Acute High Intraocular Pressure

Acute high intraocular pressure (HIOP) can induce plastic changes of retinal synapses during which the expression of the presynaptic marker synaptophysin (SYN) has a distinct spatiotemporal pattern from the inner plexiform layer to the outer plexiform layer. We identified the types of neurotransmitters in the retina that participated in this process and determined the response of these neurotransmitters to HIOP induction. The model of acute HIOP was established by injecting normal saline into the anterior chamber of the rat eye. We found that the number of glutamate-positive cells increased successively from the inner part to the outer part of the retina (from the ganglion cell layer to the inner nuclear layer to the outer nuclear layer) after HIOP, which was similar to the spatiotemporal pattern of SYN expression (internally to externally) following HIOP. However, the distribution and intensity of GABA immunoreactivity in the retina did not change significantly at different survival time post injury and had no direct correlation with SYN expression. Our results suggested that the excitatory neurotransmitter glutamate might participate in the plastic process of retinal synapses following acute HIOP, but no evidence was found for the role of the inhibitory neurotransmitter GABA.     

Transforming growth factor beta mediates apoptosis in the ganglion cell layer during all programmed cell death periods of the developing murine retina

Transforming growth factor beta (TGF-beta) is an extracellular signaling molecule known to mediate programmed cell death (PCD) in the developing retina. In the present study, we investigated the expression profiles and activity levels of TGF-beta ligand and TGF-beta receptors (TbetaR) during the successive physiological PCD periods of the developing postnatal mouse retina. The peak of TbetaR expression levels--revealed by Western Blots and MLEC assays--coincided with the main periods of postnatal (P) retinal murine PCD at P2, P9, and P15. Immunocytochemical studies showed that the localization of the TbetaRs is restricted to the ganglion cell layer. Application of a neutralizing anti-TGF-beta antibody to E15 and P9 retinal cultures resulted in a significant decrease in the number of TUNEL-positive neurons specifically in the ganglion cell or prospective ganglion cell layer. Treatment of P2 and P15 organotypic murine retinal wholemount cultures with exogenous recombinant TGF-beta significantly increased cell death levels. In the P15 retina, where PCD affects ganglion cells and photoreceptors, TGF-beta induced cell death of large retinal ganglion cells, whereas small ganglion cells and photoreceptor neurons remained unaffected. Our data indicate that TGF-beta mediated apoptosis during all postnatal retinal PCD phases specifically affects the fate of retinal ganglion cells.     

Neuronal expression of P2X3 purinoceptors in the rat retina

P2X3 purinoceptors are involved in fast, excitatory neurotransmission in the nervous system, and are expressed predominantly within sensory neurons. In this study, we examined the cellular and synaptic localization of the P2X3 receptor subunit in the retina of the rat using immunofluorescence immunohistochemistry and pre-embedding immunoelectron microscopy. In addition, we investigated the activity of ecto-ATPases in the inner retina using an enzyme cytochemical method. The P2X3 receptor subunit was expressed in the soma of a subset of GABA immunoreactive amacrine cells, some of which also expressed protein kinase C-alpha. In addition, punctate immunoreactivity was observed within both the inner and outer plexiform layers of the retina. Double labeling studies showed that P2X3 receptor puncta were associated with both rod and cone bipolar cell axon terminals in the inner plexiform layer. Ultrastructural studies indicated that P2X3 receptor subunits were expressed on putative A17 amacrine cells at sites of reciprocal synaptic input to the rod bipolar cell axon terminal. Moreover, we observed P2X3 immunolabeling on amacrine cell processes that were associated with cone bipolar cell axon terminals and other conventional synapses. In the outer retina, P2X3 immunoreactivity was observed on specialized junctions made by putative interplexiform cells. Ecto-ATPase activity was localized to the inner plexiform layer on the extracellular side of all plasma membranes, but was not apparent in the ganglion cell layer or the inner nuclear layer, suggesting that ATP dephosphorylation occurs exclusively in synaptic regions of the inner retina. These data provide further evidence that purines participate in retinal transmission, particularly within the rod pathway.     

海洛因对小鼠视网膜结构和抗氧化物酶的影响

目的 探讨海洛因对小鼠视网膜结构的影响。 方法 60只昆明小鼠随机分为对照组和海洛因组2组,海洛因组用递增剂量(2,3,4 g/L)连续(1～5、6～10和11～15 d)腹腔注射海洛因溶液15 d（每d 2次,每次0.2 ml）,对照组注射等量生理盐水。称量检测小鼠体重及眼球重的变化,用生物显微技术观察小鼠视网膜组织结构的变化,用比色法检测超氧化物歧化酶（SOD）活性及丙二醛（MDA）含量的变化,用免疫组织化学法检测Bax和肿瘤坏死因子α（TNF-α）蛋白的表达情况。 结果 海洛因组小鼠体重和眼球重量均低于对照组,小鼠视网膜组织均有不同程度的损伤,神经节细胞减少,出现空泡样变性,内核层和外核层结构紊乱,疏松成网状;视网膜组织SOD活性显著降低,MDA含量显著增加;Bax,TNF-α蛋白表达显著增加。 结论 海洛因会降低视网膜组织抗氧化能力,使组织脂质过氧化反应增加,诱导视网膜细胞凋亡和炎症的发生,对视网膜有一定的损伤效应。