根田鼠视网膜的胚后发育

视觉对动物的生活习性尤其是取食具有重要意义。本文对根田鼠视网膜的胚后发育进行了研究,结果表明:出生3d内根田鼠视网膜分化程度较低,神经节母细胞层尚未分化,占据了视网膜层的一半以上;5日龄时,外网层开始出现;6日龄时,外网层开始清晰,外核层与内核层更加清晰;18日龄时,视网膜结构与成年根田鼠结构相似,各层结构清晰可见。测量了神经节细胞层和外核层的细胞密度以及核层厚度,结果表明:随着个体发育,外核层细胞层厚度及细胞密度不断增加;而神经节细胞层厚度及细胞密度不断减少。与褐家鼠、黑线姬鼠、大仓鼠、棕色田鼠、甘肃鼢鼠、达乌尔黄鼠、岩松鼠视网膜相比,根田鼠视网膜结构介于夜行性与昼行性鼠类之间[动物学报52(2):376-382,2006]。     

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.     

Variable light environments induce plastic spectral tuning by regional opsin coexpression in the African cichlid fish,Metriaclima zebra

Critical behaviours such as predation and mate choice often depend on vision. Visual systems are sensitive to the spectrum of light in their environment, which can vary extensively both within and among habitats. Evolutionary changes in spectral sensitivity contribute to divergence and speciation. Spectral sensitivity of the retina is primarily determined by visual pigments, which are opsin proteins bound to a chromophore. We recently discovered that photoreceptors in different regions of the retina, which view objects against distinct environmental backgrounds, coexpress different pairs of opsins in an African cichlid fish, Metriaclima zebra. This coexpression tunes the sensitivity of the retinal regions to the corresponding backgrounds and may aid in detection of dark objects, such as predators. Although intraretinal regionalization of spectral sensitivity in many animals correlates with their light environments, it is unknown whether variation in the light environment induces developmentally plastic alterations of intraretinal sensitivity regions. Here, we demonstrate with fluorescent in situ hybridization and qPCR that the spectrum and angle of environmental light both influence the development of spectral sensitivity regions by altering the distribution and level of opsins across the retina. Normally, M. zebra coexpresses LWS opsin with RH2Aα opsin in double cones of the ventral but not the dorsal retina. However, when illuminated from below throughout development, adult M. zebra coexpressed LWS and RH2Aα in double cones both dorsally and ventrally. Thus, environmental background spectra alter the spectral sensitivity pattern that develops across the retina, potentially influencing behaviours and related evolutionary processes such as courtship and speciation.     

An electron microscopic study of neuronal degeneration and glial cell reaction in the retina of glaucomatous rats

The present investigation was focused on the ultrastructural changes in the neurons and glial cells in the retina of rats with experimentally-induced glaucoma. An experimental glaucoma model was created by limbal-derived vein cauterization. Animals were sacrificed at 1, 3 weeks and 3 months post-operation. Retinae were dissected and processed for electron microscopy. Neuronal degeneration was observed in all the different layers of the retina at both 1 and 3 weeks post-operation. Some degenerating neurons were found in the ganglion cell layer (GCL), inner nuclear layer (INL) and outer nuclear layer (ONL). And the dying neurons presented apoptotic-like more than necrotic neurons. Many degenerating axons and axon terminals were observed between neurons in the GCL, inner plexiform layer (IPL), INL, and outer plexiform layer (OPL). Activated astrocytes and microglial cells were present in close association with degenerating neurons and axons. The Müller cells in the INL also presented longer and darker processes with more microfilaments than in normal cells. Degenerating neuronal debris, degenerating axonal profiles and electron-dense bodies were often found in the cytoplasm of macrophages. The results suggest that both microglial cells and astrocytes are activated in the process of neuronal degeneration in the retina of experimentally-induced glaucomatous rats. It is hypothesized that they may play a protective role in removing degenerating neuronal elements in the retina after the onset of glaucoma.     

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.     

人胎视网膜神经肽Y免疫反应神经元的发育

本文用免疫细胞化学ＡＢＣ法,研究１５—３８周龄人胎视网膜神经肽Ｙ免疫反应（ＮｅｕｒｏｐｅｐｔｉｄｅＹｉｍｍｕｎｏｒｅｃｔｉｖｅ,ＮＰＹ－ＩＲ）神经元（以下称ＮＰＹ－ＩＲ细胞）的发育。结果表明：①胎龄１５周视网膜中央部已出现不同类型的ＮＰＹ－ＩＲ细胞：位于黄斑及其周围外核层的为ＮＰＹ－ＩＲ视锥细胞;位于内核层最内一列的为ＮＰＹ－ＩＲ无长突细胞位于节细胞层的可能为ＮＰＹ－ＩＲ移位无长突细胞或节细胞;内核层和节细胞层的ＮＰＹ－ＩＲ细胞的突起均分布在内网层的第１亚层。②胎龄２４周后,ＮＰＹ－ＩＲ视锥细胞完全消失。③随着视网膜的发育,内核层和节细胞层的ＮＰＹ－ＩＲ细胞数量增多,突起增粗增长,胞体分布由中央部扩展到周边部,其中内核层ＮＰＹ－ＩＲ细胞的密度呈现从中央部向周边部逐渐降低的分布方式,节细胞层ＮＰＹ－ＩＲ细胞则多数集中分布在视网膜的边缘和黄斑之间,形成较高密度的环状区。     

Onset and time course of apoptosis in the developing zebrafish retina

In mammalian development, apoptosis spreads over the retina in consecutive waves and induces a remarkable amount of cell loss. No evidence for such consecutive waves has been revealed in the fish retina so far. As the zebrafish is of growing importance as a model for retinal development and for degenerative retinal diseases, we examined the onset and time course of apoptosis in the developing zebrafish retina and in adult fish. We found that apoptosis peaked in the ganglion cell layer (GCL) and inner nuclear layer (INL) in early developmental stages (3-4 days post-fertilization; dpf) followed by a second, but clearly smaller wave at 6-7dpf. Apoptosis in the outer nuclear layer (ONL) started at 5dpf and peaked at 7dpf. This late-onset high peak of apoptosis of photoreceptors is different from that of all other species examined to date. With 1.09% of cells in the GCL and 1.10% in the ONL being apoptotic, the rate of apoptosis in the developing zebrafish retina was conspicuously lower than that observed in other vertebrates (up to 50% in GCL). During development (2-21dpf), apoptotic waves were most obvious in the central retina, whereas in the periphery near the marginal zone (MZ), apoptosis was much lower; in adult animals, practically no apoptosis was present in the central retina but it still occurred near the MZ. Our data show that the onset and time course of apoptosis in the GCL and INL of the zebrafish is comparable with other vertebrates; however, the amount of apoptosis is clearly reduced. Thus, apoptosis in the zebrafish retina may serve more as a mechanism for the fine tuning of the retinal neuronal network after mitotic waves during development or in remaining mitotic areas than as a mechanism for eliminating large numbers of excess cells.     

Characterization of photoreceptor cell types in the little brown bat Myotis lucifugus (Vespertilionidae)

We report the expression of three visual opsins in the retina of the little brown bat (Myotis lucifugus, Vespertilionidae). Gene sequences for a rod-specific opsin and two cone-specific opsins were cloned from cDNA derived from bat eyes. Comparative sequence analyses indicate that the two cone opsins correspond to an ultraviolet short-wavelength opsin (SWS1) and a long-wavelength opsin (LWS). Immunocytochemistry using antisera to visual opsins revealed that the little brown bat retina contains two types of cone photoreceptors within a rod-dominated background. However, unlike other mammalian photoreceptors, M. lucifugus cones and rods are morphologically indistinguishable by light microscopy. Both photoreceptor types have a thin, elongated outer segment. Using microspectrophotometry we classified the absorption spectrum for the ubiquitous rods. Similar to other mammals, bat rhodopsin has an absorption peak near 500 nm. Although we were unable to confirm a spectral range, cellular and molecular analyses indicate that M. lucifugus expresses two types of cone visual pigments located within the photoreceptor layer. This study provides important insights into the visual capacity of a nocturnal microchiropteran species.     

Unusual retinal layer organization in HPC-1/syntaxin 1A knockout mice

HPC-1/syntaxin 1A (STX1A) is abundantly expressed in neurons. STX1A is believed to regulate exocytosis in synaptic vesicles. In our recent studies, STX1A knockout (KO) mice showed normal development, and basal synaptic transmission in cultured hippocampal neurons appeared to be normal. However, behavioral abnormalities were observed in STX1A KO mice. In the normal rodent retina, the STX1A protein is expressed in two synaptic layers (plexiform layers). Here, to evaluate the effects of the loss of STX1A on retinal structure, we examined the retinal layer structure in STX1A KO mice using hematoxylin staining and immunostaining. We found that the general layer structures in the retina were preserved in all genotypes. However, the outer plexiform layer (OPL) was significantly thicker in KO and heterozygous mutant (HT) mice compared with that in wild-type (WT) mice. No significant differences were observed in the thicknesses of the other layers. Immunostaining for protein kinase C α showed that the alignment of rod bipolar cell bodies in the inner nuclear layer (INL) was slightly disrupted in HT and KO retinas. Furthermore, the dendrites of these cells in the OPL of KO mice were sparse, compared to those in WT mice. Our results show that STX1A KO mice have increased thickness of the OPL and changes in the morphology of the INL that may contribute to the change in OPL thickness. We suggest that STX1A may play a role in the structural formation of the INL and OPL in the retina.     

黑斑蛙视网膜3种神经内分泌细胞的免疫组织化学定位

目的研究神经肽Y(NPY)、五羟色胺(5-HT)和胰高血糖素(GLU)免疫阳性细胞在黑斑蛙(Rananigromaculata)视网膜上的组织学定位。方法应用过氧化物酶标记的链霉亲和素(SP法)免疫组织化学技术,并结合生物统计学分析。结果NPY细胞主要分布于内核层和节细胞层。内核层中出现两种阳性细胞,一种出现在第2、3亚层,常为多个细胞聚集;另一种出现在内侧,有突起伸入内网层。节细胞层阳性细胞分布较少,胞体有大小之分。5-HT细胞主要分布于内核层和节细胞层,位于内核层中邻近内网层一侧的阳性细胞有突起延伸入内网层。GLU细胞分布于外核层、内核层内侧以及节细胞层。结果 黑斑蛙视网膜上NPY、5-HT和GLU细胞的分布与其它物种有相似之处,也有其自身特点,符合其晨昏性生活习性。     

Differential subcellular localization of zinc in the rat retina.

In the retina, zinc is believed to be a modulator of synaptic transmission and a constituent of metalloenzymes. To determine whether the intracellular localization of zinc correlates with function, we examined the localization of endogenous zinc in the rat retina using the silver amplification method. By light microscopy, reaction products were detected in the pigment epithelial cells (PE), the inner segment of photoreceptors (IS), the outer nuclear layer (ONL) and the inner nuclear layer (INL), the outer plexiform layer (OPL) and the inner plexiform layer (IPL), and the ganglion cell layer (GC). The heaviest accumulation of precipitate was observed in PE and IS, whereas only a little precipitate was found in GC. When the intracellular zinc was chelated with diethyldithiocarbamate, a small amount of precipitate was observed only in ONL. By electron microscopy, zinc was associated with three compartments. In OPL and IPL, zinc was associated with neural processes, while in PE, IS, INL, and GC it was associated with the Golgi apparatus. In ONL, zinc was associated with the nucleus. Zinc in the neural processes is believed to act as a modulator of synaptic transmission, and zinc associated with the Golgi apparatus is assumed to catalyze metalloenzyme reactions.     

Paralogous origin of the rhodopsinlike opsin genes in lizards

Rhodopsinlike opsins constitute a distinct phylogenetic group (Yokoyama 1994, Mol. Biol. Evol. 11:32–39). This RH2 group includes the green-sensitive opsins in chicken and goldfish and the blue-sensitive opsin in a nocturnal lizard gecko. In the present study, we isolated and sequenced the genomic DNA clones for the RH2 opsin gene, rh2 _Ac , of the diurnal lizard Anolis carolinensis. This single-copy gene spans 18.3 kb from start to stop codons, making it the longest opsin gene known in vertebrates. Phylogenetic analysis strongly suggests that rh2 _Ac is more closely related to the chicken green opsin gene than to the gecko blue opsin gene. This gene tree differs from the organismal tree, where the two lizard species should be most closely related, implying that rh2 _Ac and the gecko blue-sensitive opsin genes have been derived from duplicate ancestral genes.Correspondence to: S. Yukiyama     

SOMATOSTATIN-LIKE IMMUNOREACTIVE CELLS IN THE GROUND SQUIRREL RETINA

Immunocytochemical techniques were employed to locate somatostatin (SS)-containing cells in the retina of the 13-lined ground squirrel (Spermophilus tridecemlineatus). In normal retinas immunostain was limited to neuronal processes, yet distinctly labeled somata were detected in retinas of animals pretreated with colchicine. Labeled cell bodies were located in the outermost and innermost portions of the inner nuclear layer (INL) and in the ganglion cell layer (GCL). The largest population of SS-like immunoreactive neurons was found in the innermost INL. These cells were identified as small and medium sized amacrine cells whose soma diameters ranged from 4 to 14μm. A smaller population of immunoreactive cells was observed in the outermost region of the INL. These cells, presumptive horizontal cells, were found mainly in peripheral regions of the retina. Immunoreactive cells in the GCL were of two types: displaced amacrines, and retinal ganglion cells. SS-positive axons in the optic fiber layer suggest that some of the immunoreactive GCL neurons were ganglion cells, and it is our opinion that these cells belong to a class of associational ganglion cells previously identified in other species.     

Functional characterization of visual opsin repertoire in Medaka (Oryzias latipes)

A variety of visual pigment repertoires present in fish species is believed due to the great variation under the water of light environment. A complete set of visual opsin genes has been isolated and characterized for absorption spectra and expression in the retina only in zebrafish. Medaka (Oryzias latipes) is a fish species phylogenetically distant from zebrafish and has served as an important vertebrate model system in molecular and developmental genetics. We previously isolated a medaka rod opsin gene (RH1). In the present study we isolated all the cone opsin genes of medaka by genome screening of a lambda-phage and bacterial artificial chromosome (BAC) libraries. The medaka genome contains two red, LWS-A and LWS-B, three green, RH2-A, RH2-B and RH2-C, and two blue, SWS2-A and SWS2-B, subtype opsin genes as well as a single-copy of the ultraviolet, SWS1, opsin gene. Previously only one gene was believed present for each opsin type as reported in a cDNA-based study. These subtype opsin genes are closely linked and must be the products of local gene duplications but not of a genome-wide duplication. Peak absorption spectra (lambda(max)) of the reconstituted photopigments with 11-cis retinal varied greatly among the three green opsins, 452 nm for RH2-A, 516 nm for RH2-B and 492 nm for RH2-C, and between the two blue opsins, 439 nm for SWS2-A and 405 nm for SWS2-B. Zebrafish also has multiple opsin subtypes, but phylogenetic analysis revealed that medaka and zebrafish gained the subtype opsins independently. The lambda and BAC DNA clones isolated in this study could be useful for investigating the regulatory mechanisms and evolutionary diversity of fish opsin genes.     

强光照和全黑暗条件下荒漠沙蜥视网膜内GAP-43表达的免疫组织化学

采用免疫组织化学技术研究了在强光照和全黑暗条件下荒漠沙蜥(Phrynocephalus prezewalskic)视网膜内生长相关蛋白GAP-43的表达变化。结果表明,在正常光照条件下,视网膜内GAP-43阳性表达部位主要存在于内网层;强光照条件下,GAP-43免疫染色部位主要出现在内网层、节细胞层和内核层的部分细胞核。在全黑暗条件下,在视纤维层和内网层呈阳性染色;提示视网膜在不同环境条件下GAP-43的不同定位,可能与其在相应的环境下参与不同的视觉功能有关。     

Impaired retinal vascular development in anencephalic human fetus

This study was to investigate the effect of the absence of ganglion cells on the development of human retinal vasculature. Anencephaly (AnC) and age-matched control eyes derived from each three spontaneously aborted fetus (ranging from 15 to 20 weeks gestation) were subjected to immunofluorescence staining for HIF-1α, Thy-1, glial fibrillary acidic protein (GFAP) and platelet/endothelial cell adhesion molecule (PECAM) and apoptosis assay. In developing mouse retina, Western blotting for hypoxia-inducible factor-1α (HIF-1α) and vascular endothelial growth factor (VEGF) was performed. Under hypoxic condition (O₂ < 1%), cellular proliferation and VEGF mRNA expression in astrocytes were measured. Apoptotic cells in AnC retina were primarily localized in the ganglion cell layer (GCL), whereas apoptotic cells in normal retina were distributed in the retinoblastic layer. With increase of apoptotic cells in GCL of AnC retina, HIF-1α expression were severely distinguished in avascular retina and GFAP expression in junctional area between avascular and vascular retina was much reduced, accompanied by decrease of PECAM expression compared to normal retina. In developing mouse retina, HIF-1α and VEGF expression were high in hypoxic retina of early stage with incomplete vascular development and then progressively decreased with regression to arborous pattern of matured vascular networks. In hypoxic condition, a significant increase in cellular proliferation and VEGF mRNA expression was observed in astrocytes. Therefore, our results suggest that vascular attenuation in AnC retina could be closely related to the absence of ganglion cells as the metabolic demander to induce retinal vascular development.     

Cellular distribution ofl-glutamate decarboxylase (GAD) andγ-aminobutyric acidA (GABAA) receptor mRNAs in the retina

1. Gamma-aminobutryic acid (GABA), a major inhibitory transmitter of the vertebrate retina, is synthesized from glutamate by L-glutamate decarboxylase (GAD) and mediates neuronal inhibition at GABAA receptors. GAD consists of two distinct molecular forms, GAD65 and GAD67, which have similar distribution patterns in the nervous system (Feldblum et al., 1990; Erlander and Tobin, 1991). GABAA receptors are composed of several distinct polypeptide subunits, of which the GABAA alpha 1 variant has a particularly extensive and widespread distribution in the nervous system. The aim of this study was to determine the cellular localization patterns of GAD and GABAA alpha 1 receptor mRNAs to define GABA- and GABAA receptor-synthesizing neurons in the rat retina. 2. GAD and GABAA alpha 1 mRNAs were localized in retinal neurons by in situ hybridization histochemistry with 35S-labeled antisense RNA probes complementary to GAD67 and GABAA alpha 1 mRNAs. 3. The majority of neurons expressing GAD67 mRNA is located in the proximal inner nuclear layer (INL) and ganglion cell layer (GCL). Occasional GAD67 mRNA-containing neurons are present in the inner plexiform layer. Labeled neurons are not found in the distal INL or in the outer nuclear layer (ONL). 4. GABAA alpha 1 mRNA is expressed by neurons distributed to all regions of the INL. Some discretely labeled cells are present in the GCL. Labeled cells are not observed in the ONL. 5. The distribution of GAD67 mRNA demonstrates that numerous amacrine cells (conventional, interstitial, and displaced) and perhaps interplexiform cells synthesize GABA. These cells are likely to employ GABA as a neurotransmitter. 6. The distribution of GABAA alpha 1 mRNA indicates that bipolar, amacrine, and perhaps ganglion cells express GABAA receptors having an alpha 1 polypeptide subunit, suggesting that GABA acts directly upon these cells.