Project description:This is a combined SWATH database of early myopic guinea pig retina. The retinal tissues were divided into lens induced myopia 4 days group (4-day LIM) and control group; 5 individual animals (10 retinas) were included. The potential biomarkers and underlying biochemical pathways during early myopia could be investigated using SWATH based proteomics approach.

Project description:One-day old white Leghorn chicks were housed in brooders with a 12 hr light:dark cycle, using General Electric chroma 50 fluorescent lighting with irradiance of approximately 50μW/cm2 at chick eye level. They received Purina Chick Chow food and water ad libitum. At one week of age and at the onset of the light phase, the chicks were anesthetized with inhalation ether, and a unilateral translucent white plastic goggle was glued to the periorbital feathers to induce ipsilateral form-deprivation myopia, alternating between the left or right eye. After either 6 hrs (n=8) or 3 days (n=8) of goggle wear, the chicks were killed by decapitation. The enucleated eyes were opened at the equator, and the retina/RPE was dissected together from both the goggled and control eyes. The tissues were individually frozen and stored in liquid nitrogen until processed Experiment Overall Design: Six biological replicates used for each: 3 day control retina, 3 day experimental, 6 hour control retina, and 6 hour experimental.

Project description:In this study that was specifically designed to identify early stages of glaucoma in DBA/2J mice, we used genome-wide expression profiling and a series of computational methods. Our methods successfully subdivided eyes with no detectable glaucoma by conventional assays into molecularly defined stages of disease. These stages represent a temporally ordered sequence of glaucoma states. Using an array of tools, we then determined networks and biological processes that are altered at these early stages. Our strategy proved very sensitive, suggesting that similar approaches will be valuable for uncovering early processes in other complex, later-onset diseases. Early changes included upregulation of both the complement cascade and endothelin system, and so we tested the therapeutic value of separately inhibiting them. Mice with a mutation in the complement component 1a gene (C1qa) were robustly protected from glaucoma with the protection being among the greatest reported. Similarly, inhibition of the endothelin system was strongly protective. Since EDN2 is potently vasoconstrictive and was produced by microglial/macrophages, our data provide a novel link between these cell types and vascular dysfunction in glaucoma. Targeting early events such as the upregulation of the complement and endothelin pathways may provide effective new treatments for human glaucoma. Genome-wide assessment of gene expression changes was performed in DBA/2J mice. The optic nerve head and retina from 40 DBA/2J eyes at 10.5 months of age were separately profiled. These eyes were selected as they encompassed a range of glaucoma severity. Two control groups were also included; 10 eyes from 10.5 months old D2-Gpnmb+ mice (age and strain matched, no glaucoma control) and 10 eyes from 4.5 months old DBA/2J mice (young, pre-glaucoma).

Project description:We investigated the retinal transcriptional response to visual stimulation using phosphorylated ribosomal protein S6 immunoprecipitation (pS6-IP), a method to enrich RNA expressed in activated cells. Mice were exposed to moving, high-contrast vertical gratings for twelve hours per day over a period of two weeks. At the same time, control mice were placed in an environment with stationary white walls. At the end of the experiment, the neural retina was dissected and homogenized, followed by pS6-IP, extraction of immunoprecipitated RNA, and RNA-seq.

Project description:To comprehensively profile cell types in the human retina, we performed single cell RNA-sequencing on 20,009 cells obtained post-mortem from three donors and compiled a reference transcriptome atlas. Using unsupervised clustering analysis, we identified 18 transcriptionally distinct clusters representing all known retinal cells: rod photoreceptors, cone photoreceptors, Müller glia cells, bipolar cells, amacrine cells, retinal ganglion cells, horizontal cells, retinal astrocytes and microglia.

Project description:Vasoregression is a hallmark of vascular eye diseases but the mechanisms involved are still largely unknown. We have recently characterized a rat ciliopathy model which develops primary photoreceptor degeneration and secondary vasoregression. To improve the understanding of secondary vasoregression in retinal neurodegeneration, we used microarray techniques to compare gene expression profiles in this new model before and after retinal vasoregression. Differential gene expression was validated by quantitative RT-PCR, Western blot and immunofluorescence. Of the 374 genes regulated more than twofold, the MHC class II invariant chain CD74 yielded the strongest upregulation, and was allocated to activated microglial cells close to the vessels undergoing vasoregression. Pathway clustering identified genes of the immune system, inflammatory signaling, and components of the complement cascade upregulated during vasoregression. Furthermore, macroglial cells were markedly activated. Together, our data suggest that glial cells involved in retinal immune response participate in the initiation of vasoregression in the retina. we used microarray techniques to define gene expression profiles related to vasoregression in a rat ciliopathy model. PKD-2-247 rats (TGR) and male Sprague-Dawley (SD) rats at 1 and 3 months of age were used for the analysis. SD rats served as control in this study. Three individual rat retinae (n=3) in each group were analysed.

Project description:The retina is a delicate tissue that detects light, converts photochemical energy into neural signals, and transmits the signals to the visual cortex of the brain. A detailed protein inventory of the proteome of the normal human eye may provide a foundation for new investigations into both the physiology of the retina and the pathophysiology of retinal diseases. To provide an inventory, proteins were extracted from five retinas of normal eyes and fractionated using SDS-PAGE. After in-gel digestion, peptides were analyzed in duplicate using LC-MS/MS on an Orbitrap Elite mass spectrometer. A total of 3,436 non-redundant proteins were identified in the human retina, including 20 unambiguous protein isoforms, of which 8 have not previously been demonstrated to exist at the protein level. The proteins identified in the retina included most of the enzymes involved in the visual cycle and retinoid metabolism. One hundred and fifty-eight proteins that have been associated with age-related macular degeneration were identified in the retina. The MS proteome database of the human retina may serve as a valuable resource for future investigations of retinal biology and disease.

Project description:Myopia (short-sightedness) affects approximately 1.4 billion people worldwide, many of whom will become blind from secondary ophthalmic conditions. The pathophysiology of myopia has been investigated by rearing young animals with monocular negative lenses or occluders that stimulate excessive ocular growth. Although a wide range of gene and protein expression changes have been identified in these myopia models, how these expression responses vary across different ocular growth conditions (including normal ocular development and hyperopia induced by positive lenses) remains poorly understood. Accordingly, this study has examined the trajectory of protein pathway expression shifts during normal development, and lens-induced myopia and hyperopia, in the widely used chick model.

Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the long-term (postnatal day 60 young adult) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis. We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 60 that occur due to ethanol treatment at postnatal days 4 and 7 (synaptogenesis). To generate samples, C57BL/6J pups were injected with ethanol (experimental) or saline (control) at postnatal days 4 and 7. Pups were weaned at postnatal day 25 and sacrificed at postnatal day 60. Total RNA was extracted from whole brain tissue and RNA from three male mice from three different litters were pooled as one biological replicate. Each male ethanol-treated mouse represented in a sample was matched by a control littermate present in a control sample. This study consists of two biological replicates for each experimental group (total mice used was n=12).

Project description:Bmp4 was conditionally deleted from the mouse optic vesicle with Rx-Cre. The heads of wild type and knockout E10.5 mouse embryos were laser micodissected to isolate the lens ectoderm and prospective retina from three embryos of each genotype. Total RNA was purified and reverse transcribed and amplified using a NuGEN Ovation Pico WTA system V2 kit. cDNA was biotinylated and hybridized to Illumina Mouse6 V2 bead arrays. Three wild type and three knockout embryos were used. RNA obtained from the lens ectoderm or prospective retina (distal optic vesicle) was pooled, amplified and used for microarray analysis. Statistical analysis was performed using the values from the 25-50 beads on each array.