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Early Retinal Neuronal Dysfunction in Diabetic Mice: Reduced Light-Evoked Inhibition Increases Rod Pathway Signaling.Moore-Dotson, Johnnie M., Beckman, Jamie J., Mazade, Reece E., Hoon, Mrinalini, Bernstein, Adam S., Romero-Aleshire, Melissa J., Brooks, Heddwen L., Eggers, Erika D. 01 March 2016 (has links)
Recent studies suggest that the neural retinal response to light is compromised in diabetes. Electroretinogram studies suggest that the dim light retinal rod pathway is especially susceptible to diabetic damage. The purpose of this study was to determine whether diabetes alters rod pathway signaling.
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G Protein Coupling and Regulation of Metabotropic Glutamate Receptor 6Tian, Liantian 20 April 2010 (has links)
No description available.
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Nonlinearities in bipolar cells and their role for encoding visual signalsSchreyer, Helene Marianne 08 May 2018 (has links)
No description available.
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The role of Vsxl in the development of cone bipolar cells in mouse retinaShi, Zhiwei 03 November 2011 (has links)
Visual system homeobox 1 (Vsx1) is a paired-like:CVC homeodomain
transcription factor that is expressed in a subset of retinal bipolar cells. Vsx1-null mice
have previously been shown to have defects in bipolar cell terminal differentiation
characterized by the reduced expression of four OFF bipolar cell-specific markers and
electrophysiological defects in the OFF visual signaling pathway. The availability of
recently identified bipolar cell markers enables a further characterization of the Vsx1-null
mutant. I determined that Vsx1 is expressed in Type 7 ON bipolar cells and observed the
upregulation of three cell markers: Cabp5, Chx10, and alpha-gustducin:GFP in this cell
type in Vsx1-null mice. These data reveal a trend in which Vsx1 functions as a
transcriptional repressor in Type 7 ON bipolar cells and as an activator in Type 2 OFF
bipolar cells. Lastly, my data indicate that Vsx1 is required for the expression of two
Type 3a bipolar cell markers, however, the mechanism by which it does so appears to be
complex, as I was unable to detect Vsx1 protein or reporter gene expression in this cell
type. / Graduate
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Mechanisms of Müller and bipolar cell swelling in the healthy and pathologically altered retina / Mechanismen der Müller- und Bipolarzellschwellung in der normalen und pathologisch veränderten NetzhautVogler, Stefanie 07 January 2016 (has links) (PDF)
The topic of the thesis is the mechanisms of cellular volume regulation in the rat retina. Müller cells as main macroglial cells of the retina are supposed to play important roles in the regulation of the retinal ion- and osmohomeostasis and, thus, in the regulation of the extracellular space volume. In the first part of the thesis, signaling pathways were determined which are involved in the regulation of the volume of Müller glial cells and bipolar cells, the main second-order cells of the retina, in the healthy rat retina. The topic of the second part of the thesis is the evaluation of gliotic alterations of Müller cells in a transgenic rat model of retinal degeneration (CMV-PKD21/703 HA rats), in order to obtain indications for a pathogenic role of reactive glial cells in the development of retinal degeneration and edema. Various methods were used including immunohistochemical stainings, real-time RT-PCR, patch-clamp recordings, and cell swelling experiments. The data suggest that both neurons and reactive Müller cells may contribute to formation of retinal edema. In contrast to Müller cells, bipolar cells are apparently not capable to regulate the extracellular space volume in the healthy retina. However, reactive Müller cells are impaired in their capability to regulate retinal water and ion homeostasis. Impaired regulation of the extracellular space volume may result in neuronal hyperexcitation and degeneration.
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The mechanism underlying bipolar cell subtype specificationRuiz de Chavez Ginzo, Alberto 07 September 2022 (has links)
The mammalian central nervous system (CNS) has a high degree of complexity and cell type diversity that enables sophisticated processing of sensory information, circuit formation, and behaviour. While much is known about the patterning and specification of the major neuronal classes in the CNS, through processes such as morphogen gradient signaling and transcription factor combinatorial coding, much less is known about how subtypes within each cell class are specified. Bipolar cells are one of the main classes of interneurons in the vertebrate retina and consist of fifteen different subtypes based on their physiological function, morphology, and unique gene expression. The cellular mechanisms behind the specification of these subtypes are not fully known. In this thesis, I examine these mechanisms by investigating the role of extrinsic and intrinsic factors on the specification and differentiation of bipolar cell subtypes. We hypothesize that the specification of bipolar cell subtypes occurs in a multi-step manner and is dependent on non-cell autonomous (extrinsic) signals. To test this hypothesis, I conducted a series of experiments on the early postnatal mouse retina, which is the period when bipolar cells are generated. First, I examined whether bipolar cell marker onset was temporally ordered as would be predicted in a multi-step model. Postnatal day 3 (P3) mice were injected with EdU (5-ethynyl-2’-deoxyuridine), a thymidine analog that labels proliferating cells and then dissociated and fixed the retinal cells 24-120 hours after injection. My results show that Vsx2-5.3-PRE-Cre, a marker of pan-bipolar cells specification, is first detected 36 hrs after cell cycle exit, whereas specialized bipolar subtype-specific markers are expressed 48-60 hrs post-EdU injection. This observation is consistent with the idea that bipolar cells develop in a stepwise manner, first as an unspecified, pan-bipolar cell intermediate and then into one of the 15 subtypes. To further investigate this possibility, I developed a novel dissociated retinal culture assay that enabled me to accurately track retinal progenitor cells and postmitotic precursor cells and determine the requirement of cell autonomous and non-cell autonomous mechanisms during bipolar cell subtype specification. This assay involves culturing dissociated retinal cells from P3 EdU-injected mice at high density (abundant cell contact) or low density (scarce cell contact) at various timepoints, thereby allowing me to probe the role of these mechanisms in RPCs, early postmitotic cells, and late postmitotic cells. My findings revealed the first 24-48 hrs post cell cycle exit to be a critical, cell contact-dependent period for the specification of bipolar cell subtypes. This assay also allowed us to test the effect of blocking or activating the Notch and the Sonic Hedgehog (Shh) signal transduction pathways by using pharmacological compounds and recombinant ligands. Co-activation of Notch and Shh pathways increased the specification of Vsx1+ subtypes suggesting they play a role in their specification. Altogether, our results suggest that bipolar cell subtype specification follows a multi-step model, through an undifferentiated bipolar cell intermediate, and that cell contact plays a role in the specification mechanisms of bipolar cell subtype development. This is a novel finding that provides insight into the mechanisms underlying retinal neuronal subtype development and possibly in other neuronal cell types throughout the CNS. / Graduate / 10000-01-01
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Mechanisms of Müller and bipolar cell swelling in the healthy and pathologically altered retinaVogler, Stefanie 18 September 2015 (has links)
The topic of the thesis is the mechanisms of cellular volume regulation in the rat retina. Müller cells as main macroglial cells of the retina are supposed to play important roles in the regulation of the retinal ion- and osmohomeostasis and, thus, in the regulation of the extracellular space volume. In the first part of the thesis, signaling pathways were determined which are involved in the regulation of the volume of Müller glial cells and bipolar cells, the main second-order cells of the retina, in the healthy rat retina. The topic of the second part of the thesis is the evaluation of gliotic alterations of Müller cells in a transgenic rat model of retinal degeneration (CMV-PKD21/703 HA rats), in order to obtain indications for a pathogenic role of reactive glial cells in the development of retinal degeneration and edema. Various methods were used including immunohistochemical stainings, real-time RT-PCR, patch-clamp recordings, and cell swelling experiments. The data suggest that both neurons and reactive Müller cells may contribute to formation of retinal edema. In contrast to Müller cells, bipolar cells are apparently not capable to regulate the extracellular space volume in the healthy retina. However, reactive Müller cells are impaired in their capability to regulate retinal water and ion homeostasis. Impaired regulation of the extracellular space volume may result in neuronal hyperexcitation and degeneration.
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Notch-Signaling in Retinal Regeneration and Müller glial PlasticityGhai, Kanika January 2009 (has links)
No description available.
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Análise de células bipolares PKCa-IR e células ganglionares da retina do peixe tropical Hoplias malabaricus intoxicado com baixas doses agudas de metilmercúrioLiber, André Maurício Passos 03 August 2011 (has links)
O presente trabalho tem por objetivo analisar o efeito do metilmercúrio na retina de peixe tropical Hoplias malabaricus (Traíra) através de baixas doses agudas. As intoxicações foram realizadas, por meio de injeção intraperitoneal, nas doses de 0,01, 0,05, 0,1 e 1,0 g/g, com um período de quinze dias de depuração do MeHg. Após o término do período de depuração, os olhos foram enucleados e as retinas isoladas foram fixadas em PFA 4% por 3 horas. As retinas foram conservadas, até o momento do uso (ou por no mínimo 9 horas), em tampão PB 0,1M a 4ºC. Após os procedimentos imunohistoquímicos para marcação de células bipolares do tipo ON com estratificação na sublâmina b da CPI, as retinas foram aplanadas para confecção de montagens planas para a análise quantitativa de células bipolares ON imunorreativas a proteína cinase C _. A análise quantitativa das células da camada de células ganglionares (CCG) também foi realizada. Células da CCG foram coradas pela técnica de Nissl, as retinas foram aplanadas em lâminas gelatinizadas e submetidas a uma bateria de desidratação (com diferentes concentrações alcoólicas) e coloração, utilizando cresil violeta como corante. Estas análises foram realizadas em 3 ou 4 retinas para cada dose testada. Análises idênticas foram realizadas nas retinas controle. Todas as retinas foram dividas nos quadrantes dorsal, ventral, nasal, temporal e em centro e periferia. Campos foram fotografados por toda a retina com intervalos de 1 mm, com auxilio do programa Axio Vision por meio de uma câmera digital e um microscópio acoplados a um computador. Os campos amostrados foram contados com o auxilio do programa NIH Scion Imagem 2.0. A densidade média de células foi estimada para cada retina e os grupos intoxicados foram comparados com o grupo controle (Teste T-student). A partir dos dados de densidade celular, mapas de isodensidade foram confeccionados, além de permitir estimar o poder de resolução teórico da acuidade visual de cada um dos animais experimentais utilizados para análise de células da CCG a partir da densidade máxima de células. Evidenciamos que as baixas doses agudas testadas não causam diminuição na densidade célular de células bipolares ON e células da CCG, comparado ao grupo controle. Não houve reduções significativas na densidade de células para ambos os tipos celulares analizados em nenhuma das regiões retinianas nas doses de MeHg testadas. Assim, a intoxicação de MeHg por baixas doses agudas não alterou o poder de resolução teorio da acuiade visual dos animais testados / This study aims to examine the effects of low acute doses of methylmercury (MeHg) on the retina of the tropical fish Hoplias malabaricus (Thraira). Four levels of MeHg intoxication were induced by intraperitoneal injection of doses of either 0.01, 0.05, 0.1 or 1.0 g MeHg/g of body weight, followed by a fifteen day period of depuration of MeHg. After the depuration period, the eyes were harvested, and the retinas were isolated and fixed in 4% paraformaldehyde for 3 hours. The retinas were then stored (for at least for 9 hours) in 0.1 M sodium phosphate PB buffer at 4°C until the time of analysis. ON bipolar cells in sublamina b of the inner plexiform layer immunoreactive to protein Kinase C_ were immunohistochemically labeled, and the retinas were flattened to make whole mounts for quantitative analysis of ON bipolar cell densities. Quantitative analysis of cells in the retinal ganglion cell layer (GCL) was also performed. GCL cells were Nissl stained, and the retinas were flattened on gelatinized slides and subjected to another battery of dehydration (with different alcohol concentrations) and staining using cresyl violet. These analyses were carried out in 3 or 4 retinas for each dose tested. Identical analyses were performed on the control retinas. All retinas were divided into regions: dorsal, ventral, nasal, temporal, center and periphery. Sample retinal fields were photographed throughout the retina at intervals of 1 mm, with a digital camera attached to a microscope using Axio Vision software coupled to a computer. ON bipolar and GCL cells within the fields were counted with the help of the NIH Scion Image 2.0 software. The average density (mm2) of both types of cells was estimated for each retina and the data from each of the four MeHgintoxicated groups were compared with the control group values (Student t-test). From the density data we derived isodensity maps, permitting us to estimate the theoretical resolving power (maximum visual acuity) of each of the experimental animals used from the maximum density of cells in the ganglion cell layer. We showed that low acute doses of MeHg/g do not decrease cell densities of either ON bipolar cells or cells in the GCL, compared to controls. There were no significant decreases in cell density (counts) for either cell type in any of the retinal regions, for any of the MeHg doses tested. Thus, acute low-dose MeHg intoxication did not degrade the estimates of the animals theoretical resolving power
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Análise de células bipolares PKCa-IR e células ganglionares da retina do peixe tropical Hoplias malabaricus intoxicado com baixas doses agudas de metilmercúrioAndré Maurício Passos Liber 03 August 2011 (has links)
O presente trabalho tem por objetivo analisar o efeito do metilmercúrio na retina de peixe tropical Hoplias malabaricus (Traíra) através de baixas doses agudas. As intoxicações foram realizadas, por meio de injeção intraperitoneal, nas doses de 0,01, 0,05, 0,1 e 1,0 g/g, com um período de quinze dias de depuração do MeHg. Após o término do período de depuração, os olhos foram enucleados e as retinas isoladas foram fixadas em PFA 4% por 3 horas. As retinas foram conservadas, até o momento do uso (ou por no mínimo 9 horas), em tampão PB 0,1M a 4ºC. Após os procedimentos imunohistoquímicos para marcação de células bipolares do tipo ON com estratificação na sublâmina b da CPI, as retinas foram aplanadas para confecção de montagens planas para a análise quantitativa de células bipolares ON imunorreativas a proteína cinase C _. A análise quantitativa das células da camada de células ganglionares (CCG) também foi realizada. Células da CCG foram coradas pela técnica de Nissl, as retinas foram aplanadas em lâminas gelatinizadas e submetidas a uma bateria de desidratação (com diferentes concentrações alcoólicas) e coloração, utilizando cresil violeta como corante. Estas análises foram realizadas em 3 ou 4 retinas para cada dose testada. Análises idênticas foram realizadas nas retinas controle. Todas as retinas foram dividas nos quadrantes dorsal, ventral, nasal, temporal e em centro e periferia. Campos foram fotografados por toda a retina com intervalos de 1 mm, com auxilio do programa Axio Vision por meio de uma câmera digital e um microscópio acoplados a um computador. Os campos amostrados foram contados com o auxilio do programa NIH Scion Imagem 2.0. A densidade média de células foi estimada para cada retina e os grupos intoxicados foram comparados com o grupo controle (Teste T-student). A partir dos dados de densidade celular, mapas de isodensidade foram confeccionados, além de permitir estimar o poder de resolução teórico da acuidade visual de cada um dos animais experimentais utilizados para análise de células da CCG a partir da densidade máxima de células. Evidenciamos que as baixas doses agudas testadas não causam diminuição na densidade célular de células bipolares ON e células da CCG, comparado ao grupo controle. Não houve reduções significativas na densidade de células para ambos os tipos celulares analizados em nenhuma das regiões retinianas nas doses de MeHg testadas. Assim, a intoxicação de MeHg por baixas doses agudas não alterou o poder de resolução teorio da acuiade visual dos animais testados / This study aims to examine the effects of low acute doses of methylmercury (MeHg) on the retina of the tropical fish Hoplias malabaricus (Thraira). Four levels of MeHg intoxication were induced by intraperitoneal injection of doses of either 0.01, 0.05, 0.1 or 1.0 g MeHg/g of body weight, followed by a fifteen day period of depuration of MeHg. After the depuration period, the eyes were harvested, and the retinas were isolated and fixed in 4% paraformaldehyde for 3 hours. The retinas were then stored (for at least for 9 hours) in 0.1 M sodium phosphate PB buffer at 4°C until the time of analysis. ON bipolar cells in sublamina b of the inner plexiform layer immunoreactive to protein Kinase C_ were immunohistochemically labeled, and the retinas were flattened to make whole mounts for quantitative analysis of ON bipolar cell densities. Quantitative analysis of cells in the retinal ganglion cell layer (GCL) was also performed. GCL cells were Nissl stained, and the retinas were flattened on gelatinized slides and subjected to another battery of dehydration (with different alcohol concentrations) and staining using cresyl violet. These analyses were carried out in 3 or 4 retinas for each dose tested. Identical analyses were performed on the control retinas. All retinas were divided into regions: dorsal, ventral, nasal, temporal, center and periphery. Sample retinal fields were photographed throughout the retina at intervals of 1 mm, with a digital camera attached to a microscope using Axio Vision software coupled to a computer. ON bipolar and GCL cells within the fields were counted with the help of the NIH Scion Image 2.0 software. The average density (mm2) of both types of cells was estimated for each retina and the data from each of the four MeHgintoxicated groups were compared with the control group values (Student t-test). From the density data we derived isodensity maps, permitting us to estimate the theoretical resolving power (maximum visual acuity) of each of the experimental animals used from the maximum density of cells in the ganglion cell layer. We showed that low acute doses of MeHg/g do not decrease cell densities of either ON bipolar cells or cells in the GCL, compared to controls. There were no significant decreases in cell density (counts) for either cell type in any of the retinal regions, for any of the MeHg doses tested. Thus, acute low-dose MeHg intoxication did not degrade the estimates of the animals theoretical resolving power
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