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

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.

diabetes

GABA

bipolar cells

inhibition

amacrine cells

Neural circuitry of retinal receptive fields in primate /

Davenport, Christopher M.

January 2007

Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 91-101).

THE ROLE OF AP-2α AND AP-2β IN HORIZONTAL CELL DEVELOPMENT AND AMACRINE CELL PATTERNING

Zaveri, Mizna

11 1900

Previous studies from our lab have shown that the Activating Protein- 2 (AP-2) transcription factors, AP-2α and AP-2β, are important in retinal development. It was discovered that these are co-expressed in developing horizontal cells and postmitotic amacrine cells. To understand their role in retinogenesis, and the impact of their deletion on the adult retina, a double mutant mouse model was created, AP-2αKI/flox/AP-2β-/flox. The neural retina of the AP-2αKI/flox/AP-2β-/flox mice was examined in the current study using histological, immunofluorescent and electron microscopy (EM) techniques at embryonic, post-natal and adult stages. These double mutants displayed a variety of abnormalities in the inner retina. Loss of AP-2α and AP-2β at E10.5 led to a complete absence of developing and mature horizontal cells. This loss was associated with changes in the outer plexiform layer, which diminished from two to four months of age. There were also defects with photoreceptor ribbons in which triad synapses failed to form, and instead led to rudimentary, spherical-shaped ribbons. There was also significant retraction of photoreceptor axons. Furthermore, this study was able to infer a role of AP-2α and AP-2β as acting upstream of the Onecut-1 protein, which targets Lim1 and Prox1 to direct horizontal cell genesis. Examining amacrine cells of the double mutants shows evidence that AP-2α and AP-2β are involved in the mosaic arrangement pattern of amacrine cell bodies and axons. Previous work on embryonic double mutants displayed clustering of amacrine cells. This study observed abnormalities in the dendrites of the inner plexiform layer, which consists of amacrine cell processes. Taken together, the work presented in this thesis implicates the redundant requirement of both AP-2α and AP-2β in development of horizontal cells and patterning of amacrine cells in the neural retina. / Thesis / Master of Health Sciences (MSc)

AP-2

vision

development

horizontal cells

retina

amacrine cells

Retinal degeneration in and in vivo electroretinography measurements of Smoky Joe Chickens

Tran, Thanh Tan

January 2012

Inherited retinal degenerative diseases can affect various components of the retina leading to blindness. Five different mutant strains of chicken have been studied extensively as potential models for inherited retinal degeneration. The Smoky Joe (SJ) chicken is a sixth genetically blind strain of White Leghorns that shows various degrees of blindness at hatch and by 8 weeks post-hatch, have complete blindness for those that are homozygous. The objective of this study was to characterize the retinal degeneration in these birds by histology, both during embryonic and post-hatch development, and to the retinal function using electroretinograms (ERG). For both embryonic and post-hatch development, a significantly lower number of cells were found in the retina of blind birds compared to sighted (both p<0.0001). The significant contributor to cell number decrease was the loss of amacrine cells located in the inner nuclear layer. Photoreceptors were also found to potentially decrease in number, but at a later stage. ERG recordings revealed decreases in amplitudes of b-waves and oscillatory potentials in blind birds, but not in sighted. Both histology and ERG findings support the idea that the inner retinal cells are affected. The results indicate that degeneration in the Smoky Joe retina occurs mostly within the inner nuclear layer affecting amacrine cells. This hampers the functional capacity of the retina, causing blindness.

retinal degeneration

chick

electroretinogram

amacrine cells

photoreceptor cells

Vision Science and Biology

Retinal degeneration in and in vivo electroretinography measurements of Smoky Joe Chickens

Tran, Thanh Tan

January 2012

Inherited retinal degenerative diseases can affect various components of the retina leading to blindness. Five different mutant strains of chicken have been studied extensively as potential models for inherited retinal degeneration. The Smoky Joe (SJ) chicken is a sixth genetically blind strain of White Leghorns that shows various degrees of blindness at hatch and by 8 weeks post-hatch, have complete blindness for those that are homozygous. The objective of this study was to characterize the retinal degeneration in these birds by histology, both during embryonic and post-hatch development, and to the retinal function using electroretinograms (ERG). For both embryonic and post-hatch development, a significantly lower number of cells were found in the retina of blind birds compared to sighted (both p<0.0001). The significant contributor to cell number decrease was the loss of amacrine cells located in the inner nuclear layer. Photoreceptors were also found to potentially decrease in number, but at a later stage. ERG recordings revealed decreases in amplitudes of b-waves and oscillatory potentials in blind birds, but not in sighted. Both histology and ERG findings support the idea that the inner retinal cells are affected. The results indicate that degeneration in the Smoky Joe retina occurs mostly within the inner nuclear layer affecting amacrine cells. This hampers the functional capacity of the retina, causing blindness.

retinal degeneration

chick

electroretinogram

amacrine cells

photoreceptor cells

Vision Science and Biology

Effect of Neurturin Deficiency on Cholinergic and Catecholaminergic Innervation of the Murine Eye

Hoover, Jeffrey L., Bond, Cherie E., Hoover, Donald B., Defoe, Dennis M.

01 January 2014

Neurturin (NRTN) is a neurotrophic factor required for the development of many parasympathetic neurons and normal cholinergic innervation of the heart, lacrimal glands and numerous other tissues. Previous studies with transgenic mouse models showed that NRTN is also essential for normal development and function of the retina (J. Neurosci. 28:4123-4135, 2008). NRTN knockout (KO) mice exhibit a marked thinning of the outer plexiform layer (OPL) of the retina, with reduced abundance of horizontal cell dendrites and axons, and aberrant projections of horizontal cells and bipolar cells into the outer nuclear layer. The effects of NRTN deletion on specific neurotransmitter systems in the retina and on cholinergic innervation of the iris are unknown. To begin addressing this deficiency, we used immunohistochemical methods to study cholinergic and noradrenergic innervation of the iris and the presence and localization of cholinergic and dopaminergic neurons and nerve fibers in eyes from adult male wild-type (WT) and NRTN KO mice (age 4-6 months). Mice were euthanized, and eyes were removed and fixed in cold neutral buffered formalin or 4% paraformaldehyde. Formalin-fixed eyes were embedded in paraffin, and 5μm cross-sections were collected. Representative sections were stained with hematoxylin and eosin or processed for fluorescence immunohistochemistry after treatment for antigen retrieval. Whole mount preparations were dissected from paraformaldehyde fixed eyes and used for immunohistochemistry. Cholinergic and catecholaminergic nerve fibers were labeled with primary antibodies to the vesicular acetylcholine transporter (VAChT) and tyrosine hydroxylase (TH), respectively. Cholinergic and dopaminergic cell bodies were labeled with antibodies to choline acetyltransferase (ChAT) and TH, respectively. Cholinergic innervation of the mouse iris was restricted to the sphincter region, and noradrenergic fibers occurred throughout the iris and in the ciliary processes. This pattern was unaffected by deletion of NRTN. Furthermore, functional experiments demonstrated that cholinergic regulation of the pupil diameter was retained in NRTN KO mice. Hematoxylin and eosin stains of the retina confirmed a marked thinning of the OPL in KO mice. VAChT and ChAT staining of the retina revealed two bands of cholinergic processes in the inner plexiform layer, and these were unaffected by NRTN deletion. Likewise, NRTN deletion did not affect the abundance of ChAT-positive ganglion and amacrine cells. In marked contrast, staining for TH showed an increased abundance of dopaminergic processes in the OPL of retina from KO mice. Staining of retinal whole mounts for TH showed no difference in the abundance of dopaminergic amacrine cells between WT and KO mice. These findings demonstrate that the neurotrophic factor NRTN is not required for the development or maintenance of cholinergic innervation of the iris, cholinergic control of pupil diameter, or for development of cholinergic and dopaminergic amacrine cells of the retina. However, NRTN deficiency causes a marked reduction in the size of the OPL and aberrant growth of dopaminergic processes into this region.

amacrine cells

ciliary body

dopamine

iris

neurturin

parasympathetic

retina

sympathetic

Biomedical Sciences

Cellular alterations of the human retina in Parkinson’s disease and their use as early biomarkers

Ortuño-Lizarán, Isabel

19 July 2019

En la presente Tesis Doctoral se describen los cambios celulares que ocurren en la retina en la enfermedad de Parkinson y su posible uso como biomarcadores tempranos de la enfermedad. Los pacientes con enfermedad de Parkinson poseen acumulaciones de alfa sinucleína fosforilada en la retina similares a las que se encuentran en el cerebro de los mismos pacientes. De hecho, la cantidad de alfa-sinucleína fosforilada en la retina correlaciona con la cantidad de alfa-sinucleína fosforilada en el cerebro, con el estadio de progresión de la enfermedad y con la severidad de los síntomas motores. Además, en la retina de enfermos de párkinson se describe una degeneración de las células ganglionares melanopsínicas de la retina, lo que podría explicar las alteraciones en los ritmos circadianos y los desórdenes del sueño que aparecen en pacientes. Finalmente, también se muestra la degeneración de las células amacrinas dopaminérgicas, que se reducen en un 45%. Este fallo en el sistema dopaminérgico de la retina provoca alteraciones morfológicas en las células amacrinas AII, sus principales postsinápticas, y podría explicar algunas alteraciones visuales descritas en la enfermedad como la disminución de la sensibilidad al contraste o de la agudeza visual. En global, los resultados muestran que la retina reproduce los procesos degenerativos que ocurren en el cerebro en la enfermedad de Parkinson y, por tanto, que es un tejido idóneo para el estudio de la enfermedad. Además, el estudio de la retina aporta información sobre el estadio de la enfermedad y puede ser empleado como un biomarcador temprano que ayude al diagnóstico y seguimiento de la misma.

Retina

Parkinson’s disease

Human

Alpha-synuclein

Melanopsin retinal ganglion cells

Dopaminergic amacrine cells

Biología Celular

Defining immunophenotypic signatures of stem cells

Sukhdeo, Kumar

23 August 2013

No description available.

Biology

Biomedical Research

Cellular Biology

Pathology

Lgr5, stem cells

cancer stem cells

colon cancer

retina, amacrine cells

liver

progenitor cells

The role of bHLH gene ash1 in the developing chick eye

Mao, Weiming.

January 2008

Thesis (Ph.D.)--University of Alabama at Birmingham, 2008. / Title from PDF title page (viewed on Sept. 17, 2009). Includes bibliographical references.