Análise de células bipolares PKCa-IR e células ganglionares da retina do peixe tropical Hoplias malabaricus intoxicado com baixas doses agudas de metilmercúrio

Liber, André Maurício Passos

03 August 2011

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

Acuidade visual

Células bipolares da retina

Células ganglionares da retina

Compostos de metilmercúrio

Fishes

Methylmercury compounds

Peixes

Retina

Retina

Retinal bipolar cells

Retinal ganglion cells

Visual acuity

In vivo imaging of retinal ganglion cells and microglia. / CUHK electronic theses & dissertations collection

January 2010

A confocal scanning laser ophthalmoscope (CSLO) was used to image the axonal and dendritic aborizations of RGCs in the Thy-1 YFP mice. With quantitative analysis of cell body area, axon diameter, dendritic field, number of terminal branches, total dendritic branch length, branching complexity, symmetry and distance from the optic disc, the morphologies of RGCs and the patterns of axonal and dendritic degeneration were analyzed. After optic nerve crush, RGC damage was observed prospectively to begin with progressive dendritic shrinkage, followed by loss of the axon and the cell body. Similar pattern of RGC degeneration was observed after 90 minutes of retinal ischemia although no morphological changes were detected when the duration of ischemia was shortened to 30 minutes. The rate of dendritic shrinkage was variable and estimated on average 2.0% per day and 11.7% per day with linear mixed modeling, after optic nerve crush and retinal ischemic injury, respectively. RGCs with a larger dendritic field had a slower rate of dendritic shrinkage. / In summary, we demonstrated that dendritic shrinkage could be evident even before axonal degeneration after optic nerve crush and retinal ischemic injury. We have established a methodology for in vivo and direct visualization of RGCs and retinal microglia, which could provide reliable and early markers for neuronal damage. Measuring the rate of dendritic shrinkage and tracking the longitudinal activation of microglia would provide new paradigms to study the mechanism of neurodegenerative diseases and offer new insights in testing novel therapies for neuroprotection. / Progressive neuronal cell death and microglial activation are the key pathological features in most neurodegenerative diseases. While investigating the longitudinal profiles of neuronal degeneration and microglial activation is pertinent to understanding disease mechanism and developing treatment, analyzing progressive changes has been obfuscated by the lack of a non-invasive approach that allows long term, serial monitoring of individual neuronal and microglial cells. Because of the clear optical media in the eye, direct visualization of the retinal ganglion cells (RGCs) and microglia is possible with high resolution in vivo imaging technique. In this study, we developed experimental models to visualize and characterize the cellular morphology of RGCs and retinal microglia in vivo in the Thy-1 YFP and the CX3CR1 +/GFP transgenic mice, described the patterns of axonal and dendritic shrinkage of RGCs, discerned the dynamic profile of microglial activation and investigated the relationship between RGC survival and microglial activation after optic nerve crush and retinal ischemic injury induced by acute elevation of intraocular pressure. / The longitudinal profile of microglial activation was investigated by imaging the CX3CR1GFP/+ transgenic mice with the CSLO. Activation of retinal microglia was characterized with an increase in cell number reaching a peak at a week after optic nerve crush and retinal ischemic injury, which was followed by a gradual decline falling near to the baseline at the 4 th week. The activation of retinal microglia was proportional to the severity of injury. The number of RGCs survival at 4 weeks post-injury was significantly associated with the number of activated retinal microglia. / Li, Zhiwei. / Adviser: Leung Kai Shun. / Source: Dissertation Abstracts International, Volume: 73-02, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 50-66). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.

Mice as laboratory animals

Microglia

Nervous system--Degeneration

Ophthalmoscopes

Retinal ganglion cells

Disease Models, Animal

Mice

Microglia--pathology

Neurodegenerative Diseases--pathology

Ophthalmoscopes--utilization

Retinal Ganglion Cells--pathology

Investigations of factors that control retinal axon growth during mouse optic pathway development. / CUHK electronic theses & dissertations collection

January 2010

Chiasm cells, which include glia and neurons, are generated early before any retinal axon arrives at the midline of the mouse ventral diencephalon. These cells have been shown to affect retinal axon growth and patterning in the optic chiasm. In this study, we used EdU (5-ethyny1-2'-deoxyuridine) for birthdating these chiasm cells, aiming to find out when these cells are generated; then we tried to trace their fates at later stages of development. EdU injection at embryonic day (E) 9.5 to El 1 labeled a number of chiasmatic neurons and radial glial cells at E13, which were immunoreactive for SSEA-1 and RC2, respectively. After colocalization studies, we found that most of these neurons were born as early as E9.5, while a large number of radial glial cells were born as from El 1. Both E9.5-born chiasmatic neurons and Ell-born radial glia decreased by E14-E16; the radial glia even disappeared finally from the midline. Furthermore, we found that some chiasmatic neurons underwent apoptotic cell death as from El 4, and that the radial glia likely differentiated into other cell types after finishing their retinal axon guidance mission at the midline. So it is reasonable that some of the earliest born chiasm cells disappear during development. / During development, retinal ganglion cell axons grow from the eye to the ventral diencephalon, where axons from the two eyes converge and segregate into crossed and uncrossed projections, forming the optic chiasm. This pattern is critical for binocular vision. Although significant progress has been obtained over the past decades, how retinal axon growth and guidance are regulated at the chiasm is largely unknown. Our research will focus on those problems. / In the last part of this thesis, we investigated the retinal axon pathway in the ventral diencephalon of the Sox10Dom mutant embryos and gamma-crystallin mutant embryos. Our findings indicate that Sox10 may not contribute to axon guidance in the developing optic pathway whereas gammaA-crystallin may only play a role in the later uncrossed axons. / N-methyl-D-aspartate (NMDA) receptor is one of the ionotropic glutamate receptors, which are important in synaptic plasticity, apart from implications in dendritic spine remodeling, neurite outgrowth, elongation and branching and glutamate neurotoxicity. There are several subtypes of NMDA receptor channel subunits, NR1, NR2A-D, NR3A&B. The functional diversity of NMDA receptor resides in the different assembly of subunits. In this study, we used RT-PCR to analyze the mRNA expression of all the NMDA receptor subunits in mouse embryos. After that we chose the NR1, NR2B and NR3A antibodies to investigate NMDA receptor subunit expression in the optic pathway during mouse optic pathway development. Using immunohistochemistry, we found that NR1, NR2B and NR3A were expressed in the mouse retina and optic pathway as from E13 when the optic chiasm is forming. Expression of the NMDA receptor subunits were found in the inner cell layers and along retinal axons. Colocalization studies showed that NR1, NR2B and NR3A were localized on the ganglion cells and their axons. In the ventral diencephalon, these subunits were expressed extensively, but NR1 and NR3A were particularly strong along the optic nerve and optic tract. Furthermore, to identify the function of NMDA receptor during optic chiasm development, we cultured E14 retinal explants on laminin and poly-D-ornithine in the presence of the NMDA receptor antagonists MK-801 or Dextrorphan-D-tartrate. These two antagonists can significantly inhibit the retinal axon outgrowth, suggesting that the NMDA receptor promotes retinal axon outgrowth in the retinofugal pathway during optic chiasm development. / Li, Jia. / Adviser: Chan Sun On. / Source: Dissertation Abstracts International, Volume: 73-02, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 145-158). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.

Axons--Physiology

Mice as laboratory animals

Optic chiasm

Retinal ganglion cells

Axons--physiology

Disease Models, Animal

Mice

Optic Chiasm--growth & development

Retinal Ganglion Cells

Cultured whole-mount retinal explant as a model to study the sprouting of retinal ganglion cells.

January 1997

by Wai-Chi Kong. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1997. / Includes bibliographical references (leaves 83-92). / Acknowledgements --- p.i / Abstract --- p.ii / Abbreviations Frequently Used --- p.v / Chapter Chapter1 --- General Introduction --- p.1 / Chapter Chapter2 --- Long term culture of whole-mount retinal explant --- p.16 / Chapter Chapter3 --- Responses of retinal ganglion cells after peripheral nerve transplantation in vivo and in vitro --- p.46 / Chapter Chapter4 --- Effect of optic nerve or peripheral nerve explants on cultured whole-mount retinal explants --- p.62 / Chapter Chapter5 --- General Discussion --- p.78 / References --- p.83 / Tables --- p.93

Retinal ganglion cells

Retina

Nervous system--Regeneration

Tissue culture

Retinal Ganglion Cells

Retina--Growth & development

Nerve Regeneration

Central Nervous System

Culture Techniques

Optimisation du transfert de gène dans les cellules ganglionnaires rétiniennes de chien et de primate non-humain avec un vecteur AAV2 : implications pour le traitement par une approche d’optogénétique du modèle canin RPE65 / Optimization of gene transfer in retinal ganglion cells of dogs and non-human primates with AAV2 vector : implications for the treatment by an optogenetic approach of Briard RPE65

Tshilenge, Kizito tshitoko

07 October 2016

Les dystrophies rétiniennes héréditaires (DRH) sont un ensemble de pathologies rétiniennes incurable provoquant la cécité. Les DRH sont caractérisées par le dysfonctionnement/dégénérescence des photorécepteurs et le remodelage de la structure de la rétine. Une des approches thérapeutiques envisagées pour traiter les DRH est la thérapie génique spécifique, c’est à dire le remplacement du gène défectueux par un gène sain. Cependant, bien qu’efficace, la thérapie génique spécifique n’est pas toujours applicable, en particulier quand la dégénérescence est trop avancée ou quand le gène muté n’est pas connu. Afin de traiter tous les cas de DRH quelle que soit leur origine génétique et leur stade de progression, une approche de thérapie génique d’addition est envisagée : Le transfert d’optogène. Cela consiste à convertir les cellules encore présentes dans la rétine malgré la dégénérescence, en cellule photosensible suite à l’expression d’un optogène (protéine photosensible). Mon projet de thèse a consisté dans un premier temps à évaluer le transfert de gène avec un vecteur AAV2/2 dans les cellules ganglionnaires rétiniennes de chien et de primate non-humain. Cette première partie a permis d’initier un second projet qui a eu pour objectif d’évaluer l’efficacité du transfert d’optogène (Channelrhodopsin-2) pour la restauration de la fonction visuelle dans un modèle canin de dystrophie rétinienne (le chien Rpe65- /-). / Inherited retinal dystrophies (IRD), a group of incurable retinal pathologies, are associated with visual impairments due to a malfunction and/or degeneration of photoreceptors and/or retinal pigment epithelium (RPE). Significant progress in the field of gene therapy has allowed the development and the characterization of an innovative tool to treat IRD patients: recombinant adeno-associated viral vectors (AAV) that carry and deliver therapeutic nucleic acids. However, due to the heterogenic nature of IRD, gene supplementation will not allow to treat all forms of IRD because: (i) the numbers of mutated genes are unknown according to the state of art; (ii) the dominant forms of IRD in which mutations lead to negative effects are not eligible; (iii) the limit of AAV packaging excludes large-sized mutated genes and (iv) this approach is only applicable when photoreceptors are still alive. To treat all IRD patients, a novel therapeutic approach, independently of the mutated gene and the disease kinetic is suitable: the optogene transfer (light-sensitive protein) to restore photosensitivity in neurodegenerative retina by converting surviving retinal cells into photosensors. The primary goal of my research was to promote and characterize adeno-associated virus type 2-(AAV2) transduction in retinal ganglion cells of dog and non-human primate. A second aim was to investigate the feasibility of AAV2-mediated optogenes transfer in retinal ganglion cells as a therapeutic approach to restore visual function in RPE65 deficient dog, a canine model of IRDs.

Thérapie génique

Dystrophies rétiniennes héréditaires

Vecteur AAV2

Optogénétique

Cellules ganglionnaires rétiniennes

Gene therapy

Inherited retinal dystrophies

AAV2

Retinal ganglion cells

Optogenetic

Retinal associations of diabetes and vascular disease

Jeganathan, V. Swetha

January 2009

Background: Diabetes mellitus and vascular diseases have a significant impact on the eye. / Aim: To determine the prevalence, risk factors, and racial/ethnic differences of major eye conditions, particularly retinal conditions, associated with diabetes and vascular diseases. / Scope: To date, the majority of studies have examined the association of retinal vascular calibre and diabetes in predominantly white Caucasian populations. Further elucidation of ethnic differences in effects of hyperglycaemia on early microvascular disease is relevant, particularly amongst Asians where diabetes is likely to see the largest increase in prevalence over the next decade. We therefore examined these findings from three Asian population-based studies, the Singapore Malay Eye Study (n=3280), Singapore Prospective Cohort Study and Singapore Cardiovascular Cohort Study 2 (n=3748). / Results: The prevalence of diabetic retinopathy in the Singapore Malay Eye Study was 35%, and associated with longer duration of diabetes, poorer glycemic and blood pressure control. More importantly, 9.0% had vision-threatening retinopathy, and retinopathy was found in 6.0% of people without diabetes. Retinal vascular calibre changes were incriminated in diseases such as diabetes and hypertension, independent of traditional cardiovascular risk factors. Wider venular calibre was independently associated with early age-related macular degeneration. We also found a novel association between peripheral artery disease and glaucoma, stronger in persons with diabetes, independent of vascular risk factors, supporting the vascular theory of glaucoma. / Implications: Subtle changes in retina, including retinal vascular calibre may be early markers of widespread microvascular changes in diabetes, resulting from chronic hyperglycaemia and other pathogenic processes. These results will have broad implications for understanding the impact of both microvascular and macrovascular complications of diabetes in the Asia Pacific region and targeting relevant therapeutic interventions.

Novel approaches to study the biomechanics of intact central nervous tissue

Dallacasagrande, Valentina

02 April 2015

In nature, cells are not randomly clustered to form tissues. The tissue is a more complicated system with functions that go beyond what any single cell type could accomplish. While studying single-cell mechanics and dynamics is relevant from an investigative point of view, this approach loses, or fail to gather information about the tissue. The tissue investigated in this study is the neurosensory retina which seeing as extension of the brain is a very convenient model for the central nervous system due to its accessibility. The retina is constantly subjected to different mechanical stresses from development to adulthood. Although the majority of the phenomena where mechanical stresses are involved are well-studied, the mechanics behind them is not well understood. However, knowledge about the ability of the retina to adjust to mechanical stresses is essential, for example, for improving retinal surgery. Establishing a method to mechanically probe the retina is a challenge due to the extremely delicate nature of this multilayered neural tissue and to the short-time survival ex vivo. The organotypic tissue culture is a powerful tool because it allows to maintain with high accuracy the complex multicellular anatomy and the microenvironment of the original tissue. One of the limitations of the organotypic culture techniques has been until recently due to the ability to use only post-natal/juvenile tissues for long-term culture. The importance of using adult tissue is incontestable when the investigation focuses on age-related pathologies such as vitreous shrinkage or macula degeneration. In this work, TiO2 nanotube arrays are presented as the innovative substrate for long-term organotypic culture of adult neural tissue. The retinal whole-mount of adult guinea pig and the brain slices of adult mouse were cultures for 14 days without showing any sign of edema or swelling. Furthermore, in order to study the behavior of the retinal tissue under shear stress new set-ups were designed. For the first time, the behavior of the retinal layers were observed showing that the retina does not act as an homogeneous material in response to an applied stress. The methods developed here can be used for future quantitative studies, to provide an exact knowledge of retinal biomechanics which will help retinal surgeons to optimize their methods.

biomechanics

organotypic tissue culture

retina

titanium dioxide nanotubes

retinal detachment

biomechanics

organotypic tissue culture

retina

titanium dioxide nanotubes

retinal detachment

ddc:530

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.

Magnetic Resonance Imaging of the Rat Retina: a Dissertation

Bhagavatheeshwaran, Govind

04 March 2008

The retina is a thin layer of tissue lining the back of the eye and is primarily responsible for sight in vertebrates. The neural retina has a distinct layered structure with three dense nuclear layers, separated by plexiform layers comprising of axons and dendrites, and a layer of photoreceptor segments. The retinal and choroidal vasculatures nourish the retina from either side, with an avascular layer comprised largely of photoreceptor cells. Diseases that directly affect the neural retina like retinal degeneration as well as those of vascular origin like diabetic retinopathy can lead to partial or total blindness. Early detection of these diseases can potentially pave the way for a timely intervention and improve patient prognosis. Current techniques of retinal imaging rely mainly on optical techniques, which have limited depth resolution and depend mainly on the clarity of visual pathway. Magnetic resonance imaging is a versatile tool that has long been used for anatomical and functional imaging in humans and animals, and can potentially be used for retinal imaging without the limitations of optical methods. The work reported in this thesis involves the development of high resolution magnetic resonance imaging techniques for anatomical and functional imaging of the retina in rats. The rats were anesthetized using isoflurane, mechanically ventilated and paralyzed using pancuronium bromide to reduce eye motion during retinal MRI. The retina was imaged using a small, single-turn surface coil placed directly over the eye. The several physiological parameters, like rectal temperature, fraction of inspired oxygen, end-tidal CO2, were continuously monitored in all rats. MRI parameters like T1, T2, and the apparent diffusion coefficient of water molecules were determined from the rat retina at high spatial resolution and found to be similar to those obtained from the brain at the same field strength. High-resolution MRI of the retina detected the three layers in wild-type rats, which were identified as the retinal vasculature, the avascular layer and the choroidal vasculature. Anatomical MRI performed 24 hours post intravitreal injection of MnCl2, an MRI contrast agent, revealed seven distinct layers within the retina. These layers were identified as the various nuclear and plexiform layers, the photoreceptor segment layer and the choroidal vasculature using Mn54Cl2emulsion autoradiography. Blood-oxygenlevel dependent (BOLD) functional MRI (fMRI) revealed layer-specific vascular responses to hyperoxic and hypercapnic challenges. Relative blood volume of the retina calculated by using microcrystalline iron oxide nano-colloid, an intravascular contrast agent, revealed a superfluous choroidal vasculature. Fractional changes to blood volume during systemic challenges revealed a higher degree of autoregulation in the retinal vasculature compared to the choroidal vasculature, corroborating the BOLD fMRI data. Finally, the retinal MRI techniques developed were applied to detect structural and vascular changes in a rat model of retinal dystrophy. We conclude that retinal MRI is a powerful investigative tool to resolve layerspecific structure and function in the retina and to probe for changes in retinal diseases. We expect the anatomical and functional retinal MRI techniques developed herein to contribute towards the early detection of diseases and longitudinal evaluation of treatment options without interference from overlying tissue or opacity of the visual pathway.

Magnetic Resonance Imaging

Retina

Retinal Degeneration

Retinal Diseases

Diagnostic Imaging

Rats

Animal Experimentation and Research

Cardiovascular Diseases

Diagnosis

Endocrine System Diseases

Eye Diseases

Investigative Techniques

Sense Organs

Tissues

Análise de células bipolares PKCa-IR e células ganglionares da retina do peixe tropical Hoplias malabaricus intoxicado com baixas doses agudas de metilmercúrio

André Maurício Passos Liber

03 August 2011

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

Acuidade visual

Células bipolares da retina

Células ganglionares da retina

Compostos de metilmercúrio

Peixes

Retina

Fishes

Methylmercury compounds

Retina

Retinal bipolar cells

Retinal ganglion cells

Visual acuity