Sox18 expression in blood vessels and feather buds during chicken embryogenesis

Sox18 encodes a transcription factor known to be important for the development of blood vessels and hair follicles in mice. In order to study the functional conservation of this gene through evolution, we have isolated and characterized Sox18 in chickens. cSox18 shows a high degree of sequence homology to both the mouse and human orthologues, particularly in the high mobility group DNA-binding domain and to a lesser extent in the transcriptional activation domain. A region of unusually high sequence conservation at the C-terminus may represent a further, previously unrecognized functional domain. Both the chicken and human proteins appear to be truncated at the N-terminus relative to mouse SOX18. In situ hybridization analyses showed expression in the developing vasculature and feather follicles, consistent with reported expression in the mouse embryo. In addition, cSox18 mRNA was observed in the retina and claw beds. (C) 2001 Elsevier Science B.V. All rights reserved.

Vision in the peafowl (Aves : Pavo cristatus)

The visual sense of the Indian blue-shouldered peafowl Pavo cristatus was investigated with respect to the spectral absorption characteristics of the retinal photoreceptors, the spectral transmittance of the ocular media and the topographic distribution of cells in the retinal ganglion cell layer. Microspectrophotometry revealed a single class of rod, four spectrally distinct types of single cone and a single class of double cone. In the case of the single cone types, which contained visual pigments with wavelengths of maximum absorbance (lambda(max)) at 424, 458, 505 and 567 nm, spectral filtering by the ocular media and the different cone oil droplets with which each visual pigment is associated gives predicted peak spectral sensitivities of 432, 477, 537 and 605 nm, respectively. Topographic analysis of retinal ganglion cell distribution revealed a large central area of increased cell density (at peak, 35,609 cells mm(-2)) with a poorly defined visual streak extending nasally. The peafowl has a calculated maximum spatial resolution (visual acuity) in the lateral visual field of 20.6 cycles degrees(-1). These properties of the peafowl eye are discussed with respect to its visual ecology and are compared with those of other closely related species.

Developmental changes in the cone visual pigments of black bream Acanthopagrus butcheri

The spectral absorption characteristics of the visual pigments in the photoreceptors of the black bream Acanthopagrus butcheri Munro (Sparidae, Teleostei), were measured using microspectrophotometry. A single cohort of fish aged 5-172 days post-hatch (dph), aquarium-reared adults and wild-caught juveniles were investigated. During the larval stage and in juveniles younger than 100 dph, two classes of visual pigment were found, with wavelengths of maximum absorbance (lambda(max)) at approximately 425 nm and 535 nm. Following double cone formation, from 40 dph onwards, the short wavelength-sensitive pigment was recorded in single cones and the longer wavelength-sensitive pigment in double cones. From 100 dph, a gradual shift in the lambda(max) towards longer wavelengths was observed in both cone types. By 160 dph, and in adults, all single cones had a lambda(max) at approximately 475 nm while the lambda(max) in double cones ranged from 545 to 575 nm. The relationships between the lambda(max) and the ratio of bandwidth:lambda(max), for changes in either chromophore or opsin, were modelled mathematically for the long-wavelength-sensitive visual pigments. Comparing our data with the models indicated that changes in lambda(max) were not mediated by a switch from an A(1) to A(2) chromophore, rather a change in opsin expression was most likely. The shifts in the lambda(max) of the visual pigments occur at a stage when the juvenile fish begin feeding in deeper, tannin-stained estuarine waters, which transmit predominantly longer wavelengths, so the spectral sensitivity changes may represent an adaptation by the fish to the changing light environment.

Antagonists of protein kinase C inhibit rat retinal glutamate transport activity in situ

Neuronal and glial high-affinity transporters regulate extracellular glutamate concentration, thereby terminating synaptic transmission and preventing neuronal excitotoxicity. Glutamate transporter activity has been shown to be modulated by protein kinase C (PKC) in cell culture. This is the first study to demonstrate such modulation in situ, by following the fate of the non-metabolisable glutamate transporter substrate, D-aspartate. In the rat retina, pan-isoform PKC inhibition with chelerythrine suppressed glutamate uptake by GLAST (glutamate/aspartate transporter), the dominant excitatory amino acid transporter localized to the glial Muller cells. This effect was mimicked by rottlerin but not by Go6976, suggesting the involvement of the PKCdelta isoform, but not PKCalpha, beta or gamma. Western blotting and immunohistochemical labeling revealed that the suppression of glutamate transport was not due to a change in transporter expression. Inhibition of PKCdelta selectively suppressed GLAST but not neuronal glutamate transporter activity. These data suggest that the targeting of specific glutamate transporters with isoform-specific modulators of PKC activity may have significant implications for the understanding of neurodegenerative conditions arising from compromised glutamate homeostasis, e.g. glaucoma and amyotrophic lateral sclerosis.

Distribution of two splice variants of the glutamate transporter GLT1 in the retinas of humans, monkeys, rabbits, rats, cats, and chickens

Antibodies have been generated against two carboxyl-terminal splice variants of the glutamate transporter GLT1, namely, the originally described version of GLT1 and GLT1-B, and labelling has been examined in multiple species, including chickens and humans. Although strong specific labelling was observed in each species, divergent patterns of expression were noted. Moreover, each antibody was sensitive to the phosphorylation state of the appropriate protein, because chemical removal of phosphates using alkaline phosphatase revealed a broader range of labelled elements in most cases. In general, GLT1-B was present in cone photoreceptors and in rod and cone bipolar cells in the retinas of rabbits, rats, and cats. In the cone-dominated retinas of chickens and in marmosets, GLT1-B was associated only with cone photoreceptors, whereas, in macaque and human retinas, GLT1-B was associated with bipolar cells and terminals of photoreceptors. In some species, such as cats, GLT-B was also present in horizontal cells. By contrast, GLT1 distribution varied. GLT1 was associated with amacrine cells in chickens, rats, cats, and rabbits and with bipolar cells in marmosets and macaques. In the rat retina, rod photoreceptor terminals also contained GLT1, but this was evident only in enzymatically dephosphorylated tissues. We conclude that the two variants of GLT1 are present in all species examined but are differentially distributed in a species-specific manner. Moreover, each cell type generally expresses only one splice variant of GLT1. J. Comp. Neurol. 445:1-12, 2002. (C) 2002 Wiley-Liss, Inc.

Retinal specializations in the blue marlin: eyes designed for sensitivity to low light levels

The large eyes and well-developed visual system of billfishes suggest that vision is an important sense for the detection and interception of prey and lures. Investigations of visual abilities in these large pelagic fishes are difficult, however anatomical studies of billfish eyes and retinas allow prediction of a number of visual capabilities. From the density of ganglion cells in the blue marlin (Makaira nigricans) retina, visual acuities of less than 10 cycles per degree were derived, a surprisingly low visual resolution given the absolute size of the marlin eye. Cone photoreceptors, on the other hand, were present in high densities, resulting in a presumed summation of cones to ganglion cells at a ratio of 40:1, even in the area of best vision. The optical sensitivity of the marlin eye was high owing to the large dimensions of the cone photoreceptors. These results indicate that the marlin eye is specifically adapted to cope with the low light levels encountered during diving. Since the marlin is likely to use its vision at depth, it is suggested that this line of research could help estimate the limits of vertical distribution based on light level.

Visual Biology of Hawaiian Coral Reef Fishes. I. Ocular Transmission and Visual Pigments

The visual biology of Hawaiian reef fishes was explored by examining their eyes for spectral sensitivity of their visual pigments and for transmission of light through the ocular media to the retina. The spectral absorption curves for the visual pigments of 38 species of Hawaiian fish were recorded using microspectrophotometry. The peak absorption wavelength (lambda(max)) of the rods varied from 477-502 nm and the lambda(max) of individual species conformed closely to values for the same species previously reported using a whole retina extraction procedure. The visual pigments of single cone photoreceptors were categorized, dependent on their lambda(max)-values, as ultraviolet (347-376 nm), violet (398-431 nm) or blue (439-498 nm) sensitive cones. Eight species possessed ultraviolet-sensitive cones and 14 species violet-sensitive cones. Thus, 47% of the species examined displayed photosensitivity to the short-wavelength region of the spectrum. Both identical and nonidentical paired and double cones were found with blue sensitivity or green absorption peaks (> 500 nm). Spectrophotometry of the lens, cornea, and humors for 195 species from 49 families found that the spectral composition of the light transmitted to the retina was most often limited by the lens (73% of species examined). Except for two unusual species with humor-limited eyes, Acanthocybium solandri (Scombridae) and the priacanthid fish, Heteropriacanthus cruentatus, the remainder had corneal-limited eyes. The wavelength at which 50% of the light was blocked (T50) was classified according to a system modified from Douglas and McGuigan (1989) as Type I, T50 < = 355 nm, (32 species); Type IIa, 355 < T50 < = 380 nm (30 species); Type IIb, 380 < T50 405 nm (84 species). Possession of UV-transmitting ocular media follows both taxonomic and functional lines and, if the ecology of the species is considered, is correlated with the short-wavelength visual pigments found in the species. Three types of short-wavelength vision in fishes are hypothesized: UV-sensitive, UV-specialized, and violet-specialized. UV-sensitive eyes lack UV blockers (Type I and IIa) and can sense UV light with the secondary absorption peak or beta peak of their longer wavelength visual pigments but do not possess specialized UV receptor cells and, therefore, probably lack UV hue discrimination. UV-specialized eyes allow transmission of UV light to the retina (Type I and IIa) and also possess UV-sensitive cone receptors with peak absorption between 300 and 400 nm. Given the appropriate perceptual mechanisms, these species could possess true UV-color vision and hue discrimination. Violet-specialized eyes extend into Type IIb eyes and possess violet-sensitive cone cells. UV-sensitive eyes are found throughout the fishes from at least two species of sharks to modern bony fishes. Eyes with specialized short-wavelength sensitivity are common in tropical reef fishes and must be taken into consideration when performing research involving the visual perception systems of these fishes. Because most glass and plastics are UV-opaque, great care must be taken to ensure that aquarium dividers, specimen holding containers, etc., are UV-transparent or at least to report the types of materials in use.

Quando a fotografia (já) fazia os antropólogos sonharem: O jornal La Lumière (1851-1860)

Na efervescente metade do século XIX, marcada pela febre da ordem e do progresso, da racionalidade e das luzes, os antropólogos-naturalistas franceses descobrem, ao lado de muitos outros cientistas, as possibilidades heurísticas que a fotografia ofereceria à "visão" que eles tinham da "antropologia", a saber essa tentativa de mapeamento da "espécie humana", das raças e, dentre elas, dos tipos humanos, numa perspectiva claramente evolucionista. O jornal La Lumière (1851-1867), primeira publicação francesa dedicada à "Fotografia, às Artes e às Ciências", foi parcialmente reimpresso em 1995. Mergulhando nas colunas desse semanário, o leitor, além de adquirir uma idéia das origens da antropologia francesa, descobre as profissões de fé que se erguem em torno do novo suporte técnico e da nova "retina do cientista". Descobre, também, como essa prótese instaura uma nova ordem do olhar e levanta, em termos de uma epistemologia do conhecimento, um interessante questionamento em torno de dois outros meios de representações figurativas nos círculos antropológicos da época: os desenhos e as moldagens.

Expressão de transtirretina no sistema gastrointestinal do murganho

A transtirretina (TTR) é uma proteína plasmática constituída por quatro subunidades idênticas de aproximadamente 14KDa e de massa molecular de 55 KDa (Blake et al., 1978). A TTR é responsável pelo transporte de tiroxina (T4) (Andrea et al., 1980) e retinol (vitamina A), neste último tipo de transporte através da ligação à proteina de ligação ao retinol (RBP) (Kanai et al., 1968). É sintetizada principalmente pelo fígado e secretada para o sangue (Murakami et al., 1987) e também sintetizada pelas células epiteliais do plexo coróide e secretada para o líquido cefaloraquidiano (LCR) (Aleshire et al., 1983). Existem outros locais que expressam TTR mas em menor quantidade, nomeadamente: a retina do olho (Martone et al., 1988), o pâncreas (Kato et al., 1985), o saco vitelino visceral (Soprano et al., 1986) o intestino (Loughna et al., 1995); o estômago, coração, músculo e baço (Soprano et al., 1985). A TTR é uma proteína, do ponto de vista filogenético, extremamente conservada o que já de si é um indicador da sua importância biológica (Richardson, 2009) O objectivo deste trabalho foi avaliar a expressão de transtirretina ao longo do sistema gastrointestinal do murganho, nos seguintes órgãos esófago, estômago, duodeno, cólon e também bexiga, com cerca de 3 meses de idade. O segundo objectivo foi identificar as células responsáveis por essa expressão, nos órgãos em estudo. Foi possível verificar que apenas o estômago apresenta valores de expressão normalizada de TTR diferente de zero, expressão essa muito inferior à do fígado, tal como se esperava. Por imunohistoquímica/imunofluorescência foi possível determinar que as células que expressam TTR são pouco abundantes e estão presentes na região glandular do estômago do murganho e também do humano. Para além disto, verificou-se que a TTR co-localiza com somatostatina e que as células que sintetizam TTR correspondem às células D, responsáveis pela secreção de somatostatina

Qual a importância da equipa multidisciplinar na retinopatia diabética?

O número crescente de diabéticos e pré-diabéticos existentes em Portugal e consequentemente o de doentes com retinopatia diabética, assim como a necessidade de resposta em tempo ideal, colocam um problema aos serviços de saúde. O rastreio, diagnóstico, tratamento e a monitorização pressupõem uma intervenção multidisciplinar ao nível da saúde pública, dos cuidados primários de saúde e dos cuidados hospitalares, nas respetivas vertentes epidemiológica, financeira, organizacional e de gestão de recursos.

A baixa visão: apresentação e conceito

Deficiência visual é um problema de saúde mundial que afeta 285 milhões de pessoas, 39 milhões apresentam cegueira e 246 milhões apresentam baixa visão; 65 % das pessoas com baixa visão e 82% das pessoas cegas das pessoas apresentam mais de 50 anos de idade. Estima-se que cerca de 80% dos casos sejam preveníveis ou tratáveis. Em Portugal 200.000 pessoas apresentam hipertensão ocular, das quais 1/3 sofre de glaucoma; 6.000 pessoas apresentam cegueira irreversível por glaucoma (esta doença pode ser prevenida através de assistência oftalmológica adequada); 35.000 pessoas sofrem de baixa de visão: doenças da retina e da coroideia, nomeadamente DMLI, que afetará 5% das pessoas com mais de 55 anos e uma em cada 10 pessoas com mais de 65 anos; 15.000 diabéticos estarão em risco de cegar por retinopatia e maculopatia diabética (pode ser prevenida ou tratada, através de fotocoagulação da retina por laser e/ou por vitrectomia).

Stress diário e saúde ocular – Corioretinopatia serosa central: estudo de caso

Objectivos - Na sociedade atual as pessoas são diariamente expostas a inúmeras situações de stress. As exaltações vividas são transformadas em energia pulsional que por sua vez deve ser despendida segundo três vias: psíquica, motora e visceral. Se esta energia não for despendida pelas duas primeiras vias, acumula-se como carga psíquica originando tensão psíquica. A tensão gerada vai repercutir-se na saúde de cada indivíduo. Uma das causas da Coriorretinopatia Central Serosa (CRCS) é o stress. A CRCS é uma patologia de carácter esporádico, caracterizada por um descolamento seroso espontâneo da retina neuro sensorial na região macular, com consequente comprometimento da acuidade visual (AV). Sendo uma patologia de carácter esporádico desencadeada por situações de stress, pretende-se caracterizar as manifestações consequentes desta patologia, bem como abordar os factores diagnósticos da mesma, no caso em estudo. Metodologia - Estudo de caso. Análise de um paciente do sexo masculino, de 36 anos de idade, com diagnóstico de CRCS. Resultados - A CRCS caracteriza-se por um descolamento seroso da retina neuro sensorial na região macular, com comprometimento da visão. O paciente chegou à consulta com queixa de baixa de acuidade visual súbita do olho esquerdo. Realizaram-se exames para concluir o diagnóstico sendo estes, OCT, angiografia e avaliação da acuidade visual. Na angiografia verifica-se afeção da área macular, ao OCT verifica-se descolamento seroso da retina neuro sensorial na região macular. A acuidade visual era de 6/10 no olho esquerdo e 10/10 no olho direito. Apresentava ainda queixas de metamorfopsias. Discussão / Conclusão - Ainda que a etiologia da CRCS não seja totalmente conhecida, encontra-se associada a situações de stress, a hipertensão arterial, a comportamentos decorrentes da forma exagerada e ansiosa de viver, à competitividade, gravidez e medicação sistémica de esteróides. O tratamento inicial recomendado é repouso absoluto, caso se verifique insucesso o tratamento passará pela realização de terapia fotodinâmica.

O ortoptista nos cuidados de saúde primários: contributo para uma referenciação de qualidade

Deficiência visual é um problema de saúde mundial que afeta 285 milhões de pessoas, 39 milhões apresentam cegueira e 246 milhões apresentam baixa visão. 65% das pessoas com baixa visão e 82% das pessoas cegas das pessoas apresentam mais de 50 anos de idade. Estima-se que cerca de 80% dos casos sejam preveníveis ou tratáveis. 20% da população residente em Portugal é idosa - mais de dois milhões de pessoas com 65 anos. 21% de pessoas vivem sozinhas em Portugal, maioria delas idosas, e geralmente no interior do país. 50% dos indivíduos submetidos a programas de rastreio visual apresentam alterações reversíveis da função visual, especialmente por não terem o erro refrativo corrigido ou por terem cataratas (deficiência visual reversível). 200.000 pessoas apresentam hipertensão ocular, das quais 1/3 sofre de glaucoma; 6.000 pessoas apresentam cegueira irreversível por glaucoma (esta doença pode ser prevenida através de assistência oftalmológica adequada); 15.000 diabéticos estarão em risco de cegar por retinopatia e maculopatia diabética (pode ser prevenida ou tratada, através de fotocoagulação da retina por laser e/ou por vitrectomia); 35.000 pessoas sofrem de baixa de visão: doenças da retina e da coroideia, nomeadamente DMLI, que afetará 5% das pessoas com mais de 55 anos e uma em cada 10 pessoas com mais de 65 anos; estima-se que 45 mil pessoas sofram de DMI: cerca de 30 mil tem tratamento possivel, que poderá ser determinante para travar a progressão da doenca para um estadio de deficiência visual com consequências nefastas para a qualidade vida.

Tomographic imaging with a scanning laser ophtalmoscop

Retinal imaging with a confocal scaning laser Ophthalmoscope (cSLO) involves scanning a small laser beam over the retina and constructing an image from the reflected light. By applying the confocal principle, tomographic images can be produced by measuring a sequence of slices at different depths. However, the thickness of such slices, when compared with the retinal thickness, is too large to give useful 3D retinal images, if no processing is done. In this work, a prototype cSLO was modified in terms hardware and software to give the ability of doing the tomographic measurements with the maximum theoretical axial resolution possible. A model eye was built to test the performance of the system. A novel algorithm has been developed which fits a double Gaussian curve to the axial intensity profiles generated from a stack of images slices. The underlying assumption is that the laser light has mainly been reflected by two structures in the retina, the internal limiting membrane and the retinal pigment epithelium. From the fitted curve topographic images and novel thickness images of the retina can be generated. Deconvolution algorithms have also been developed to improve the axial resolution of the system, using a theoretically predicted cSLO point spread function. The technique was evaluated using measurements made on a model eye, four normal eyes and seven eyes containing retinal pathology. The reproducibility, accuracy and physiological measurements obtained, were compared with available published data, and showed good agreement. The difference in the measurements when using a double rather than a single Gaussian model was also analysed.