Uptake of 3H-dopamine in megakaryocytes and blood platelets measured by quantitative electron-microscope autoradiography

We studied the uptake of dopamine by mature megakaryocytes and blood platelets in mouse spleen after a single intraperitoneal injection of 3H-dopamine. In order to compare the uptake of 3H-dopamine in mature megakaryocytes and blood platelets, we used quantitative autoradiography at the electron-microscope level. Dense accumulations of silver grains were observed on both mature megakaryocytes and blood platelets; all other tissue elements of the spleen exhibited considerably less dense labeling. No significant differences with regard to dopamine uptake were observed in megakaryocytes and blood platelets. This is in contrast to the previous finding of very different patterns of 3H-5-hydroxytryptamine labeling in mature megakaryocytes and blood platelets (Daimon and Uchida 1985). The results of the present study provide new evidence in favor of the hypothesis that the active uptake mechanism of dopamine through the plasma membrane is different from the uptake mechanism of 5-hydroxytryptamine.     

Uptake of 3H-dopamine in megakaryocytes and blood platelets measured by quantitative electron-microscope autoradiography

Summary We studied the uptake of dopamine by mature megakaryocytes and blood platelets in mouse spleen after a single intraperitoneal injection of ³H-dopamine. In order to compare the uptake of ³H-dopamine in mature megakaryocytes and blood platelets, we used quantitative autoradiography at the electron-microscope level. Dense accumulations of silver grains were observed on both mature megakaryocytes and blood platelets; all other tissue elements of the spleen exhibited considerably less dense labeling. No sigificant differences with regard to dopamine uptake were observed in megakaryocytes and blood platelets. This is in contrast to the previous finding of very different patterns of ³H-5-hydroxytryptamine labeling in mature megakaryocytes and blood platelets (Daimon and Uchida 1985). The results of the present study provide new evidence in favor of the hypothesis that the active uptake mechanism of dopamine through the plasma membrane is different from the uptake mechanism of 5-hydroxytryptamine.     

DEVELOPMENTAL CHANGES IN THE KINETICS OF γ-AMINOBUTYRIC ACID TRANSPORT BY CHICK RETINA

—Isolated retinas from chick embryos and mature animals were incubated in [³H]GABA at 25°C for 10 min in order to investigate kinetic properties of the amino acid uptake system. Embryo retina accumulated [³H]GABA by two distinct kinetic systems with K_m values of the order 10⁻⁴m and 10⁻⁵m for the low- and high-affinity mechanisms respectively. However, as the retina matured, the high-affinity process disappeared and only the low-affinity system was detectable. No obvious explanation can be offered for this phenomenon although a similar observation has previously been made in chick brain by other workers.     

A Single Intravenous AAV9 Injection Mediates Bilateral Gene Transfer to the Adult Mouse Retina

Widespread gene delivery to the retina is an important challenge for the treatment of retinal diseases, such as retinal dystrophies. We and others have recently shown that the intravenous injection of a self-complementary (sc) AAV9 vector can direct efficient cell transduction in the central nervous system, in both neonatal and adult animals. We show here that the intravenous injection of scAAV9 encoding green fluorescent protein (GFP) resulted in gene transfer to all layers of the retina in adult mice, despite the presence of a mature blood-eye barrier. Cell morphology studies and double-labeling with retinal cell-specific markers showed that GFP was expressed in retinal pigment epithelium cells, photoreceptors, bipolar cells, Müller cells and retinal ganglion cells. The cells on the inner side of the retina, including retinal ganglion cells in particular, were transduced with the highest efficiency. Quantification of the cell population co-expressing GFP and Brn-3a showed that 45% of the retinal ganglion cells were efficiently transduced after intravenous scAAV9-GFP injection in adult mice. This study provides the first demonstration that a single intravenous scAAV9 injection can deliver transgenes to the retinas of both eyes in adult mice, suggesting that this vector serotype is able to cross mature blood-eye barriers. This intravascular gene transfer approach, by eliminating the potential invasiveness of ocular surgery, could constitute an alternative when fragility of the retina precludes subretinal or intravitreal injections of viral vectors, opening up new possibilities for gene therapy for retinal diseases.     

Pharmacological properties of glycine uptake in the developing rat retina

A pharmacological characterization of glycine transport was performed in the rat retina at different postnatal ages. The uptake of 3H-glycine increased during the first 2 weeks of postnatal age, reaching maximum values at 12 days; then it decreased sharply to the adult values. We found a Na+ -dependent and high-affinity transport system with a Km of 100 microM. The Na+ Hill coefficient for glycine uptake was 1.76 +/- 0.07. Although glycine uptake was insensitive to staurosporine and phorbol ester, it was reduced 40-50% by sarcosine and ALX5407. Besides, amoxapine inhibited glycine uptake by 40 and 70% in adult and immature retina, respectively. These results suggest that the Glyt1 transporter was concentrated in the nerve terminals. In addition to the presence of Glyt1 in the retina, our results provided evidence of the occurrence of Glyt2 and/or another isoform of glycine transporter, which might have had a role in the retina development.     

Survival, excitability, and transfection of retinal neurons in an organotypic culture of mature zebrafish retina

Over the last 20 years, the zebrafish has become an important model organism for research on retinal function and development. Many retinal diseases do not become apparent until the later stages of life. This means that it is important to be able to analyze (gene) function in the mature retina. To meet this need, we have established an organotypic culture system of mature wild-type zebrafish retinas in order to observe changes in retinal morphology. Furthermore, cell survival during culture has been monitored by determining apoptosis in the tissue. The viability and excitability of ganglion cells have been tested at various time points in vitro by patch-clamp recordings, and retinal functionality has been assessed by measuring light-triggered potentials at the ganglion cell site. Since neurogenesis is persistent in adult zebrafish retinas, we have also monitored proliferating cells during culture by tracking their bromodeoxyuridine uptake. Reverse genetic approaches for probing the function of adult zebrafish retinas are not yet available. We have therefore established a rapid and convenient protocol for delivering plasmid DNA or oligonucleotides by electroporation to the retinal tissue in vitro. The organotypic culture of adult zebrafish retinas presented here provides a reproducible and convenient method for investigating the function of drugs and genes in the retina under well-defined conditions in vitro.     

Ganglioside Expression During Differentiation of Chick Retinal Cells In Vitro

The neural retina has been widely used to study the developmental patterns of ganglioside metabolism. Recent findings about in vitro differentiating chick embryo retina cells showed that: a) GD3 and GD1a ganglioside patterns undergo the most dramatic changes; b) when the cells emit neurites, GD3 ganglioside and a group of complex gangliotetraosylgangliosides (GTOG) are transiently coexpressed; c) synchronized developmental phenomena are dissociated by anti-GM1 antibodies; d) GD3 remains as a major ganglioside in differentiated neurons, though it is almost not immunoexpressed; e) GTOG affect antibody binding to GD3; f) the content of gangliosides involved in neural differentiation modifies their immunostain localization on cell membrane; g) after exogenous GTOG uptake, immature neurons mimic GD3 immunoflourescent localization of mature cells; h) a subset of purified retinal ganglion cells express GTOG characteristic of mature neurons.     

The vertebrate retina: a model for neuronal polarization in vivo

The vertebrate retina develops rapidly from a proliferative neuroepithelium into a highly ordered laminated structure, with five distinct neuronal cell types. Like all neurons, these cells need to polarize in appropriate orientations order integrate their neuritic connections efficiently into functional networks. Its relative simplicity, amenability to in vivo imaging and experimental manipulation, as well as the opportunity to study varied cell types within a single tissue, make the retina a powerful model to uncover how neurons polarize in vivo. Here we review the progress that has been made thus far in understanding how the different retinal neurons transform from neuroepithelial cells into mature neurons, and how the orientation of polarization may be specified by a combination of pre-established intrinsic cellular polarity set up within neuroepithelial cells, and extrinsic cues acting upon these differentiating neurons.     

Antibodies against pax6 immunostain amacrine and ganglion cells and neuronal progenitors,but not rod precursors,in the normal and regenerating retina of the goldfish

Pax6 is a developmental regulatory gene that plays a key role in the development of the embryonic brain, eye, and retina. This gene is also expressed in discrete groups of neurons within the adult brain. In this study, antibodies raised against a fusion protein from a zebra fish pax6 cDNA were used to investigate the expression of the pax6 gene in the mature, growing, and regenerating retina of the goldfish. On western blots of retinal proteins, the pax6 antibodies recognize a single band at the approximate size of the zebra fish pax6 protein. In retinal sections, the antibodies label the nuclei of mature amacrine and some ganglion cells. At the retinal margin, where neurogenesis and cellular differentiation continually occur in goldfish, the antibodies label neuronal progenitors and the newly postmitotic neurons. Following injury and during neuronal regeneration, the antibodies label mitotically active progenitors of regenerating neurons. Rod precursors, proliferating cells that normally give rise solely to rod photoreceptors and are the presumed antecedents of the injury-stimulated neuronal progenitors, are not immunostained by antibodies to the pax6 protein. The results of this study document the identity of pax6-expressing cells in the mature retina and demonstrate that in the goldfish pax6 is expressed in neuronal progenitors during both retinal growth and regeneration. © 1996 John Wiley & Sons, Inc.     

Central and Peripheral Retina Arise through Distinct Developmental Paths

In the mature eye, three distinct tissue fates, retina, ciliary body, and iris, arrange with a strict linear organization along the central (back) to peripheral (front) axis. The establishment of this topographical relationship within the optic vesicle is not well understood. We use a targeted vital labeling strategy to test the derivation of mature eye tissues from the optic vesicle of the chick embryo. Fate mapping uncovers two distinct origins of the neural retina. Contrary to expectations, the central neural retina has a discrete origin within the posterior optic vesicle. The peripheral retina derives from the distal optic vesicle, sharing a common origin with more peripheral tissue fates. This study identifies for the first time two distinct retinal sub-domains, central and peripheral, which arise during embryogenesis. Identification of these discrete retinal compartments provides a framework for understanding functional and disease processes throughout retinal tissue.     

Pharmacological Properties of Glycine Transport in the Frog Retina

The high-affinity glycine transport in neurons and glial cells is the primary means for inactivating synaptic glycine. Two different glycine transporter genes, Glyt-1 and Glyt-2, have been cloned. Glyt-1 has been reported to occur in the retina, but there is no evidence for expression of the Glyt-2 transporter. We have pharmacologically characterized glycine transport in the frog retina. 3H-Glycine uptake in the retina was insensitive to modulation by phorbol esters or changes in cAMP levels, and was partially inhibited by sarcosine. Differential sensitivity of glycine transport to sarcosine was exhibited by synaptosomal fractions from the inner and outer plexiform layers of the frog retina. The Na+ Hill coefficient of glycine uptake was 2.0, as has been reported for Glyt-2. In addition, amoxapine, a specific inhibitor of the Glyt-2a isoform, reduced by 60% glycine uptake by P2 synaptosomal fraction. Our results indicate the presence of different glycine transporter isoforms in the frog retina, acting mainly through the classical inhibitory glycine system.     

Heterogeneous Maturation of Retina of the Pied Flycatcher Ficedula hypoleuca

A method is developed to determine the moment of establishment of functional maturity of cones by the appearance of their lipid droplet. Using this method, the process of differentiation of photoreceptor layer cells is traced and general regularities are elucidated of growth and maturation of the bifoveal retina of chicks of the pied flycatcher Ficedula hypoleuca. Development of retina occurs heterochronously; the first colored lipid droplets determining mature photoreceptors are photooptically revealed locally in the temporal retina area at the 5th day; at the 7th day, the lipid droplets appear within the limits of the central fovea; then the maturation wave moves from the temporal and central fovea towards periphery of retina. By the 14th day the entire area of retina turns out to be filled with mature photoreceptors. It is suggested that the predominant early maturation of photoreceptor cells of the temporal area is due to a necessity of the forestalling development of the retina parts providing the short-focus binocular vision that is the most important for establishment of chick alimentary behavior and start of hunting on their own after flight from the nest.     

Over-Expression of Ephrin-A5 in Mice Results in Decreasing the Size of Progenitor Pool through Inducing Apoptosis

Eph receptors and their ligands, ephrins, mediate cell-to-cell contacts in a specific brain region and their bidirectional signaling is implicated in the regulation of apoptosis during early brain development. In this report, we used the alpha(α)-Cre transgenic line to induce ephrin-A5 over-expression in the distal region of the neural retina. Using this double transgenic embryo, we show that the over-expression of ephrin-A5 was responsible for inducing massive apoptosis in both the nasal and temporal retinas. In addition, the number of differentiated retinal neurons with the exception of the bipolar neuron was significantly reduced, whereas the laminar organization of the mature retina remained intact. Consistent with this finding, an analysis of the mature retina revealed that the size of the whole retina— particularly the nasal and temporal regions—is markedly reduced. These results strongly suggest that the level of ephrin-A5 expression plays a role in the regulation of the size of the retinal progenitor pool in the neural retina.     

Cell type specificity of a neural cell surface antigen recognized by the monoclonal antibody A2B5

Summary The monoclonal antibody A2B5 reacts with the surface membrane of most neurons in monolayer cultures of cerebellum, retina, spinal cord, and dorsal root ganglion of embryonic and early postnatal C57BL/6J mice maintained in vitro for culture periods of 2 to 10 days. A small percentage of astroglial cells also expresses A2B5 antigen in murine, chicken and rabbit cerebellum, in chicken retina, and in murine spinal cord and dorsal root ganglion. Less mature astroglial cells are stained for A2B5 antigen to a greater extent than the more mature astrocytes. Astrocytes from rat cerebellum and mouse retina were not found to express A2B5 antigen under the present culture conditions. Some of the less mature oligodendrocytes recognized by 04 antibodies express A2B5 antigen, while the more mature 01 antigen and galactocerebroside-positive oligodendrocytes were not found to be A2B5 antigen-positive. Fibroblasts or fibroblast-like cells do not express detectable levels of A2B5 antigen. After fixation of the cells with paraformaldehyde and ethanol, all cell types present in culture are labeled by the A2B5 antibody intracellularly.     

Circadian rhythm and uptake of taurine by the rat pineal gland

Taurine is believed to be a modulator of membrane excitability in muscle and a neuroinhibitory transmitter in the central nervous system. The retina and pineal contain relatively large quantities of taurine. Taurine levels in the retina are reported to be responsive to variations in lighting conditions. We report here a carcadian rhythm for taurine in the mature male rat pineal gland. The maximum taurine concentration occurs at the midpoint of the light period, 24 ± 1.9 nmoles/gland, and the minimum at the beginning of the dark period, 13.9 ± 1.6 nmoles/gland. Sympathectomy by bilateral superior cervical ganglionectomy lowered pineal taurine levels. Constant light and blinding had no effect. Taurine was demonstrated to be taken up by the pineal gland $\text{in}$$\text{vitro}$ in organ culture. The uptake was saturable, K_m = 2.0 mM, and sodium dependent. The close structural analogs hypotaurine and β-alanine inhibited taurine uptake but α-alanine did not. We have demonstrated a circadian rhythm for taurine content in the rat pineal gland and the presence of a sodium-dependent transport system for taurine in the pineal $\text{in}$$\text{vitro}$ in organ culture.     

Nucleoside uptake by rat retina cells

Adenosine and guanosine uptake have been studied in the rat retina. Both nucleosides are taken up in a time- and temperature-dependent manner by dispersed rat retinal cells. The uptake of both nucleosides is Na⁺-dependent and Ca⁺⁺-independent. Initial rate studies of guanosine and adenosine uptake demonstrate a single uptake process for each nucleoside with K_D values of 2.1 and 2.9 uM, and maximal rates of 24 and 17 pmol/mg protein/min, respectively. Guanosine uptake was inhibited by adenosine with a K_I of 12.1 uM whereas guanosine inhibited adenosine uptake with a K_I value greater than 10^?3 M. LN⁶-phenylisopropyladenosine, a nucleoside analog, was the most potent inhibitor of adenosine and guanosine uptake with K_I values of 25 and 8 uM, respectively. Phosphodiesterase inhibitors (isobutylmethylxanthine and theophylline) and biogenic amines (dopamine, norepinephrine, and histamine) had no significant effect on the uptake of guanosine or adenosine at concentrations up to 100 uM.