Muscarinic receptors binding in retinal pigment epithelium during rat development

[³H]Quinuclidinyl benzylate (³H-QNB) specific binding of the developing rat retinal pigment epithelium (RPE) and neural retina has been examined. The binding of³H-QNB to RPE was saturable and displaced by the antagonist pirenzepine. Scatchard analysis of³H-QNB binding showed two high affinity sites to RPE, with K_B=2.6nM and 45 nM. Specific³H-QNB binding membranes from neural retina exhibited a characteristic developmental profile. RPE showed a high density of³H-QNB binding sites through all developmental periods studied. The major onset of binding sites is at the time of RPE differentiation. Our data open the possibility of muscarinic receptors being involved in differentiation and/or proliferation of RPE.     

Growth of the eye and pigment epithelium of the retina during postnatal development of rats]

By the weight changes, the rat's eye grows during the whole life, whereas its scleral sector with the area equal to that of pigment epithelium of the retina grows most intensively between the 2nd and 5th days after birth. During this period, its weight attains half of the value characteristic of the scleral sector for one year old rats. This period of growth of the scleral sector coincides with the previously established peak of proliferative activity and appearance of first binuclear cells in the pigment epithelium. From the 5th day till the 12th month after birth, the weight of scleral sector increases twice and its area 6 times. This suggests that the mechanical tension of the scleral sector walls is one of the factors of growth of this eye part. On the basis of comparison of the scleral sector growth, changes in proliferative activity and number of polyploid cells in the pigment epithelium of the central zone of fundus oculi, the following periodization of the life cycle of cell population of the pigment epithelium is proposed: (1) from birth till the 15th day--period of principal determination (the number of binuclear tetraploid cells attains 80%), (2) from the 15th day till, at least, the 5th month--period of stabilization, (3) after 5 months--period of senescence characterized by the accumulation of highly ploid tri- and tetranuclear cells; its lower limit is not clearly defined.     

Insulin-stimulated taurine uptake in rat retina and retinal pigment epithelium.

Taurine is found at millimolar concentration in the retina and retinal pigment epithelium. High concentrations of taurine are essential for maintenance of retinal function. Taurine uptake by retina and retinal pigment epithelium was significantly enhanced by physiological concentrations of insulin as well as by high glucose concentrations. The results indicate that both, glucose and insulin enhanced taurine uptake occur through an increase in transport capacity which offset an additional, small decrease in affinity of the taurine carrier. Similar results were observed in retina and retinal pigment epithelium from streptozotocin-induced diabetic rats, suggesting that glucose and insulin regulate the taurine carrier through the same mechanism.     

Ascorbate uptake in normal and diabetic rat retina and retinal pigment epithelium

Oxidative stress is an important causative factor in the pathogenesis of diabetic retinopathy. Therefore, it becomes important to understand the mechanisms that help maintain appropriate levels of a small molecule antioxidant such as ascorbate in the retina. The outer blood-barrier which results from the tight junctions between the retinal pigment epithelial cells (RPE) restricts the flow of nutrients reaching the retina. In this study, we characterized the transport properties of carboxyl-(14)C ascorbate (AA) in normal rat retina and RPE, and compared them with those in streptozotocin-diabetic rats. Retina and RPE accumulated AA by a temperature-sensitive and energy-dependent kinetic mechanism with an apparent K(M) of 380 and 420 microM, respectively. Accumulation of AA was significantly reduced in a sodium-free medium. Although high glucose concentrations reduced AA uptake by 40%, this was not affected by cytochalasin B. The RPE and retina of diabetic rats presented lower levels of AA accumulation. These findings suggest the presence of the specific vitamin C transporter SVCT in retina and RPE, which may be involved in the manifestation of diabetic retinopathy.     

Peroxidases in the neural retina and pigment epithelium.

Peroxidase activity, assayed with 2 mM-H₂O₂ and suitable hydrogen donors (either p-phenyl-enediamine or diaminobenzidine), was demonstrated in homogenates of neural retina and pigment epithelium of both the dog and the cow. The enzyme is particle-associated in the native state, but is readily extractable by brief sonication or freeze-thawing. At optimum pH, which is between 4.0 and 4.5 for both sources, the specific activity is up to 40 times greater in pigment epithelial cells than in neural retina. Some catalase activity was detected in extracts from both bovine and canine neural retina, but catalase was essentially absent in pigment epithelium. Fractionation of bovine pigment epithelial cells showed that peroxidase activity is associated mainly with heavy organelles sedimenting at low centrifugal forces. Melanosomes, nuclei, melanolysosomes and plasma membranes were the principal organelles identified in these low speed sediments. It was not possible to separate them either by differential centrifugation or on discontinuous sucrose gradients. However, melanosomes were excluded as the only source of peroxidase activity by isolating separately the melanotic and amelanotic cell populations; equal peroxidase was found in both cell types. Since nuclei are not a likely source of this enzyme, it is suggested that most of the peroxidase activity in bovine pigment epithelial cells is localized in either the melanolysosomes, plasma membranes, or both.     

Post-natal maturation of the retina in the albino rat. I. The pigment epithelium

The Authors studied the postnatal development of the retinal pigment epithelium in the albino rat, in order to elucidate its morphological and functional evolution, correlated to the numerous functional roles played in Vertebrates (Scheme 1). At birth, epithelial cells show few cytoplasmic organules and the apical surface provided of small depressions. From the third to the fifth postnatal day the first apical microfolds surround the depressions. From the seventh to the ninth day inner segments develop, whilst the apical surface of the epithelial cells is covered by many finger-like microfolds. During the eleventh postnatal day the buds of the outer segments and many lamellar microfolds can be demonstrated. During the sixteenth day the retina reaches its adult morphology. It is therefore well-evident that birth, similarly to many other Vertebrates, is not the last step, but only a moment, in the development of the retina: this process is completed only during postnatal life, when environmental light is able to stimulate every ocular structure.     

Vitamin A receptors. II. Characteristics of retinol binding in chick retina and pigment epithelium

Gel filtration studies demonstrate that retinol receptors of chick retinal and pigment epithelial cytosols are (1) of very similar nature (2) of small molecular size (about 18000 daltons) and are different in character from serum proteins. Citral inhibits the binding of [3H]retinol to the retinal 2 S receptor. Retinol acetate competes with retinol for binding to 2 S receptor in both retina and pigment epithelium whereas retinol palmitate is an effective competitor only in the pigment epithelium. Dithiothreitol maximizes 2 S binding in retina and pigment epithelial cytosol; its absence does not lead to receptor aggregation however. A limited number of high affinity binding sites (2 S receptor) appear to be present in retina and pigment epithelium. A 5 S binding species is also present in pigment epithelium; it is similar in character to [3H]retinol binding in serum and may arise from serum contamination of the pigment epithelial preparation. Binding affinity in retina is high with possibly two classes of retinol binding sites present of KD about 1 - 10(-9) and 4 - 10(-8).     

Vitamin A receptors: II. Characteristics of retinol binding in chick retina and pigment epithelium

Gel filtration studies demonstrate that retinol receptors of chick retinal and pigment epithelial cytosols are (1) of very similar nature (2) of small molecular size (about 18 000 daltons) and are different in character from serum proteins. Citral inhibits the binding of [³H] retinol to the retinal 2 S receptor. Retinol acetate competes with retinol for binding to 2 S receptor in both retina and pigment epithelium whereas retinol palmitate is an effective competitor only in the pigment epithelium. Dithiothreitol maximizes 2 S binding in retina and pigment epithelial cytosol; its absence does not lead to receptor aggregation however. A limited number of high affinity binding sites (2 S receptor) appear to be present in retina and pigment epithelium. A 5 S binding species is also present in pigment epithelium; it is similar in character to [³H] retinol binding in serum and may arise from serum contamination of the pigment epithelial preparation. Binding affinity in retina is high with possibly two classes of retinol binding sites present of K_D about 1·10^?9 and 4·10^?8.     

Scanning electron microscopy of the bullfrog's retina and pigment epithelium

Summary The retina and pigment epithelium of the bullfrog (Rana catesbiana) were studied with the scanning electron microscope. Fixed-dehydrated tissues were critical point dried with CO₂, then cracked in the plane of the long axis of the photoreceptors. The cellular layers of the retina and the lateral surfaces of pigment epithelial cells were visualized. The four major types of frog photoreceptor were identified: red rod, green rod, single cone, and double cone. Cone myoids were observed to be contracted in light-adapted retinas and elongated in more dark adapted retinas.This work was supported by a career development award EY-18,083 to the author and research grant EY 00468 to Dr. Kenneth T. Brown.The author gratefully acknowledges the skillful technical assistance of Ms. Maria T. Maglio.     

Endocytosis in the rat retinal pigment epithelium

Endocytosis in the retinal pigment epithelium (RPE) of rats was studied using horseradish peroxidase, microperoxidase and ferritin tracers. Tracer uptake was mediated by coated pits and coated vesicles. Coated pits formed at two discrete regions at the RPE plasma membrane: that portion of basal membrane directly opposing Bruch's membrane, and at the bases of the apical lamellae and villi. Two populations of coated vesicles were identified and distinguished by size, location and function. Large coated vesicles (91.8 +/- 14.7 nm in diameter) were located near the cell surface and incorporated tracer. Small coated vesicles (64.5 +/- 15.7 nm diameter) located more deeply within the cell were not tracer-labeled, and were often fused with the endoplasmic reticulum or the Golgi apparatus. Observations of the endocytic pathway in rat RPE cells are presented. Tracer was also found in organelles of the lysosomal system, e.g. the multivesicular body, but was not identified in the smooth endoplasmic reticulum or Golgi apparatus.     

Radioautographic study on DNA synthesis of the retina and retinal pigment epithelium of developing mouse embryos.

We report the changes of proliferative activity of the retina and retinal pigment epithelium (RPE) of mouse embryos by detecting cells in the S-phase by light microscopic radioautography using 3H-thymidine. The eyes germs of mouse embryos at the embryonic days 9.5 (E 9.5), E 11.5, E 13.0, E 15.5, E 18.5 of gestational ages, were used for this experiment. Small pieces of the ocular tissues were labelled with 3H-TDR in vitro and light microscopic radioautographs were prepared. The labeling indices of the respective regions of tissues were calculated. Both tissues of retina and RPE showed high percentages of labeling indices from 10% to 50% through the developmental stages. The labeling indices of both tissues in earlier stages were generally higher than those of later stages, and gradually decreased in the later stages. However, the retina and RPE showed different courses of the changes of labeling indices respectively during the embryonic development. In the retina, the labeling indices in the vitreal portions were more than those in the scleral portions during the earlier developmental stages. However, in the later stages, the indices of scleral portions were more than those in the vitreal portions. Comparing the three regions of retina, the labeling indices of the anterior regions were generally higher than those of the equatorial and posterior regions, especially in the vitreal portion. Remarkable differences among three regions were not found in the scleral portion. In the RPE, the labeling indices gradually increased in the anterior region, but decreased in the equatorial and the posterior regions through all the developmental stages. The proliferation of both retina and RPE in the central region occurred earlier than those of the peripheral region.     

Intrinsic and extrinsic inhibition of oligodendrocyte development by rat retina

Cell patterning in the vertebrate CNS reflects the combination of localized cell induction, migration and differentiation. A striking example of patterning is the myelination of visual system. In many species, retinal ganglion cell axons are myelinated in the optic nerve but are unmyelinated in the retina. Here, we confirm that rat and mouse retina lack oligodendrocytes and their precursors and identify multiple mechanisms that might contribute to their absence. Soluble cues from embryonic retina inhibit the induction of oligodendrocytes from neural stem cells and their differentiation from optic nerve precursors. This inhibition is mediated by retinal-derived BMPs. During development BMPs are expressed in the retina and addition of the BMP antagonist Noggin reversed retinal inhibition of oligodendrocyte development. The lack of retinal oligodendrocytes does not simply reflect expression of BMPs, since no oligodendrocytes or their precursors developed when embryonic retinal cells were grown in the presence of Noggin and/or inductive cues such as Shh and IGF-1. Similarly, injection of Noggin into the postnatal rat eye failed to induce oligodendrocyte differentiation. These data combined with the proposed inhibition of OPC migration by molecules selectively expressed at the nerve retina junction suggest that multiple mechanisms combine to suppress retinal myelination during development.     

Comparison of ornithine aminotransferase activities in the pigment epithelium and retina of vertebrates

1. The specific activities of ornithine aminotransferase (OAT) in the pigment epithelia, retinas, and livers from several classes of vertebrates were assayed. 2. The specific activities of OAT were much higher in the pigment epithelia from mammals and birds than in their respective retinas or livers. 3. Pigment epithelium from porcine eyes had the highest specific activity measured. The specific activity of OAT in the pigment epithelium from the pig was five times higher than the OAT activity in its retina and 13 times higher than the OAT activity in its liver.     

Enzymatic esterification of vitamin a in the pigment epithelium of bovine retina

The kinetic properties and subcellular distribution of an esterifying enzyme in the pigment epithelium of bovine retina have been studied using both [1-³H]retinol and [³H]retinol bound to cellular retinol-binding protein as substrates. The most active esterifying fraction in pigment epithelial cell preparations was the microsomes, but the lysosome plus mitochondria fraction also showed some activity, probably due to endoplasmic reticulum present as an impurity. The microsomal enzyme showed optimum activity at pH 7.5, and the reaction was linear up to 30 μg protein and for the first 10–15 min. The apparent K_m values were 16.6 · 10^?6 and 5.5 · 10^?6 M for [³H]retinol and bound [³H]retinol, respectively. This is the first time that retinol bound to cellular retinol-binding protein has been shown to undergo metabolic stransformation. The microsomal esterifying activity was destroyed by boiling for 1 min, or after freezing for 2 months. No clear requirement for ATP, CoA or fatty acid could be demonstrated.Of all the other tissues examined under the same experimental conditions as those used for the pigment epithelium, onlt intestine showed measurable activity. With larger amounts of tissue protein and longer incubation periods, activity was also detectable in microsomes of liver, testis and retina     

Muscarinic-acetylcholine and beta-adrenaline receptors of the retinal and pigment epithelium cells during eye regeneration in tritons]

The development of M-choline and beta-adrenoceptors of retina and pigment epithelium cells has been studied in regenerating newt eye by radioligand analysis. The data obtained have been compared with the histological data. High content of M-choline and beta-adrenoceptors has been observed both in retina, in pigment epithelium of retina-ectomized and control eyes. 7-10 weeks after the operation, incomplete receptors have been observed in the regenerate with incomplete differentiation: they had low binding constants and had non-characteristic bending saturation curves. Pigment epithelium cells could interact with ligands properly. 10-13 weeks after the operation, the values and pattern of binding became similar to that of control retina. The data obtained can be explained by gradual increase in the share of morphologically differentiated cells in retina regenerate.     

Differentiation of the retina and pigment epithelium in the ontogeny of the common frog. 1. The retina

Changes in the ultrastructure of the differentiating retinal cells were studied by means of electron microscopy in Rana temporaria at successive developmental stages. Common features of the onset of differentiation of the retinal cells have been shown: appearance of the granular endoplasmic reticulum elements, of the polysomes, beginning of utilization of the yolk and lipids, elimination of ovarial melanosomes. Later during the differentiation of retinal neurons the protein synthesizing machinery and Golgi complex of these cells develop markedly, the number of mitochondria increases. The differentiation of retina begins from the Müllerian cells (stage 28) which determine the direction of growth of the neuron processes. They are followed by the ganglion cells and photoreceptors (stage 29). The signs of differentiation of the inner nuclear layer neurons become apparent later, in the amacrine and horizontal cells at the same time and in the bipolars later. The main features of neuronal organization of the retina which determine the structural basis of its function of light perception are formed by stage 40.     

Postnatal growth inhibition in the rat retina after actinomycin D adminstration]

The effects of actinomycin D on the development of the rats retina were observed. At the day of birth the inner neurons and the inner cells of the bipolar layer are vulnerable. The pale degeneration of these neurons accompanied by a dilatation of the endoplasmatic reticulum and the dark degeneration accompanied by a pycnosis and a shrinkage of the cytoplasm persist during the first 11 days after birth. The same alterations are to be seen in bipolar cells on day 11 after birth. The transient disorganisation of the inner layers could effect the ramification because the stratum reticulare internum is smaller as in untreated animals.     

Cyclic nucleotides and protein kinase systems in the developing chick retina and pigment epithelium

During embryonic development of the chick neural retina, cyclic nucleotide levels are relatively uniform but rise abruptly at the time of hatching. The rise is thus not temporally correlated with features of morphological development such as outer segment elongation but rather with the onset of actual visual function. In the pigment epithelium, the cyclic AMP level declines throughout the embryonic period studied and does not rise at hatching. Cyclic GMP levels are much lower in both retina and pigment epithelium but rise several-fold at hatching. A binding protein si observed for cyclic AMP in the retina prior to outer segment development; cyclic GMP binding is considerably lower. Retinal ATP-kinase activity is high throughout the embryonic period studied and is stimulated up to 6-fold by 1 μM cyclic AMP and by 100 μM cyclic GMP. The major rise in GTP-kinase activity correlates temporally with photoreceptor outer segment sevelopment and may be involved intimately in the visual process.