Radioautographic study of the cellular proliferation of retinal pigment epithelium in axolotls

The proliferative activity of the pigment epithelium cells in the axolotl eyes was studied using 3H-thymidine in two types experiments: after the removal of lens, iris and retina and upon the cultivation of the pigment epithelium pieces in the cavity of lens-less eye. Irrespective of the operation type, the level of proliferation of the pigment epithelium cells changed regularly with respect to the time of observation. In the intact eye, the level of proliferation of the pigment epithelium cells was not high: the index of labelled nuclei equaled 0.5%, no mitoses were found. The highest values of the index of labelled nuclei (12.6-32.1%) and of the mitotic index (0.54-1.07%) were registered on the 10-20th days after the operation. After 40 days, the indices of proliferative activity of the pigment epithelium cells approached gradually those for the intact eye. The cultivation of the pigment epithelium cells in the cavity of a lens-less eye for 50 days did not result in their transdifferentiation into retina cells. The layered retina found in 7.7% of cases after the removal of lens, iris and retina could regenerate either from the cells of the retina growth zone localized in the region of embryonic split, or due to transdifferentiation of the pigment epithelium cells.     

Proliferative activity of the pigment epithelium and regenerating retinal cells in Ambystoma mexicanum

Cellular sources of retinal regeneration and proliferative activity of the cells taking part in retina restoration have been studied in axolotls using 3H-thymidine. The cells of ciliary-terminal zone proved to be the main source of retinal restoration. Besides these cells, the pigmented cells of the iris inner and outer layers and pigment epithelium cells can take part in this process. Morphological stages of retinal regeneration have been established and regular changes in the level of proliferation in different zones of regenerating retina have been found with respect to the stage of retina restoration. The high level of proliferative activity of the pigment epithelium cells found soon after the operation favoured the restoration of disturbed integrity of the pigment epithelium layer, the increase of cell density in it, the elongation of the pigment epithelium layer, the formation of processes, and, sometimes, the replenishment of regenerating retina.     

Rhodopsin regeneration: role of interaction between the photoreceptors and pigment epithelium cells]

Regeneration of rhodopsin has been studied in the eyecup, isolated retina and retinal homogenate of frog Rana temporaia as well as in the eyecup and isolated retina of fish-flounder Limanda aspera (Pallas). Rhodopsin has been found to regenerate only in the eyecup of frog, while isorhodopsin appeared to be the final product in the frog retinal homogenate. Decrease in rhodopsin regeneration level has been resulted from addition of inhibitors--theophyllin (2.10-2 M), papaverine (10-4--10-3 M) and strophantin (2.10-4 M) To the eyecup preparations (60, 20, 23%, consequently). A conclusion is made that structural connection between pigment epithelium cells and photoreceptors is necessary to provide regeneration of native rhodopsin.     

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).     

Effects of melatonin and light on porphyrin synthesis in the bovine retina, pigment epithelium and choroid.

The quantity of porphyrin synthesized in the presence of 10(-3) M delta-aminolevulinic acid (ALA) is several times higher in the bovine pigment epithelium than in the retina. Synthesis in the retina was found to be increased by illumination, whereas synthesis in the pigment epithelium was decreased if the whole anatomical unit (retina-pigment epithelium-choroid) was cultivated together. The quantity of porphyrin synthesized in the presence of 10(-3) M ALA or 10(-6) M melatonin was different when the pigment epithelium and retina were separated. The combination 10(-3) M ALA with 10(-6) M melatonin inhibited retinal porphyrin synthesis after green light adaptation, while in the pigment epithelium green light adaptation induced porphyrin synthesis. It is postulated that the light-sensitive porphyrin-haeme synthesis of the retina-pigment epithelium-choroid functional unit may serve and modulate the synthesis of guanylate cyclase for cGMP.     

A study of the localization and accumulation of S-phase cells in the retina of newt Pleurodeles waltl after experimental pigment epithelial detachment

This work continues the studies of the proliferative ability of cells in the adult newt retina. The model of experimental detachment of the retina from pigment epithelium and two techniques to saturate the ocular tissues in vivo with precursors of DNA synthesis were used: (1) the method of repeated [3H]-thymidine labeling and subsequent autoradiographic analysis of semithin sections and (2) an original method for continuous labeling of thymidine analog bromodeoxyuridine and subsequent immunochemical detection. The data obtained confirm and extend our previous data on the localization of DNA-synthesizing cells in the neural retina and expose the pattern of S-phase cell accumulation after retinal detachment for each proliferation-competent cell population. In addition to cells in the growth zone of the retina, Muller glia, microglia, and minor cell population in the vitreal part of interneurons, DNA-synthesizing cells included astrocytes of the optic nerve and cells of its vascular network. Four weeks after detachment, the number of S-phase cells in the growth zone could reach 15-20%, while the above-mentioned DNA-synthesizing cells in the differentiated retina have low reproductive rate and could produce only one generation within the same period.     

Induction of retinal regeneration in vivo by growth factors

We have previously reported that basic fibroblast growth factor (bFGF) can induce retinal regeneration in the stage 22-24 chicken embryo. The present study was undertaken to identify the cellular source of the regenerate and to determine whether other growth factors also elicit regeneration in this animal model. Polymer implants containing bFGF were inserted into eyes of chicken embryos immediately after extirpation of the neural retina. The retinal pigment epithelium (RPE) was left intact. Evaluation by light microscopy revealed that in bFGF-treated eyes the new neural retina arose by transdifferentiation of the entire RPE layer. Differentiation of the new neural retina occurred in a sequence similar to that of normal development but proceeded in a reverse (vitread) direction. All retinal laminae had differentiated by Day 15. However, the regenerate displayed reversed polarity, with photoreceptors closest to the lens. The RPE, pecten, and optic nerve were absent. Focal areas of degeneration in the retinal regenerate became evident for the first time on Day 10. Retinal regeneration was also observed after treatment with higher doses of acidic fibroblast growth factor, but not with nerve growth factor-beta, transforming growth factor-beta 1, insulin, or insulin-like growth factors I or II. These results raise the possibility that FGFs may play a role in retinal differentiation during development.     

Neural retinal regeneration in the anuran amphibian Xenopus laevis post-metamorphosis: transdifferentiation of retinal pigmented epithelium regenerates the neural retina

In urodele amphibians like the newt, complete retina and lens regeneration occurs throughout their lives. In contrast, anuran amphibians retain this capacity only in the larval stage and quickly lose it during metamorphosis. It is believed that they are unable to regenerate these tissues after metamorphosis. However, contrary to this generally accepted notion, here we report that both the neural retina (NR) and lens regenerate following the surgical removal of these tissues in the anuran amphibian, Xenopus laevis, even in the mature animal. The NR regenerated both from the retinal pigment epithelial (RPE) cells by transdifferentiation and from the stem cells in the ciliary marginal zone (CMZ) by differentiation. In the early stage of NR regeneration (5-10 days post operation), RPE cells appeared to delaminate from the RPE layer and adhere to the remaining retinal vascular membrane. Thereafter, they underwent transdifferentiation to regenerate the NR layer. An in vitro culture study also revealed that RPE cells differentiated into neurons and that this was accelerated by the presence of FGF-2 and IGF-1. The source of the regenerating lens appeared to be remaining lens epithelium, suggesting that this is a kind of repair process rather than regeneration. Thus, we show for the first time that anuran amphibians retain the capacity for retinal regeneration after metamorphosis, similarly to urodeles, but that the mode of regeneration differs between the two orders. Our study provides a new tool for the molecular analysis of regulatory mechanisms involved in retinal and lens regeneration by providing an alternative animal model to the newt, the only other experimental model.     

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.     

Radioautographic study of melanin synthesis in cells of the pigmented epithelium of the retina in adult tritons following surgical removal of the retina]

The results are given for the autoradiographic study of melanin synthesis in the pigment epithelium cells of eye retina in the adult newts by the incorporation of 3H-dioxyphenylalanine (3H-DOPA). The synthesis of melanin began 4--8 days after the operation in the peripheral parts of the eye and but it was not observed in the central region of the eye fundus even 25 days alter the operation. A suggestion is put forward to the effect of the existence of different mechanisms for the initiation of melanin synthesis in these subpopulations of pigment epithelium.     

Radioautographic study of the cell proliferation of the pigment epithelium of the retina in albino clawed frogs

The proliferative activity of pigment epithelium was studied by means of 3H-thymidine autoradiography after the removal of retina, lens and iris with the ciliary-terminal zone in the adults. The cell population of pigment epithelium was shown to be heterogeneous on the level of proliferative activity. A low level of proliferation is characteristic of the cells of epithelial monolayer and the cells leaving it and forming aggregates. An intensive local proliferation leading to the formation of expansions was found in the pigment epithelium layer in 7% of cases. On the 20th day after the operation, the index of labelled nuclei in the expansions amounted to 43.4--59.3% and the mitotic index to 1.4--2.1%. On the 75th day elements of atypical retinal differentiation, besides the high proliferative activity, were observed in one expansion.     

Role of calcium-dependent and calcium-independent mechanisms in the adhesion of retinal and pigment epithelium cells in the chick embryo

The mechanisms of adhesion of the retinal and pigment epithelium cells, as well of cell interaction within each of these tissues were studied during development. It was shown by means of separation of retina from pigment epithelium in different dissociation media that the adhesion of these tissues in 5-6 day old chick embryos is realized via a Ca2+-independent mechanism. The adhesion of these tissues decreases between days 7 and 16. Starting from day 16, both Ca2+-independent and Ca2+-dependent mechanisms are involved in the interaction of the retinal and pigment epithelium cells. By measuring the output of single cells into the suspension after the treatment of retina and pigment epithelium with different dissociating agents, it was shown that from the 5th day of incubation on the adhesion of pigment epithelium cells is mediated by Ca2+-dependent mechanism. In the retina three types of cells were found: interacting via Ca2+-dependent mechanism only, Ca2+-independent mechanism only, and both the mechanisms. In the course of differentiation, the numbers of the population of cells interacting only via Ca2+-dependent mechanism increase, while those of cells interacting via Ca2+-independent mechanism decrease. It is suggested that at each developmental stage those retinal cell possess Ca2+-dependent mechanism of adhesion which are closest to the definitive state.     

A study of the localization and accumulation of S-phase cells in the retina of newt <Emphasis Type="Italic">Pleurodeles waltl</Emphasis> after experimental pigment epithelial detachment

This work continues the studies of the proliferative ability of cells in the adult newt retina. The model of experimental detachment of the retina from pigment epithelium and two techniques to saturate the ocular tissues in vivo with precursors of DNA synthesis were used: (1) the method of repeated [³H]-thymidine labeling and subsequent autoradiographic analysis of semithin sections and (2) an original method for continuous labeling of thymidine analog bromodeoxyuridine and subsequent immunochemical detection. The data obtained confirm and extend our previous data on the localization of DNA-synthesizing cells in the neural retina and expose the pattern of S-phase cell accumulation after retinal detachment for each proliferation-competent cell population. In addition to cells in the growth zone of the retina, Muller glia, microglia, and minor cell population in the vitreal part of interneurons, DNA-synthesizing cells included astrocytes of the optic nerve and cells of its vascular network. Four weeks after detachment, the number of S-phase cells in the growth zone could reach 15–20%, while the above-mentioned DNA-synthesizing cells in the differentiated retina have low reproductive rate and could produce only one generation within the same period.     

肾上腺髓质素在糖尿病视网膜细胞高表达的研究

探讨肾上腺髓质素(Adrenomedullin,AM)在糖尿病视网膜病变(Diabeticretinopathy,DR)发病中的作用。Sprague-Dawley雄性大鼠尾静脉注射链脲佐菌素造模,以血糖测定和尿糖水平测定进行筛选,正常对照组尾静脉注射等量枸橼酸钠缓冲液。成模后继续饲养4周,取出眼球视网膜组织,连续冰冻切片,用免疫组织化学SABC法染色观察各组大鼠视网膜RPE细胞AM的表达情况。糖尿病大鼠成模前,两组动物的体重、血糖和尿糖检测结果间无显著性差异(P>0.05)。成模后4周,糖尿病组与正常组大鼠体重、血糖和尿糖数值差异有显著性意义(P<0.01)。AM在正常组大鼠视网膜节细胞层及内核层均有表达,正常组大鼠视网膜AM的光密度值为76.3±5.3,单位面积AM阳性细胞数为(4.5±1.1)×103/mm2。糖尿病大鼠视网膜内RPE细胞肾上腺髓质素表达显著增强,糖尿病大鼠视网膜RPE细胞AM的光密度值为105.7±11.9,单位面积AM阳性细胞数为(17.9±2.3)×103/mm2。两组相比,差异具有显著性(P<0.01)。AM在糖尿病大鼠视网膜RPE细胞表达量增加很可能是DR发生、发展的重要因素。     

Effects of vitamin E and selenium deficiency on the fatty acid composition of rat retinal tissues

The fatty acid composition of retinal tissues was measured in rats maintained for 26–32 weeks on each of the following diets: a purified basal diet deficient in α-tocopherol and selenium, an identical control diet supplemented with α-tocopherol and selenium, and a commercial laboratory rat chow. Dietary deficiencies of antioxidant nutrients were found to cause a large decrease in total polyunsaturated fatty acids in the retinal pigment epithelium, a small decrease in the retinal rod outer segments, but no change in the whole retina or liver when compared to tissues from animals fed the vitamin E- and selenium-supplemented control diet. The polyunsaturated fatty acid content which we have observed for the retinal pigment epithelium from rats fed commercial lab chow is similar to that which we observed for bovine retinal pigment epithelium.Our results indicate that changes in fatty acid composition are not generalized to all tissues in severely antioxidant-deficient animals, but that changes do occur in some tissues, such as the retinal pigment epithelium, which appears to be particularly sensitive to in vivo lipid peroxidation.     

Effects of vitamin E and selenium deficiency on the fatty acid composition of rat retinal tissues.

The fatty acid composition of retinal tissues was measured in rats maintained for 26--32 weeks on each of the following diets: a purified basal diet deficient in alpha-tocopherol and selenium, an identical control diet supplemented with alpha-tocopherol and selenium, and a commerical laboratory rat chow. Dietary deficiencies of antioxidant nutrients were found to cause a large decrease in total polyunsaturated fatty acids in the retinal pigment epithelium, a small decrease in the retinal rod outer segments, but no change in the whole retina or liver when compared to tissues from animals fed the vitamin E- and selenium-supplemented control diet. The polyunsaturated fatty acid content which we have observed for the retinal pigment epithelium from rats fed commerical lab chow is similar to that which we observed for bovine retinal pigment epithelium. Our results indicate that changes in fatty acid composition are not generalized to all tissues in severely antioxidant-deficient animals, but that changes do occur in some tissues, such as the retinal pigment epithelium, which appears to be particularly sensitive to in vivo lipid peroxidation.     

Regeneration of the retina in the adult newt, Triturus cristatus, following surgical division of the eye by a limbal incision.

The regeneration of a retina in adult Triturus cristatus, following surgical division of the eye by a limbal incision, was studied. In agreement with recent reports, it was found that the regenerating retina is dervied from two sources; the retinal pigment epithelium and the pars ciliaris retinae. However, following a limbal incision, most of the retina appears to be derived from the retinal pigment epithelium in the posterior part of the eye. An unexpected finding of this study was that large cystlike spaces form in the fundal regions of the eye, between the regenerating retina and the retinalpigment epithelium. These spaces appear between five and eight days post-operative and persist long enough (25 to 30 days postoperative) to disrupt the fundal portion of the rengenerating retina and to cause it to lag behind the rest of the regenerate, in its development. The relationship of these observations to the genesis of positional markers in the regenerating retina is discussed.     

Antisera to basal lamina and glial endfeet disturb the normal extension of axons on retina and pigment epithelium basal laminae

In order to determine the role of the extracellular matrix in regulating the directed growth of embryonic neurites, antisera to retina (a-RBL I and II), to pigment epithelium (a-PBL) and to glomerular (a-GBL) basal lamina were probed for an effect on the ordered extension of neurites. In the assays, retina explants from chick and quail were cultured on basal lamina from embryonic chick retina and pigment epithelium either in the presence of anti-basal lamina antisera or in the presence of the corresponding preimmune sera. In the presence of all anti-basal lamina antisera, normal extension of axons was greatly inhibited both on retina and on pigment epithelium basal lamina. The antisera affected the growth pattern and the morphology of the individual axons in two ways: in the presence of a-RBL I the short axons were less directed, developed more and longer side branches, and the lamellipodia of the growth cones were reduced in size compared to axons from control cultures. In the presence of a-RBL II and a-GBL, axons grew slowly out from the explants as very thick bundles, strikingly different from axons in control cultures. The antiserum to pigment epithelium basal lamina induced both strong fasciculation and disorganization of the linear fiber extension, being intermediate between the two types of effects observed after antiserum addition. The results suggest that adhesive matrix molecules in basal laminae have important functions in elongation, fasciculation and in the morphology of growing axons.     

Regeneration of the goldfish retina after exposure to different doses of ouabain

Summary After ouabain-induced degeneration, the retina of the goldfish shows a remarkable regeneration capacity. The extent of the damage depends on the dose of ouabain used in the experiment. After intraocular injection of 7l 10^–5 M ouabain, the ganglion cells and the cells of the inner nuclear layer (INL) become necrotic except for most of the outer horizontal cells, some bipolar cells, and Müller cells. The outer nuclear layer (ONL) and the marginal growth zone at the ora serrata remain intact; the plexiform layers become spongy. The degenerated material is removed by the proliferated reactive macroglial cells and invading macrophages. The degenerated cellular elements of the retina are replaced by mitosis of neuroblasts in the marginal growth zone and of cells in the ONL.After intraocular injection of a 5-fold higher dose of ouabain (7 l 5·10^–5M), the degeneration of the retina proceeds more rapidly and completely. In this experiment, the ONL is destroyed and the receptor outer segments are phagocytosed by cells of the pigment epithelium. In contrast to the regeneration of the amphibian retina, in the goldfish cells of the pigment epithelium do not participate by metaplastic transformation in the regeneration of the retina. The only source of cellular regeneration of the retina after complete destruction of its differentiated neural elements is the marginal growth zone, which is highly resistant to ouabain. The rate of mitoses in this region is strongly increased. The derivatives of these cells spread out tangentially over the entire fundus of the eye in a concentric manner. In this regenerate, mitotic processes continue in a radial direction, resulting in thickening and layering of the new retinal formation.