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.     

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.     

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.     

Cultivation of the retinal pigment epithelium in the cavity of the lentectomized eye of newts

A study was made of proliferative activity and transdifferentiation of the cells of retinal pigment epithelium (RPE) cultivated in the cavity of the lensectomized eye of adult newt. Implantation of the newt RPE together with vascular membrane and scleral coat resulted in the regeneration of retina. In this process the character of changes in the proliferative activity of RPE and differentiation of retinal cells were the same as in the regeneration of retina in situ. RPE implanted with the vascular membrane alone, despite a high level of proliferation during the first ten days of cultivation, no differentiated retina was formed. Possible causes of these differences are discussed, and the comparison is made of the data obtained with those on RPE cultivation in vitro. After lens removal, with RPE implants present in the eye cavity, in addition to the regenerated lens, 2-3 extra lenses and retina were formed from the cells of the inner layer of the recipient's dorsal iris. Also some cases were revealed of lens formation from the cells of ventral iris. With a complete detachment of the recipient's retina (an after-effect of transplantation) a second differentiated retina regenerated in situ from the recipient's RPE cells.     

The retinal pigment epithelium as a gateway for monocyte trafficking into the eye

The choroid plexus epithelium within the brain ventricles orchestrates blood‐derived monocyte entry to the central nervous system under injurious conditions, including when the primary injury site is remote from the brain. Here, we hypothesized that the retinal pigment epithelium (RPE) serves a parallel role, as a gateway for monocyte trafficking to the retina following direct or remote injury. We found elevated expression of genes encoding leukocyte trafficking determinants in mouse RPE as a consequence of retinal glutamate intoxication or optic nerve crush (ONC). Blocking VCAM‐1 after ONC interfered with monocyte infiltration into the retina and resulted in a local pro‐inflammatory cytokine bias. Live imaging of the injured eye showed monocyte accumulation first in the RPE, and subsequently in the retina, and peripheral leukocytes formed close contact with the RPE. Our findings further implied that the ocular milieu can confer monocytes a phenotype advantageous for neuroprotection. These results suggest that the eye utilizes a mechanism of crosstalk with the immune system similar to that of the brain, whereby epithelial barriers serve as gateways for leukocyte entry.     

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 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.     

A tissue-specific inhibitor of the cell proliferation of the retinal pigment epithelium in chick embryos

The salt extract of the nuclear fraction of a homogenate of the retinal pigment epithelium from 12-15 day old chick embryos inhibits selectively the proliferative activity in the retinal pigment epithelium of 3-5 day old embryos. The inhibiting effect of the nuclear factor is found within 20 h after its introduction into the egg. The nuclear extract from the pigment epithelium does not affect the level of proliferation in retina and lens anterior epithelium.     

Fibronectin distribution during the transdifferentiation and proliferation of eye cells after retinal detachment and removal of the crystalline lens in tritons

Expression of fibronectin (Fn) during eye tissue regeneration in the newt after retinal detachment and lens removal was studied by immunohistochemistry. Proliferation of cells involved in eye tissue regeneration was studied using autoradiography. Fn was detected around the cell membranes of undifferentiated proliferating and migrating cells in ciliary body of the iris and growth zone of the retina. Redistribution of Fn was observed in proliferating cells of the dorsal iris participating in lens regeneration. Fn appeared on the apical surface of proliferating redifferentiating pigment epithelium (PE) cells at the periphery of the eye and over the whole surface of proliferating PE cells in the central part of the eye. The Fn level in the Bruch's membrane decreased in the area of transdifferentiating cells detachment from PE layer (in the lower part of the eye) but continued to be stable in the area of PE cell redifferentiation (at the periphery of the eye). The role of Fn is discussed in relation to transdifferentiation, proliferation and migration of cells in the regenerating eye.     

Morphological studies of the choriocapillaries and pigment epithelium of the eye after acute blood loss

Albino mice were bled through the hearts and 1/3 ml of blood withdrawn from each animal. The choriocapillaries and the pigment epithelia of the eyes were selected for observations using the electron microscope. Morphological changes were apparent during the first 72 h after bleeding. Increase of vesicles in both the endothelial cells and the basal infoldings of pigment cells were features. Thickening of basal infoldings, thinning out of Bruch's membrane (with decrease content of fibrillary substances) as well as a transient disappearance of the diaphragms of pores of endothelial cells were also observed. Trypan blue dye was also found to have diffused into the retina in the first 24 h after bleeding. These processes appeared to augment the decreased nutrient supply to the retina after blood loss.     

Effect of experimental arrest of eye growth on the proliferation and polyploidization of the retinal pigment epithelium in rats

Following the lens removal from the left eye of the newborn rats, animals were obtained with one normal (control) and another microphtalmic eye. The animals were sacrificed on the 2nd, 3rd, 5th, 7th and 9th days of postnatal development after four injections of 3H-thymidine during 19 hrs. The number of labelled nuclei and mono- and binuclear cells in the central zone of the eye fundus was counted on the autographs. After the initial increase of the index of labelled nuclei in the operated eyes (on the 2nd, 3rd and 5th days) it fell below the control level (on the 7th and 9th days). The number of binuclear cells in the operated eyes, as well as in the control, attains on the 5th day 50% of the total number of cells and remains at this level up to the end of the experiment, whereas in the control eyes the number of binuclear cells increases up to 60% on the 7th and 80% on the 9th day. The results obtained have shown that in rats the factors of total eye growth participate in the control of proliferative activity and polyploidization of the pigment epithelium cells in the retina.     

3H-thymidine incorporation into the macrophages in the process of eye regeneration in adult tritons]

Changes in the number of labelled macrophages in the regenerating eye cavity of the adult common newts were studied within 2 to 12 days following the injection of 3H-thymidine and removal of retina and lens from the eyes. A small number of labelled macrophages was found in the eye cavity (0,2--5.9%) at all regeneration stages under study upon the pulse 3H-thymidine incorporation. Their number rapidly increased and attained by the end of observation (12 days) 73%. These results suggest that mainly mature non-dividing forms of macrophages which completed the mitotic cycle S-phase in the places of their active reproduction migrate in the eye cavity. The sharp increase of the number of labelled macrophages in the eye cavity is determined by the migration of those macrophages the precursors of which were labelled as a result of both the pulse 3H-thymidine incorporation and reutilization of the labelled precursors of DNA synthesis. New portions of labelled macrophages migrate in the eye cavity within 2 to 4 days.     

Early postnatal proliferation of the retinal pigment epithelium cells in the mouse

A burst of proliferative activity with a maximum of DNA-synthesizing cells on the first day after birth was found in the central zone of the retinal pigment epithelium (RPE) in albino mice from the moment of birth to 9 days of life using radioautography with 3H-thymidine pulse labelling. During this period the central RPE zone, which consists in newborns of mononuclear cells by 95%, gradually transforms in a population with predominance of binuclear cells and fluctuations in the index of labelled nuclei (after the kinetics of cell population in the central RPE zone is similar in mice and rats both in accumulation of binuclear cells and fluctuations in the index of labelled nuclei (after pulse labelling), except that in mice the peak of the index of labelled nuclei is observed earlier than in rats.     

Melanin granule metabolism in the iris and retinal pigment epithelium in adult tritions after completion of eye regeneration

It was concluded that the newly synthesized melanin granules were replaced in the pigmented tissues of the newt eye on the basis of redistribution of the cells of pigment epithelium of retina and iris labelled by 3H-DOPA 2.5 and 6.5 months after the isotope injection. The replacement of melanin granules and, correspondingly, melanin synthesis proceed more actively in the peripheral zones of the pigment epithelium of retina. The depigmentation of cells preceding the melanin synthesis appears to be realized with the participation of macrophages.