Functional anatomy of the photoreceptor and second-order cell mosaics in the retina of Xenopus laevis

Mosaics of photoreceptors, and horizontal and bipolar cells of the Xenopus laevis retina were studied in whole-mount preparations applying lectin-cytochemical, immunocytochemical and intracellular labeling techniques. The combined density of all photoreceptor types was about 13700/mm2, of which rods represented 53%. Of the cones, the large long-wavelength-sensitive (86% of all cones) and the miniature ultraviolet-wavelength-sensitive (4%) ones could be labeled with peanut agglutinin, whereas the large short-wavelength-sensitive (10%) cones remained unlabeled. There were no significant regional differences in photoreceptor distribution. Bipolar cells were selectively labeled with antibodies against calretinin. Their density was between 4000 and 6000 cells/cm2, with slightly elevated numbers in the superior nasal quadrant. Two types of horizontal cell were injected intracellularly. The luminosity-type cells were more frequent (approximately 1000 cells/mm2) than the chromaticity cells (approximately 450 cells/mm2). The dendritic field size of the latter cell type was threefold bigger than that of the luminosity cells. The coverage factors were estimated to be 3.3 for the luminosity cells and 5.2 for the chromaticity cells. The luminosity cells contacted all photoreceptor types, whereas chromatic horizontal cells received their inputs from the short-wavelength-sensitive cones and from some, but not all, rods. Luminosity cells encounter about 50-60 potential synaptic partners within their dendritic fields, whereas chromatic horizontal cells only about 20. Chromatic horizontal cells form multiple synaptic contacts with the short-wavelength-sensitive cones. The results indicate that the overall photoreceptor to bipolar and bipolar to ganglion cell convergence in Xenopus retina is similar to that in the central retinal specialized regions of mammals, predicting comparable spatial resolutions.     

Ultrastructure of mesangial and juxtaglomerular cells in the kidney of a hibernator

Summary The mesangial and juxtaglomerular cells were studied in kidneys of hibernating and non-hibernating ground squirrels, Citellus tridecemlineatus. In the hibernating animal, as compared with the non-hibernating, the mesangial cells show signs of increased activity. The cells are relatively larger, and numerous vacuoles appear in the cytoplasm. The juxtaglomerular cells also show signs of hyperactivity. Secretion droplets, mitochondria and free ribosomes increase in number and the endoplasmic reticulum becomes dilated. It is postulated that during hibernation, increased activity of mesangial cells slows glomerular filtration by absorption of filtrate into the mesangial matrix, and increased activity of juxtaglomerular cells results in increased renin secretion which in turn may stimulate hypersecretion of aldosterone to conserve sodium for water balance mechanisms necessary at the time.Supported by Research Grant A-2027 from the National Institute of Arthritis and Metabolic Diseases, National Institutes of Health.We wish to gratefully acknowledge the technical assistance of Mary Gandia.     

Development of the blood-brain barrier to horseradish peroxidase in the chick embryo

Summary The development of the adrenergic sympathetic innervation of the rabbit choroid plexus system was studied prenatally and up to two months after birth by a combination of fluorescence histochemistry (formaldehyde and glyoxylic acid methods) and quantitative enzymatic determinations of noradrenaline. The first signs of adrenergic nerves are found in the plexus of the third ventricle within the first day after birth. Fluorescent fibres subsequently appear in the choroid plexuses of the lateral ventricles (five days post partum) and the fourth ventricle (two weeks post partum). During the following development nerve fibres grow along blood vessels to form a plexus located between small vessels and the overlying epithelium. The nerve plexus, with varicose axon terminals, is fully developed at three weeks post partum, and maturation is then established by an increase in the number of terminals within the network of axons. There is a good agreement between (a) the development of the fluorescent nerves and histochemically visible adrenergic innervation, and (b) the tissue level of noradrenaline in the various choroid plexuses. Against the background of available information on the development of the secretory functions in choroid plexus, it is concluded that possibilities for a sympathetic neurogenic influence on the formation of cerebrospinal fluid exist already a few weeks after birth.     

The morphology of the juxtaglomerular apparatus in the toad,Bufo bufo

Summary In a light microscopic study the course of the tubule in the kidney of the toadBufo bufo was studied. The distal tubule returning to the glomerulus of its origin appears to enclose the afferent arteriole. In that area, from which a three dimensional graphic reconstruction is made, there is an intimate contact between tubular and vascular wall. The latter contains granulated media cells. In the part of the tubule adjacent to the afferent arteriole an accumulation of nuclei is present. It is suggested that this structure is similar to the macula densa of the mammalian juxtaglomerular apparatus. The functional significance of a stricture in the tubule distally from the macula densa-like structure is discussed.The authors wish to thank Mrs. Ineke van de Mee-Wienen and Miss Ans Rouwenhorst for their technical assistance and Mr. J. J. M. de Bekker for the realization of the graphic reconstruction.     

Studies on the juxtaglomerular apparatus VI. Sympathetic innervation,catecholamines and the renin-angiotensin-system in rats and tree-shrews (Tupaia belangeri)

Summary It has previously been reported that the primitive primate Tupaia belangeri develops a renal failure when exposed to psychosocial stress. In order to learn if this high susceptibility to stress of the Tupaia kidney can be correlated with morphological and functional parameters of the Juxtaglomerular apparatus (JGA) and the renin-angiotensin system, comparative experiments were performed on Tupaia and rat.Our results reveal an outstandingly high potency of the JGA and the renin-angiotensin system in Tupaia as evident from the following findings: The Tupaia JGA contains a great number of epithelioid cells abounding in renin granules (electron microscopy). The renin content of the Tupaia kidney is considerably higher than in the rat (radio-immunoassay). The sympathetic innervation of the kidney and especially of the JGA is abundant in Tupaia (fluorescence and electron microscopy). Catecholamine contents of the kidney and other organs are significantly higher in Tupaia than in rats (spectrophotofluorometry).Our results support the previously developed concept of a potent intrarenal neuroendocrine interaction at the JGA level favouring, under certain conditions of social stress, the development of acute renal failure in Tupaia belangeri.The studies were supported by the German Research Foundation within the SFB90 Cardiovasculäres System     

Distribution of indolealkylamine nerve terminals in the ventricles of the rat brain

Summary The density, distribution and the pharmacologically produced changes of a formaldehyde-induced yellow supra-ependymal fluorescence in the lateral and third ventricles and in the aqueduct of the rat brain are described. The fluorescence consists of small spots or a thin spotted layer just above the ependymal cells. The highest fluorescence densities occur in the areas near the tela chorioidea of the third ventricle and in the interventricular foramen. A high to moderate density occurs in the lateral ventricles and in the aqueduct. Little or no fluorescence is seen above the hypothalamic areas bordering the third ventricle. The fluorescence rapidly fades upon irradiation with violet-blue light, disappears after treatment of the rats with reserpine or p-chlorophenylalanine, is intensified after nialamide or reserpine + nialamide, and does not change after -methyl-p-tyrosine.Electron microscopically supra-ependymal varicose nerves containing small (500 Å) and large (1000 Å) vesicles in the varicosities are observed in areas with supra-ependymal yellow fluorescence. A fine-structural cytochemical technique reveals the presence of a specific, chromaffine, reserpine-sensitive electron dense core in the small and large vesicles.The conclusion is drawn that a characteristically distributed population of supra-ependymal efferent nerve terminals containing an indolealkylamine, most probably 5-hydroxytryptamine, exists in the cerebral ventricles of the rat brain.The skilful assistance of Mr. R. Wybrecht and Mrs. G. Gschwind is gratefully acknowledged.     

The juxtaglomerular apparatus in the mesonephros of Newt (Triturus cristatus)

Summary 1)As in mammals, the juxtaglomerular apparatus of the Newt (Triturus cristatus) is composed by cells of the media of the afferent glomerular arteriole and by cells of the intermediary tubule. 2) The cells of the media of the glomerular arteriole are of two different types: granular and agranular cells. 3) The intermediary tubule is formed by dark and light cells. 4) Part of interrenal body is located close to glomerular arteriole and intermediary tubule.This work was supported by grant of Consiglio Nazionale delle Ricerche of Italy (C.N.R.) N. 115/815/04677.     

Vitamin A receptors of the retina differential binding in light and dark

Vitamin A receptors of the retina appear to be differentially extractable in light and in dark suggesting that they could function as inter- or intra-cellular transport vehicles in the visual cycle.     

Detection of light intensity in the frog retina: evidence from dark and light adaptation

The frog retina was stimulated with light flashes homogeneous in space but not time. The time heterogeneity of stimulation was created by abrupt change of a referent stimulus for a stimulus with different luminance. Such changes form a time pattern, as well as sharp borders of luminance between the neighbor areas of the visual field form a spatial pattern. The electroretinogram recorded in response to presentation of a triad of stimuli: the onset of a short flash of homogeneous light after long dark (or light) adaptation of a retina, brief sequence of the referent and test light flashes varied in luminance, and the offset, with returning to the initial level of adaptation. It was shown that responses of the retina under conditions of time heterogeneity of stimulation could be divided in two types as well as under conditions of spatial heterogeneity. Such a dual change in amplitude confirms our earlier hypothesis on the existence of two mechanisms of luminance coding in the frog retina. The first mechanism encodes power characteristics of light, it forms the information on the absolute level of the environmental luminance. Its activity is connected basically with receptors and cells of the external plexiform layer of the frog's retina. It is responsible for the b-wave of the electroretinogram. The other mechanism associated with RERG is based on a vector code of stimuli. This mechanism forms the information on spatial and time differentiation of the light flow in the visual field and is connected basically with cells of the internal plexiform layer. The results suggest that the frog retina has the individual mechanism for time pattern detection, distinguishing it from the homogeneous light flow in a similar way as in case of spatial light pattern detection. It is possible that the first mechanism is responsible for the detection of any new stimulus in general, irrespective of its specificity, whereas the second mechanism serves for the measurement of suprathreshold differences between stimuli.     

Fine structure and fluorescence morphology of adrenergic nerves after 6-hydroxydopamine in vivo and in vitro

Summary In parallel fine structural, fluorescence histochemical and biochemical experiments the effect of 6-OH-DA administered in vivo and in vitro on the adrenergic nerves in the mouse iris was studied. As seen in the electron microscope, in vivo administration of 6-OH-DA causes a selective, rapid degeneration of the adrenergic axon terminals similar to that found after axotomy, whereas the cholinergic nerves are unaffected at all time intervals studied. Already 1 hr after the injection of 6-OH-DA the axonal enlargements swell and the size of the dense core of the granular vesicles is strongly reduced. Since the NA stores are almost completely depleted at this time interval, the small core present may be due to a reaction between 6-OH-DA and the fixative. From 2–4 hr after the injection increasing numbers of axonal enlargements with a high electron density are observed in the Schwann cell cytoplasm, which later are digested and completely absent about 48–72 hr after the 6-OH-DA injection. During the following weeks adrenergic axons reappear. This time course of degeneration obtained is considerably faster than that seen after axotomy in other studies. After incubation in 6-OH-DA containing media similar changes were observed in the axonal enlargements, starting already after 30 min of incubation. At this time-point there is a considerable reduction of endogenous NA and a severe damage of the membrane pump uptake mechanism. Incubation with 6-OH-DA and subsequent rinsing for 2 hr caused marked changes, including partly swelling of axons and partly shrinking of the axons into electron dense bodies.The fluorescence histochemical and biochemical results are in good agreement with the ultrastructural studies demonstrating a rapid loss of NA from the adrenergic nerve terminals and main axons and a long lasting depletion of the NA, with a gradual recovery to 75% 6 weeks after the injection.The investigation has been supported by research grants from the Swedish Medical Research Council (14X-2295, 14X-2887 and 04X-3881) Karolinska Institutet, Magnus Bergvalls and Carl-Berthel Nathorst Stiftelser. For generous supplies of drugs we are indebted to the following companies: AB Hässle (6-OH-DA, through Dr H. Corrodi), Pfizer (Niamid^®), Ciba (Serpasil^®). The skilful technical assistance of Miss Bodil Flock, Mrs Waltraut Hiort and Mrs Eva Lindqvist is gratefully acknowledged.     

A comparative study of the glomerular peripolar cell and the renin-secreting cell in twelve mammalian species

The peripolar cell is a glomerular epithelial cell situated within Bowman's capsule at its vascular pole. It is believed to be a secretory cell which forms part of the juxtaglomerular apparatus. Scanning electron microscopy was used to perform a comparative study of the morphology and number of peripolar cells in twelve mammalian species. The number of renin-secreting cells in kidney sections stained by renin antibodies and immunocytochemistry was counted. There was a marked inter-species variation in the number, size and appearance of peripolar cells. They were largest and most abundant in sheep and goat and fewest in dog, cow and human. There was no correlation between the numbers of peripolar cells and renin-secreting cells. This does not support the view that the peripolar cell is part of the juxtaglomerular apparatus.     

Fluorescence histochemical study on regional differences in the sympathetic nerve supply of the choroid plexus from various laboratory animals

Summary The adrenergic nerve supply of the choroid plexus in all four ventricles was studied by the Falck-Hillarp histofluorescence technique in nine different species, and the noradrenaline concentration in whole plexus tissue was determined by a radioenzymatic method. The nerve density was usually in the order: third > lateral > fourth ventricular plexuses. Plexuses of the pig and cat possessed the largest number of nerves; the innervation was intermediary in the baboon, guinea-pig, rat, rabbit and hamster, whereas only few fluorescent nerves were found in the cow and mouse plexuses. Sympathetic denervation showed an ipsilateral supply from the superior cervical ganglia to the lateral plexuses and a mixed contribution to the midline plexuses. The total noradrenaline concentration varied between 0.10 and 0.73 ng per mg protein.     

Immunocytochemical localization of taurine in the fish retina under light and dark adaptations

Summary. Previously we have observed the lack of immunoreactivity of taurine in the rod outer segments from light-adapted fish, such as the ayu Plecoglossus altivelis and lefteye flounder Paralichthys olivaceus. This finding prompted us to investigate if there is a difference in the immunocytochemical localization of taurine in the rod outer segments between the dark- and light-adapted states. In the retinas of the glass eel Anguilla japonica and the young goldfish Carassius auratus, extremely intense immunostaining was found in the cone outer segments, rod inner segments, photoreceptor supranuclear region and outer plexiform layer. The rod outer segments were not immunostained in the light-adapted state, while they were intensely immunostained in the dark-adapted state. Consequently, it was suggested that the lack of immunoreactivity in the rod outer segment may depend on light stimulation. In addition, the conspicuous immunocytochemical localization of taurine was discussed with the possible functional roles for taurine in the fish retina. Received January 25, 2000/Accepted January 31, 2000     

Vitamin A receptors of the retina: differential binding in light and dark

Vitamin A receptors of the retina appear to be differentially extractable in light and in dark suggesting that they could function as inter- or intra-cellular transport vehicles in the visual cycle.     

Morphometrical analysis with the light and electron microscope of the kidney of the anadromous three-spined stickleback Gasterosteus aculeatus,form trachurus,from fresh water and from sea water

Summary The renal corpuscles, juxtaglomerular cells, nephronic tubules, and ureters of female sticklebacks were studied.In fresh water fishes, the diameter of the renal corpuscles is similar to that found in fishes obtained from the sea, whereas the diameter of the glomeruli and the nuclei of the podocytes are slightly larger. Furthermore, in fresh water the podocytes produce secretory globules, which show some of the histochemical characteristics of the substance constituting the glomerular basement membrane. In sea water animals, secretory phenomena are absent. Mesangial cells, which are scarce in fresh water fishes, are numerous in marine animals. Similarly, juxtaglomerular cells, hard to find in fresh water fishes, are prominent in specimens from the sea.The development of the epithelia of the nephronic tubules and of the ureters is better in fresh water. The cells and the nuclei are larger. In the first proximal tubule, which is involved in the reabsorption and the digestion—by lysosomes—of macromolecules, micropinocytosis vermiformis occurs.The results of stereological analysis of the fractional volume of the mitochondria and of the relative extent of the infoldings of the basal cell membranes—the location of the ion transport mechanisms—in the three different segments of the nephronic tubule and in the ureter, point to the existence of a structural gradient along the kidney tubules. In fresh water fishes the mitochondrial volume, per surface unit of basal cell membrane, is low in the first proximal segment and is increasingly higher in the other segments, while the highest value is found in the ureter. This structural gradient may be functionally linked with osmotic and ionic gradients, which exist in the renal tubules in fresh water. In the kidney tubules of marine sticklebacks, which do not show a major osmotic gradient, the structural gradient is small.The results are discussed on the basis of the known physiological differences in the function of the kidney of euryhaline teleosts in fresh water and in the sea.The author is indebted to Mr. J. Cappon and Mr. M. Veenhuis (Laboratory for Ultrastructural Biology, University of Groningen) for technical assistance.     

Histochemistry of the juxtaglomerular apparatus in the toad Bufo bufo

Summary An investigation regarding the question of whether there exists a macula densa as part of the juxtaglomerular apparatus in the kidney of amphibians has been carried out. With the aid of a histochemical reaction for glucose-6-phosphate dehydrogenase activity, the presence of a macula densa zone as a specialized part of the distal tubule in the toad Bufo bufo was demonstrated. The functional significance of the high glucose-6-phosphate dehydrogenase activity in the macula densa cells is discussed.     

The development of a hypothalamic monoaminergic system for the regulation of the pars intermedia activity in Xenopus laevis

Summary In Xenopus laevis the development of hypothalamic monoaminergic cells was studied in relation to adaptation to background colour. The first melanophores appear at stage 33/34 (normal table of Nieuwkoop and Faber, 1956), gradually increasing in number. The melanine granules are dispersed throughout the cell, irrespective of the background colour. The dispersion apparently is caused by MSH released by the developing pars intermedia cells. Between stage 39 and stage 41, larvae placed on a white background changed colour from black to white due to aggregation of the melanine granules within the melanophores. With Falck's method for demonstrating monoamines, a small number of fluorescent cells was observed in the hypothalamus simultaneously with the first background-dependent colour change. These cells were arranged in a paired nucleus, bordering the third ventricle. Initially, the nucleus extends from 50 microns behind the optic chiasma to the lateral dilatations of the third ventricle; 8–10 hours later, similar cells were also found at the lateral dilatations and in the dorso-lateral part of the infundibular lobe. The cells have apical processes protruding in the ventricular lumen. Fluorescent axons, originating from the cells, were occasionally observed. Considering the above-mentioned results in combination with the electron microscopical data of Nyholm (1972), it is concluded that the MSH producing cells are under monoaminergic nervous control from the beginning of background colour adaptation.This paper was presented at the Fourth Joint Meeting of the Dutch and British Societies for Endocrinology (Terlou et al., 1973).The authors wish to thank Prof. Dr. P.G.W.J. van Oordt for his stimulating interest and helpful suggestions. The photographs were made by Mr. H. van Kooten and his co-workers.