Structural studies of the adrenal zona glomerulosa and renal juxtaglomerular apparatus in pregnant sheep

The ultrastructural changes in the adrenal zona glomerulosa and renal juxtaglomerular apparatus have been examined during normal pregnancy in sheep. As pregnancy progressed, increasing numbers of cells in the adrenal zona glomerulosa displayed mitochondria with straight tubular "rod-like" structures replacing their normal lamelliform cristae; groups of cells showing these mitochondrial changes were predominantly located in the middle and superficial regions of the zona glomerulosa, but at all stages remained interspersed with cells with apparently normal mitochondria. In the same animals, the renal juxtaglomerular index was raised, reflecting an increase in renin storage, and juxtaglomerular myoepithelioid cells showed increased numbers of cytoplasmic granules, but no apparent increase in granular endoplasmic reticulum and Golgi profiles; there were no distinguishing morphological changes in juxtaglomerular peripolar cells. These findings provide morphologic evidence of stimulation of the adrenal zona glomerulosa in association with increased juxtaglomerular renin storage during pregnancy. The mitochondrial changes observed in an increasing proportion of cells in the zona glomerulosa closely resemble those seen in sodium-depleted animals, and may reflect the altered steroidogenic capacity of the adrenal gland in pregnant sheep. The finding of groups of cells displaying altered mitochondria lying next to cells with normal mitochondria suggests the presence of cells with different sensitivities to stimuli for aldosterone production or may indicate the presence of different cell types in the zona glomerulosa responding to different stimuli.     

Morphogenesis of the renal juxtaglomerular apparatus and peripolar cells in the sheep

Summary The morphogenesis of the juxtaglomerular apparatus and peripolar cells was studied in the metanephros of fetal sheep (from 24 to 147 days of gestation) using light and electron microscopy. The first juxtaglomerular apparatus was detected at 45 days of gestation, following constriction of the edges of Bowman's capsule and formation of the vascular pole of the renal corpuscle. Mesenchymal cells gave rise to lacis cells and to smooth muscle and epithelioid cells of the juxtaglomerular arterioles. Epithelioid cells developed only sparse cytoplasmic granulation, first detectable at 92 days. The macula densa developed from tubular cells at the junction of the middle and upper limbs of the S-shaped body of the developing nephron. Peripolar cells arose from epithelial cells in the lower limb of the S-shaped body, at the constricting edges of Bowman's capsule, and formed a cuff around the origin of the glomerular tuft. Cytoplasmic granules were first detected in peripolar cells at 53 days, and remained more prominent than epithelioid cell granulation throughout gestation.     

Peripolar cell hypertrophy in the renal juxtaglomerular region of newborn sheep

Summary In the renal juxtaglomerular region of newborn sheep, it was found that glomerular peripolar cells and their granules were very much larger than those found in fetal lambs or adult sheep. Similar peripolar cell hypertrophy was triggered in fetal lambs treated in utero with intraperitoneal injections of dexamethasone. Ultrastructurally, granules of peripolar cells from newborn lambs resembled closely the enlarged zymogen granules described in the pancreas of newborn rats. Such peripolar cell hypertrophy may reflect a functional adaptation of the kidney to immediate postnatal life.     

Ultrastructural studies on the secretory process in the epithelioid cells of the juxtaglomerular apparatus

The epithelioid cells of the juxtaglomerular apparatus have been studied with respect to the release mechanism of the secretory granules. Invaginations of the plasma membrane into the interior of the epithelioid cells are interpreted as stages before or after an exocytotic process. Granules are sometimes observed in close contact with the plasma membrane, and material with electron density similar to that of the granules can also be observed in the invaginations. These morphological features suggest that the granular material of the epithelioid cells is extruded into the texture of the basal lamina. Furthermore, a dense network of microtubules and microfilaments is described and the functional role of this system in exocytosis is discussed.     

Correlation between juxtaglomerular index, kidney renin content and plasma renin concentration in the rat.

The correlation between juxtaglomerular index, kidney renin content, and plasma renin concentration has been investigated in rats. The results indicate that renin exists in two forms. When determining the renin content of the kidney, the renin actually present in the modified smooth muscle cells of the juxtaglomerular apparatus is measured; this is called bound renin. The amount of bound renin is derived from the total of granular and subgranular renin in the modified smooth muscle cells. Since JGI and KRCont show a significant positive correlation in untreated adult rats, it is assumed that in such animals the ratio of granular and subgranular renin is constant. Since no correlation could be demonstrated between kidney renin content and PRC in untreated adult rats, and JGI and KRCont did not change parallel with the increase of PRC in numerous experimental conditions, it is assumed that part of the renin synthetized in the JG cells is secreted directly, without passing the process of condensation into membrane bound granules. This mobile renin does not significantly affect the renin content and the JGI of the kidney. Under physiological circumstances, most of the produced renin seems to mature to granules in the modified smooth muscle cells before being secreted. When renin production and release increased, maturation to granules may be inhibited, a significant part of the produced renin released by direct secretion, and the subgranular, immature renin may also be secreted.     

Selective and Contrast Staining of Granules in the Juxtaglomerular Complex

A review of four methods for staining juxtaglomerular cells revealed that one method may be highly selective for juxtaglomerular granules (JGG) whereas another may stain general cytological features in addition to the granules. The kind of research undertaken would determine the particular method to be used. Harada's (1952) method, which uses a 1:400,000 solution of gentian violet is recommended as the highly selective stain, and the Masson-Goldner stain after a Ciaccio type fixation is best for cytological detail combined with clear tinctorial contrast of the JGG.     

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.     

Studies on the juxtaglomerular apparatus

The juxtaglomerular apparatus of the rat was studied after freeze-fracturing with special respect to intercellular junctions. It was found that juxtaglomerular granulated cells of the vas afferens are interconnected by gap junctions to adjacent cells (granulated cells, possibly also smooth muscle cells). Gap junctions have also been found on the surface of lacis cells and mesangial cells. It is therefore concluded that these cells of the juxtaglomerular apparatus and the glomerulus--granulated cells (possibly also smooth muscle cells) of the vas afferens, lacis cells and mesangium cells--form a functional system reacting in a coordinated manner to physiological stimuli.     

The Golgi apparatus in epidermal mucoid and ellipsoid-vacuolate cells ofAeolidia papillosa andCoryphella rufibranchialis (Nudibranchia)

Summary The epidermal cell layer of the apical end of the ceras was investigated in two species of aeolid nudibranchs. Based on cellular inclusions, mostly two cell types were found: mucoid and ellipsoid-vacuolate cells. Mucoid cells ofCoryphella rufibranchialis have large heterogeneous and fibrillar secretory granules whereas inAeolidia papillosa, the granules are homogeneous, but vary in electron density from one cell to another. Ellipsoid-vacuolate cells contained large quantities of small vacuoles with an included ellipsoidal structure. Both species contained very numerous ellipsoid-vacuolate cells. Secretory granules and ellipsoid-vacuoles appear to arise from the Golgi apparatus and these contents stain with PAS, suggesting a polysaccharide composition. Mucoid cells contained both secretory granules and ellipsoid-vacuoles which may arise from the same Golgi apparatus.     

A simple method of staining juxtaglomerular granules in the rat kidney for high resolution light microscopy

A simple method for the demonstration of juxtaglomerular granules in Epon embedded semithin (0.5-1 micrometer) sections has been developed as follows: sections are prepared as for routine electron microscopy except that before dehydration, the tissues are immersed in 0.5% uranyl acetate in Veronal acetate buffer (pH 5.0) overnight at room temperature. After sectioning on an ultramicrotome, the semithin sections are briefly stained with toluidine blue-pyronin Y. After staining, the section is rinsed in running tap water and then air dried. Under a light microscope with a 40 X or a 100 X objective, the juxtaglomerular granules appear as deep purple particles and are thus easily separated from the bluish cytoplasm of the juxtaglomerular cells. Cellular organelles in other cells of the kidney were also clearly stained and their fine structure distinguishable.     

Occurence and cytodifferentiation of mucopolysaccharide secreting cells in the pancreas of children with nesidioblastosis.

Large numbers of mucopolysaccharide secreting cells were found in the pancreatic tissue of children with nesidioblastosis. Ultrastructural studies showed that mucus cells contained secretion granules and a characteristic smooth endoplasmic reticulum composed of an array of anastomosed tubules. The periodic acid - thiocarbohydrazide - silver reaction demonstrated the presence of glycogen in the hyaloplasm and of polysaccharides in secretion granules, the Golgi apparatus and in vesicles. A hypothesis is proposed, according to which mucus cells differentiate from a pancreatic stem cell common to both endocrine and exocrine tissues, through a mitochondria-rich intermediate cell stage.     

Ultrastructural and cytochemical studies of acid phosphatase and trimetaphosphatase in rat peritoneal mast cells developing in vivo

Summary The ultrastructural and cytochemical features of peritoneal mast cells of the rat were studied. Immature mast cells show specific cytoplasmic granules of different sizes, the smaller ones localized in the Golgi region. The rough endoplasmic reticulum and Golgi apparatus are well developed, and mitochondria are numerous. Nuclei show deep indentations. Acid phosphatase is present in the Golgi saccules, in GERL (Golgi apparatus-endoplasmic reticulumlysosome) and in some small granules. It is not present in mature granules. Trimetaphosphatase is present in the Golgi saccules, in GERL, in most immature granules and in some mature granules. These enzymes appear to be transported and packaged into granules by the Golgi apparatus, suggesting that the specific mast cell granules may be a form of lysosome. The results of this study are consistent with the hypothesis that peritoneal mast cells may be derived from macrophage-like precursors.     

A Simple Method of Staining Juxtaglomerular Granules in the Rat Kidney for High Resolution Light Microscopy

A simple method for the demonstration of juxtaglomerular granules in Epon embedded semithin (0.5-1 μm) sections has been developed as follows: sections are prepared as for routine electron microscopy except that before dehydration, the tissues are immersed in 0.5% uranyl acetate in Veronal acetate buffer (pH 5.0) overnight at room temperature. After sectioning on an ultramicro-tome, the semithin sections are briefly stained with toluidine blue-pyronin Y. After staining, the section is rinsed in running tap water and then air dried. Under a light microscope with a 40 × or a 100 × objective, the juxtaglomerular granules appear as deep purple particles and are thus easily separated from the bluish cytoplasm of the juxtaglomerular cells. Cellular organelles in other cells of the kidney were also clearly stained and their fine structure distinguishable.     

Quinacrine affinity of endocrine cell systems containing dense core vesicles as visualized by fluorescence microscopy

Summary Intravenous injections of low amounts of the fluorescent antimalarial acridine derivative quinacrine into rats and mice lead to selective high affinity binding of the drug, which can be visualized by fluorescence microscopy, to several hormone-producing cell systems. Injection of 1 mg/kg causes strong drug accumulation in the granules of renin-producing juxtaglomerular cells of the kidney and in several types of cells of the pancreatic islets, and a moderate binding to parafollicular cells in the thyroid gland, chromaffin cells of the adrenal medulla, several gastrointestinal cell systems including APUD cells, cells of the anterior pituitary gland, neurosecretory neurons and mast cells. These different cell systems all have large dense-core storage granules.The present results, together with our earlier finding of a population of gastrointestinal nerve fibers which demonstrate a similar selective high affinity binding of quinacrine might all be explained by a binding of quinacrine to large dense-core storage granules, since such granules are known to be present also in certain gastrointestinal nerve fibers. This is further supported by the finding that endocrine cell systems lacking such granules, such as steroid producing cells in the adrenal cortex and testis, do not accumulate quinacrine. Peptide storage, possibly mediated by or accompanied by purines such as ATP within the granules or an acidic intragranular pH constitute possible binding mechanisms.     

Morphological and histochemical studies on a PAS-positive granular leukocyte in blood and connective tissues of Catostomus commersonii Lacépède (teleostei:pisces).

This study was undertaken to identify an ubiquitous granular leukocyte found in Catostomus commersonni Lacépède. The cell contains large, numerous, strongly PAS-positive cytoplasmic granules, an eccentric nucleus and prominent, persistent juxtanuclear space. It develops in the hemopoietic tissue of the kidney, and mature cells are found not only in kidney and peripheral blood but also in areas of connective tissue where mast cells are usually located. Electron microscopy confirms the presence of a large Golgi apparatus, unlamellated cytoplasmic granules and extensive rough-surfaced endoplasmic reticulum. Histochemical studies show that the cytoplasmic granules are alcianophobic, non-metachromatic and unstained by acridine orange. Histamine is detectable spectrophotometrically in kidney tissue, but the PAS-positive granular leukocyte does not consistently degranulate after treatment with histamine liberator 48/80. The authors suggest that while the PAS-positive granular leukocyte is not identical with classical basophils/mast cells, which are absent in C. commersonnii, it may represent an evolutionary precursor of these cells.     

Synthesis and migration of proteins and glycoproteins in juxtaglomerular cells of sodium-deficient rats

Summary Sections of juxtaglomerular cells from sodium-deficient rats were subjected to radioautography after a single intravenous injection of L-tyrosine3,5 ³H or of L-fucose ³H to identify the sites of synthesis and to follow the migration of newly-formed proteins and glycoproteins. As early as 2 min after injection of L-tyrosine ³H, the label was highest in the rough endoplasmic reticulum (RER), suggesting that cisternal ribosomes are sites of protein synthesis. By 60 min, much of the label had migrated from the RER to the Golgi complex. Some radioactivity was already present over specific granules by 2 min but a peak was reached at 4h. The label over myofilaments was evident at all time intervals, indicating a certain incorporation of tyrosine into their contractile and/or structural proteins. The label over the cell surface peaked at 4h. After injection of L-fucose ³H, there was an early and important relative specific radioactivity in the Golgi complex at 5 min with a peak at 20 min and a decrease thereafter. The label increased slightly but steadily in secretory granules and cell surface to reach maxima at 4 h. A low level of radioactivity was recorded in mitochondria at all time intervals. After injection of both fucose ³H and tyrosine ³H, the label was detected at relatively low levels in the cytosol. These results suggest that renin, as the major secretory glycoprotein of juxtaglomerular cells, is synthetized in the RER, packaged in the Golgi complex and found relatively rapidly in newly-formed secretory granules. Part of the fucose and tyrosine labels is also associated with the thick cell coat of these cells.Recipient of a summer fellowship from the Kidney Foundation of Canada     

The ultrastructural changes in the glomeruli and juxtaglomerular apparatus at different periods of endotoxic shock]

It is shown that after endotoxin injection the ultrastructural changes in the glomeruli can favour development of the acute renal insufficiency. In the initial and intermediate periods of the endotoxin shock the granular and agranular forms of juxtaglomerular cells hyperfunction, respectively, are revealed as well as an increase of renin activity in plasma. At the stage of the late endotoxemia ultrastructural alterations are stabilized. The juxtaglomerular cells synthesize and accumulate secretory granules, but renin activity in plasma decreases almost to the initial level.     

Fine structure of nerve cells in a planarian

The fine structure of the nerve cell types in the white planarian Procotyla fluviatilis were described. Ganglion cells comprise the major portion of the brain. These cells are irregular in shape with several cytoplasmic processes and contain ribosomes, a sparse endoplasmic reticulum, microtubules, lysosomes, and a Golgi apparatus with numerous small vesicles. Granule-containing cells are situated in the peripheral regions of the brain and along the nerve cords. These cells contain ribosomes, rough-surfaced endoplasmic reticulum and a Golgi apparatus with associated dense granules. The granules occupy most of the cytoplasm and are ～ 750A in diameter with moderately dense contents, ～ 750A with opaque contents, and ～ 1000A with contents of medium density. These granules are similar to those in the nervous systems of higher animals that contain epinephrine, norepinephrine, and neurosecretory substance, respectively. Each cell contains predominantly one type of granule although there is some intermixing of granules and intermediate types between the three most abundant granules. Small clear vesicles, resembling cholinergic synaptic vesicles, and all types of dense granules occur in the neuropil and within nerve endings.     

Localization of components of the renin-angiotensin system within the kidney

Evidence accumulates that intrarenal angiotensin II (AngII) plays important roles in the regulation of renal functions. To determine the mechanism and site of the intrarenal formation of AngII, we employed histochemical and cell biological methods. Immunohistochemical studies have revealed the coexistence of renin and AngII in juxtaglomerular (JG) cells, and electron microscopic studies and subcellular organelle fractionation have demonstrated the colocalization of renin and angiotensin in renin granules. The mechanism of this AngII accumulation has been investigated. Immunoreactive angiotensin I (AngI) appeared slowly in JG cells after prolonged administration of angiotensin-converting enzyme (ACE) inhibitors. Cloned and cultured renin-containing cells derived from rat kidney were also found to contain renin, ACE, and AngI and AngII. The subcellular fractionation of renin granules from rat kidney homogenate demonstrated AngI and AngII in the renin granule fractions. These findings suggest the formation of both angiotensins in JG cells. To study the release of AngII, we determined the presence of the angiotensins in renal lymph. Renin was found in renal lymph at a high concentration. Both AngI and AngII were also present in renal lymph in moderate concentrations. It is possible that AngII in the interstitial fluid may play a role in the regulation of renal functions. From these results it has been concluded that AngII is formed in JG cells in the kidney and is secreted with renin into interstitial fluid and plasma, and that AngII formed in the kidney cells may participate in various renal functions.     

Identification of renal cathepsin B as a human prorenin-processing enzyme

Prorenin, the inactive biosynthetic precursor of renin, is proteolytically cleaved in the renal juxtaglomerular cells to renin. The activity of renin is rate-limiting for generation of angiotensin II in the circulation. We identified a renal thiol protease which activates and accurately cleaves the 43-amino acid prosegment of human recombinant prorenin. In the current studies, 6.5 mg of this protease was purified from human renal cortex using a three-step procedure dependent upon Leu-Leu-arginyl affinity chromatography. This represented an overall 766-fold purification and resulted in three protein bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis of molecular weights 30,000, 25,000, and 24,000. All three bands cross-reacted with an anti-human liver cathepsin B antibody upon immunoblot analysis; electrolution of each band and amino-terminal sequence analysis confirmed that the Mr 30,000 protein was mature cathepsin B and the Mr 25,000 and 24,000 bands were cathepsin B subunits. The pH optimum for the hydrolysis of pure human recombinant prorenin by pure renal cathepsin B was 6, and the Michaelis-Menten constant, Km, of the reaction was 1.4 x 10(-9) M. Immunostaining of human kidney using a sheep anti-human cathepsin B antibody demonstrated the presence of cathepsin B in the juxtaglomerular areas of the kidney, as well as in the renal proximal tubules. Electron microscopic immunohistochemistry using the same antibody demonstrated cathepsin B in dense secretory granules of the juxtaglomerular cells. Renin was also shown to be present in these granules. This study provides both biochemical and morphological evidence that renal cathepsin B is a human prorenin-processing enzyme.