An improved colloidal iron stain for glomerular sialoproteins

Summary The thick sialoglycoprotein coat of the glomerular epithelial cells is a part of the glomerular filtration barrier. It can be demonstrated in paraffin histology by means of the colloidal iron procedure. We have studied the special requirements of tissue processing to obtain reproducible results by this staining method. The requirements include proper fixation, avoiding heat during sectioning and ample rehydration. We have further tested a colloidal iron-PAS procedure for simultaneous demonstration of the glomerular epithelial coat and the basement membrane.     

Identification and characterization of podocalyxin--the major sialoprotein of the renal glomerular epithelial cell

The glomerular epithelial polyanion is a specialized cell surface component found on renal glomerular epithelial cells (podocytes) that is rich in sialoprotein(s), as detected by staining with cationic dyes (colloidal iron, alcian blue) and wheat germ agglutinin (WGA). We have isolated rat glomeruli and analyzed their protein composition by SDS PAGE in 5-10% gradient gels. When the gels were stained with alcian blue or "Stains All," a single band with an apparent Mr of 140,000 was detected that also stained very prominently with silver, but not with Coomassie Blue. This band predominated in fluorograms of gels of isolated glomeruli that had been labeled in their sialic acid residues by periodate-[3H]borohydride. In lectin overlays, the 140-kilodalton (kd) band was virtually the only one that bound [125I]wheat germ agglutinin, and this binding could be prevented by predigestion with neuraminidase. [125I]Peanut lectin bound exclusively to the 140-kd band after neuraminidase treatment. An antibody was prepared that specifically recognizes only the 140-kd band by immunoprecipitation and immuneoverlay. By immunoperoxidase and immunogold techniques, it was localized to the surface coat of the glomerular epithelium and, less extensively, to that of endothelial cells. When analyzed (after electroelution from preparative SDS gels), the 140-kd band was found to contain approximately 20% hexose and approximately 4.5% sialic acid. These findings indicate that the 140-kd protein is the major sialoprotein of the glomerulus, and it is the only component of glomerular lysates with an affinity for cationic dyes and lectins identical to that defined histochemically for the epithelial polyanion in situ. Since this molecule is a major component of the cell coat or glycocalyx of the podocytes, we have called it "podocalyxin."     

Alterations in the sialic acid content of the rat glomerular filter in aminonucleoside nephrosis

A daily injection protocol with puromycin aminonucleoside (PAN) causes loss of sialic acid from the glomerular filter. These changes have been studied previously by colloidal iron staining, but we have recently shown that phosphotungstic acid (PTA) at low pH allows the demonstration of sialic acid groups in the glomerular basement membrane in ultrathin sections of glycolmethacrylate(GMA)-embedded rat kidney. With this technique the slit diaphragm is seen as a continuation of the luminal cell coat and the method also gives an idea of the sialic acid distribution at the podocyte plasma membrane. The availability of this method made it possible to reevaluate the results obtained earlier in aminonucleoside (PAN) nephrosis indicating a decrease in the sialic acid content of the glomerulus. Although there are changes in the epithelial architecture, the ultrastructural appearances of the basement membrane are only slightly altered in PAN nephrosis. Detachment of epithelial cells was variable in different animals. Seven days after the first injection of PAN, staining with PTA revealed local defects in the lamina rara externa which later became more extensive. In PAN-treated animals the luminal cell coat showed reduced staining and large areas of the plasma membrane were completely devoid of a cell coat. These changes coincided with the onset of heavy proteinuria. The results indicate that both the basement membrane and the epithelial plasma membrane are affected in PAN nephrosis, as revealed by decreased staining for sialic acid-containing molecules in the basement membrane and by changes in the epithelial cell coat. The defects in the cell coat material point to functional alterations at the level of the slit pores and it is suggested that the decrease in sialic acid content of the lamina rara externa may be partly responsible for defects in the size-selective filtration barrier in PAN nephrosis.     

ELECTRON MICROSCOPE STUDIES ON THE SURFACE COAT OF THE NEPHRON

Attempts to make visible the carbohydrate coat at the free cell surface of glomeruli as well as the tubules of rabbit kidney were undertaken. The ruthenium red procedure was performed, according to Luft, at various pH values. Moreover, the colloidal iron and the colloidal thorium methods were used. Neuraminidase digestion was also performed. In the ruthenium red procedure the luminal face of the epithelial cells of the nephron was coated distinctly with reaction product. The results obtained revealed that some of the differences at various levels of the nephron depended on the pH values. In glomeruli and proximal convoluted tubules the optimum pH value was 7.4; in the ascending limb of Henle loops and distal convoluted tubules the optimum pH value was 6.8. The ruthenium red-positive surface coat was either closely connected with, or appeared as a part of, the outer leaflet of the unit membrane. The slit pores of glomeruli were also covered by a coat continuous with the surface coat of the adjacent foot processes. The coat lining the microvilli of proximal convoluted tubules completely filled the intervillous spaces. Also, both the colloidal iron method and the colloidal thorium method evidenced the presence of surface coat. Pre-treatment with neuraminidase abolished the effect of the Hale reaction. These results may indicate that the surface coat of the epithelia of the nephron shows the presence of glycoproteins containing siliac acid residues.     

Glomerular lysozyme binding in protein-overload proteinuria

Binding of the cationic molecule lysozyme to the glomerular basement membrane and to the glomerular epithelial cell coat was investigated in the glomerulus of normal female Wistar rats and in rats in which heavy proteinuria was induced by the daily administration of 1 g of bovine serum albumin. In normal rats the binding of lysozyme to the anionic groups in the glomerular basement membrane and the cell coat had no effect on the ultrastructure of the glomerular epithelial cell, in particular the foot processes were unchanged. In the proteinuric rats the lysozyme-binding to the glomerular basement membrane and the epithelial cell coat was completely lost in the damaged glomeruli. In the apparently normal glomeruli present in these proteinuric animals binding was similar to that seen in normal rats. These results suggest that in protein-overload proteinuria there is a loss of glomerular anion and hence a reduction in the glomerular charge barrier. This may account, at least in part, for the increased glomerular leak of negatively charged serum albumin in this experimental model of proteinuria.     

Scanning electron microscopy: Identification of mast cells by indirect cathodoluminescence

Summary The epithelial tissues of the rabbit gall bladder reacted for acid mucosaccharides were studied with the electron microscope. A series of acid mucosaccharide-containing ultrastructures of the gall bladder epithelium were observed in specimens treated with dialyzed iron, colloidal thorium and ruthenium red. In the epithelium stained with dialyzed iron, reactive ultrastructures are not only extra- but intracellular; the surface coat of the plasma membrane, pinocytotic vesicles, granules of secretion and certain elements of the Golgi apparatus. In the epithelial tissues stained by colloidal thorium or ruthenium red, the surface coat of the plasma membrane is the only ultrastructure which is reacted positively for the acid mucosaccharide stains. The present images of ultrastructural elements containing acid mucosaccharides are taken to indicate a multiple function of the substances in rabbit gall bladder epithelium and are well correlated with the results of previous light and electron microscopic studies on the gall bladder epithelium of various vertebrate species.     

Ultrastructural demonstration of cell coat on the cell surfaces of normal human oesophageal epithelium

Synopsis The cell coat in human oesophageal biopsies was studied with Alcian Blue, Ruthenium Red, Safranin O, colloidal iron and the ferrocyanide-osmium tetroxide techniques. Alcianophilic material was found on the cell surface of the basal, prickle cell and functional layers, being most abundant on the superficial cells where it appeared as a continuous coat. In the deeper layers, it tended to have a particulate distribution. Some membrane-coating granules were alcianophilic. Ruthenium Red had a particulate distribution over all cell surfaces. Intercellular debris was also stained. Safranin O produced no staining. Colloidal iron stained the cell coat in a particulate manner. The ferrocyanide-osmium technique showed a uniform filamentous cell coat. The oesophageal epithelial cell coats are, in part, acid mucosubstances which, on the surface cells, may have a protective function.     

Alteration of glomerular anionic sites by the development of subepithelial deposits in experimental glomerulonephritis in the rat

Using highly cationic polyethleneimine, alteration of glomerular anionic sites were evaluated ultrastructurally in two types of rat glomerulonephritis (GN); chronic serum sickness GN and heterologous (passive) or autologous (active) Heymann's GN. Daily i.v. injections of egg white lysozyme in physiologic saline into presensitized rats led to the formation of numerous mesangial and subepithelial deposits. In the non-proteinuric period in which immune deposits were localized predominantly in the mesangium, anionic sites of the laminae rarae and the epithelial cell coat were clearly observed. In the subsequent proteinuric period in which numerous subepithelial deposits were superimposed, a broad loss of anionic sites in the epithelial cell coat was seen. Splitting and focal loss of anionic sites on the lamina rara externa adjacent to the subepithelial deposits were commonly observed both in passive and active Heymann's GN and in lysozyme GN. These findings indicate that the subepithelial deposits are closely involved in the development of proteinuria by injuring the anionic sites, especially those on lamina rare externa of the glomerular basement membrane.     

Presence of proteins derived from the vegetative cell membrane in the dormant spore coat of Bacillus subtilis

To confirm the presence of the outer spore membrane in dormant spore coats of Bacillus subtilis, the proteins from vegetative cell membrane and dormant spore coat fractions were compared by immunoblot assay with antibodies prepared against both preparations. The spore coat fraction contained at least 11 proteins antigenically identical to those in the vegetative cell membranes. Further, the cytochemical localization of the proteins derived from vegetative cell membrane in dormant spores was examined by an immunoelectron microscopy method with a colloidal gold-immunoglobulin G complex. The colloidal gold particles were observed in the coat region and around the core region of dormant spore. These results have provided evidence that some proteins from vegetative cell membrane remain in the dormant spore coat region of B. subtilis, although it is not clear whether the outer membrane persists as an intact functional entity or not.     

Preservation of fixed anionic sites in the GBM in the acute proteinuric phase of cationic antigen mediated in-situ immune complex glomerulonephritis in the rat

Cationic antigens have been observed to bind with the negatively charged glomerular basement membrane (GBM). Using the cationic reagent polyethyleneimine (PEI), the distribution of glomerular anionic sites was evaluated ultrastructurally in the early stage (2 h-day 7) of cationic antigen mediated in-situ immune complex formation type glomerulonephritis (GN) in the rat. Renal perfusion via the renal artery with 100 micrograms of cationized human IgG(pI greater than 9.5), followed by the i.v. injection of specific antibodies, led to an initial increase in urinary albumin excretion, subsequent massive globulinuria and the formation of numerous subepithelial deposits on day 7. The most striking alteration in glomerular anionic sites was observed on the epithelial cell surface coat; the PEI deposition on the epithelial cell surface was almost identical to that in control glomeruli at 2 and 4 h after the induction of GN; thereafter, on day 7, a broad loss of anionic sites was observed on flattened epithelial foot processes. In contrast, fixed anionic sites of the laminae rarae of the GBM showed no apparent alterations in the distribution and number from 2 h to day 7 and did not disappear even in the lamina rara externa adjacent to subepithelial deposits. These findings not only show that fixed anionic sites of the GBM, in contrast to the rapid decrease in those of the epithelial cell surface, are not completely neutralized or destroyed even in GN, in which cationic antigen participates in the in-situ formation of GBM-deposits.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ectoenzymes of peptidic metabolism in renal glomerular and vascular cells]

The ectoenzymes acting in the metabolism of peptides play an essential role in renal cell-cell communication. We have studied four of these ectoenzymes, aminopeptidases N and A (APN, APA), dipeptidylpeptidase IV (DPP IV) and neutral endopeptidase (NEP) in cultured human glomerular mesangial and epithelial cells and cultured rabbit renal cortical vascular smooth muscle cells. APN is present at the surface of both mesangial and epithelial cells with identical characteristics. Its expression (enzyme activity and immunoreactive protein) is induced by phorbol-esters and other protein kinase C-stimulating agents. APA is present only in glomerular epithelial cells. Its expression is induced by glucocorticoids and cyclic AMP-stimulating agents. DPP IV is also present only in glomerular epithelial cells. Its expression (enzyme activity, immunoreactive protein and mRNA) is induced by interferon gamma. NEP is present in glomerular epithelial cells and vascular smooth muscle cells. The expression of the latter enzyme is inhibited in the presence of serum via the combined effect of Ca2+i and PKC-stimulating agents. In contrast, glucocorticoids and cyclic GMP induce its expression. NEP plays a major role in the catabolism by these cells of atrial natriuretic factor. All these data emphasize the multiplicity of the mechanisms controlling ectopeptidase expression in cultured glomerular and renal vascular cells.     

Immortalization of rat kidney glomerular mesangial cell and its coculture with glomerular epithelial cell

Mesangial cell has several key roles in the control of glomerular function: it participates in the regulation of glomerular filtration rate, macromolecular clearance, and as both a source and target of numerous hormones and autocrines. Many of these insights into mesangial cell function have been obtained by studying mesangial cells in culture. However, no suitable cell lines have been established yet. We here reported the immortalization of rat kidney glomerular mesangial cell by transfection of E6 and E7 genes of human papillomavirus type 16 (HPV-16) via electroporation and lipofection. The results showed that only electroporation could transfect the genes to mesangial cells and the transfected cells maintained the viability for longer than 6 months. Fluorescence microscopic observation showed that cellular contractility and phagocytosis, which are the two main phenotypes of mesangial cells, are well maintained after transfection. The coculture of transfected mesangial cells with rat glomerular epithelial cells showed that the growth of mesangial cells was suppressed by epithelial cell, but the growth of epithelial cells was enhanced by mesangial cells. Moreover, an enhancing effect on the phagocytosis of mesangial cell was also observed in coculture. Such results may imply that the glomerular cell-cell interaction plays an important role in the regulation of cell proliferation and differentiation.     

Permeability of gentamicin into the inside of Bacillus subtilis spores

Abstract The penetration of gentamicin into the inside of Bacillus subtilis spores was examined by an immunoelectron microscopy method with colloidal gold-immunoglobulin G complex. The colloidal gold particles were located mainly in the coat regions of spores and were not observed in the cortex or core regions. This result suggests the existence of an outer membrane inside the coat region as the primary permeability barrier to gentamicin.     

Schistosoma mansoni: topochemical features of cercariae, schistosomula, and adults

The teguments of developing and mature cercariae, recently transformed, and 1-wk-old schistosomula and adult worms were examined for the ultrastructural location of macromolecular carbohydrates and polyelectrolytes. The surface of mature cercariae within sporocysts and cercariae released from the snail is covered by a filamentous coat which reacts with cytochemical reagents for the demonstration of vicinal glycols, but neither the coat nor the surface of the tegument plasmalemma binds cationic colloidal iron at low pH.Upon penetrating mammalian skin, the cercaria sheds its surface coat; the tegument surface of newly transformed schistosomula, older schistosomula and adult worms stains en bloc with acidic colloidal iron, as does the tegument plasmalemma of mature cercariae if the overlying filamentous coat is first removed by physicochemical means. The cercarial coat thus serves to mask anionic groups at the surface of the tegument plasmalemma which become functionally exposed after penetration of the mammalian host. The distribution of colloidal iron binding sites coincides with those for the carbohydrate-complexing phytohemmagglutnin, concanavalin A, which suggests that these membrane-fixed anions are acid mucopolysaccharides, glycoproteins or glycolipids. Carbohydrate-containing material was also localized within membrane-bound vesicles of the tegument matrix and perikarya of developing cercariae and postcercarial schistosomes, suggesting that surface mucosubstances contributing to the tegument glycocalyx of these worms are elaborated, at least in part, by the tegument itself.     

Permeability of gentamicin and polymyxin B into the inside of Bacillus subtilis spores

The penetration of gentamicin and polymyxin B into the inside of Bacillus subtilis spores was examined by an immunoelectron microscopy method with colloidal gold--immunoglobulin G (IgG) complex. The colloidal gold particles were located predominantly in the coat region of both gentamicin-treated and polymyxin B-treated spores and were hardly observed in the other regions, i.e., the cortex and core regions. When these antibiotic-treated spores were subsequently treated with CaCl2, the number of gold particles bound to the coat region was greatly decreased. These results suggest that these two antibiotics are able to penetrate into the spore coat but not into the cortex or core, that is, the primary permeability barrier to them exists between the coat and the cortex regions.     

Electron microscopic observations of the surface of L-cells in culture

Summary Techniques are described for the preparation of preshadowed replicas of both the upper and lower surfaces of L-cells in culture, and of cross sections of L-cells growing on a cellophane substrate. These revealed long slender microvilli, 800 to 1,100 A in diameter, projecting from both upper and lower surfaces of the cells. These microvilli were frequently observed to contact other cells and substrate, and to leave material behind on the substrate. The plasma membrane of the lower surface was separated from the substrate by an electron-lucent gap 200 to 300 A wide. The surface coat of the L-cell was visualized by staining with colloidal iron and ruthenium. Staining with colloidal iron was most intense on the surface of the microvilli. The gap between cell and substrate was intensely stained with ruthenium red. Enzymatic digestion of living cells revealed that both trypsin and neuraminidase reduced the staining of the cell coat by colloidal iron, whereas only trypsin altered its staining with ruthenium red. After trypsin treatment, fragments of an amorphous material with the staining characteristics of the cell coat were observed between the denuded cells. Treatment with ribonuclease, chymotrypsin or hyaluronidase did not affect the staining of the cell coat.     

Applications of immunocolloids in light microscopy. II. Demonstration of lectin-binding sites in paraffin sections by the use of lectin-gold or glycoprotein-gold complexes

A new procedure is presented for the light microscopic demonstration of specific sugar sequences of oligosaccharides in glycoconjugates by lectins combined with the colloidal gold marker system. Tissue sections from aldehyde-fixed and paraffin embedded rat kidney were stained either in a one-step method with lectin directly bound to particles of colloidal gold or in a two-step method using non-labeled lectin and glycoprotein labeled with colloidal gold. In both methods the presence of lectin-binding sites in the tissue sections is revealed by the appearance of a red coloration that is due to the accumulation of gold particles. The high specificity of the technique is combined with a good sensitivity and resolution as demonstrated by a differential plasma membrane staining in renal epithelial cells. The lectin-gold or glycoprotein-gold complexes remain stable for months and produce a permanent nonbleaching staining.     

Prostaglandin synthesis by human glomerular cells in culture

PG synthesis by cultured human glomerular mesangial and epithelial cells incubated with [1- 14C] arachidonic acid was determined by radioimmunoassay (RIA) after high performance liquid chromatography purification. Both dissociated cells and cell monolayers were studied under basal conditions. PG synthesis by epithelial cells was undetectable. Mesangial cells produced low amounts of PGE2, PGF2 alpha and 6 keto-PGF1 alpha and no TXB2. We also examined the effects of several agents on PG synthesis in these two types of cells scraped away from their flasks using direct RIA. Arachidonic acid produced a slight stimulation only with mesangial cells whereas angiotensin II, cyclic AMP and calcium ionophore were inactive with both cell lines. Homogenization of the cells did not enhance the stimulatory effect of arachidonic acid. Alkalinization of the incubation medium produced an increase of PG production by mesangial cells. These results suggest that two types of human glomerular cells, particularly epithelial cells, possess low cyclooxygenase activity. The low capacity of human mesangial and epithelial cells to produce PG may have consequences for the endocrine control of the glomerular microcirculation in man.     

Lipoxygenase activity in rat kidney glomeruli, glomerular epithelial cells, and cortical tubules

We examined the possibility that renal glomerular and cortical tubular tissue has lipoxygenase activity in addition to the well established cyclo-oxygenase pathway of arachidonic acid metabolism. Homogenized rat kidney glomeruli, in the presence of meclofenamate (33 microM) and divalent cation ionophore A23187 (3 microM), metabolized octatritiated arachidonic acid to 12-hydroxyeicosatetraenoic acid and lesser amounts of 80 and/or 9-hydroxyeicosatetraenoic acid. These products were identified by thin layer chromatography, high performance liquid chromatography, and gas chromatography-mass spectroscopy. In order to rule out the synthesis of hydroxylated fatty acids by platelets and leukocytes entrapped in the glomeruli, we studied lipoxygenase products in glomerular epithelial cells after 9 days in cell culture. Homogenized glomerular epithelial cells converted octatritiated arachidonic acid to 12-hydroxyeicosatetraenoic acid solely. The lipoxygenase activity in cortical tubules was substantially less than in glomeruli and only 12-hydroxyeicosatetraenoic acid was synthesized. The production of hydroxyeicosatetraenoic acid by lipoxygenase inhibitors, nordihydroguaiaretic acid, 5,-homogenized glomeruli, glomerular epithelial cells, and cortical tubules was inhibited by three 8,11,14-eicosatetraynoic acid, and 1-phenyl-3-pyrazolidone. These data demonstrate that there is lipoxygenase activity in rat kidney glomeruli, glomerular epithelial cells and to a lesser extent cortical tubules, and may imply a role of the lipoxygenase products in the regulation of normal glomerular function and inflammatory disease of the kidney.