Podocytes in metanephric organ culture express characteristic in vivo phenotypes

 Podocytes outgrown from isolated glomeruli in vitro have failed to express fully differentiated in vivo phenotypes. In an attempt to determine whether podocytes in metanephric culture accomplish terminal differentiation, as observed in vivo, we investigated expression of their characteristic phenotypic features in rat metanephric organ cultures using immunohistochemistry and electron microscopy. Rat metanephroi were harvested on embryonic day 12.5 and cultured on transmembrane filters for 9 days. Morphological examination revealed two maturation stages when the podocytes resembled those of the S-shaped body stage and maturational stages of glomeruli in vivo. Electron microscopy revealed that, firstly podocytes lost their intercellular contacts and, simultaneously, the tight junctions shifted into close proximity to cell bases, followed by foot process development. Immunohistochemistry demonstrated that the tight junction protein, ZO-1, and specific podocytic markers, pp44, 5-1–6, podocalyxin and vimentin were expressed in a cell maturity-dependent manner, as observed in newborn rat kidneys. Furthermore, glomerular basement membrane components, collagen type IV and laminin, were expressed in the glomerular center. Our findings that cell maturity-dependent expression of structural and functional phenotypes in podocytes in metanephric culture was the same as that observed in developing kidneys in vivo indicate that podocyte differentiation during glomerulogenesis may be operated by an intrinsic property, such as programmed cell fate. Furthermore, these highly differentiated podocytes in vitro may provide clues that will help to establish a podocyte culture system. Accepted: 26 February 1997     

Organogenesis of the kidney glomerulus

The glomerular basement membrane (GBM) is a crucial component of the kidney’s filtration barrier that separates the vasculature from the urinary space. During glomerulogenesis, the GBM is formed from fusion of two distinct basement membranes, one synthesized by the glomerular epithelial cell (podocyte) and the other by the glomerular endothelial cell. The main components of the GBM are laminin-521 (α5β2γ1), collagen α3α4α5(IV), nidogen and the heparan sulfate proteoglycan, agrin. By studying mice lacking specific GBM components, we have shown that during glomerulogenesis, laminin is the only one that is required for GBM integrity and in turn, the GBM is required for completion of glomerulogenesis and glomerular vascularization. In addition, our results from laminin β2-null mice suggest that laminin-521, and thus the GBM, contribute to the establishment and maintenance of the glomerular filtration barrier to plasma albumin. In contrast, mutations that affect GBM collagen IV or agrin do not impair glomerular development or cause immediate leakage of plasma proteins. However, collagen IV mutation, which causes Alport syndrome and ESRD in humans, leads to gradual damage to the GBM that eventually leads to albuminuria and renal failure. These results highlight the importance of the GBM for establishing and maintaining a perfectly functioning, highly selective glomerular filter.     

Microfibrils are a major component of the mesangial matrix in the glomerulus of the rat kidney

Summary Certain secretory cells in the hypophysial pars tuberalis of the Djungarian hamster display marked circannual structural alterations. The present investigation deals with the immunohistochemical properties of this cell group. A distinct TSH-like immunoreactivity was found in secretory cells of this type in the pars tuberalis of animals exposed to long photoperiods, whereas under short photoperiods the TSH-like immunoreactivity was nearly absent. In the pars distalis, the number and distribution of TSH-positive cells did not differ significantly between animals maintained under long and under short photoperiods. LH-and FSH-positive cells could not be detected in the pars tuberalis, but they are clearly present in the pars distalis of both groups of hamsters. Our immunocytochemical results suggest that photoperiodic stimuli influence the secretory activity of TSH-like immunoreactive cells in the pars tuberalis. A connection with the neuroendrocrine-thyroid axis is discussed.The study was supported by the Deutsche Forschungsgemeinschaft (Wi 558/3-1, Pe 134/2-4)     

Adenylate cyclase and guanylate cyclase activity in the isolated kidney glomerulus of the rat]

Isolated rat renal glomeruli contain an adenylate cyclase system and guanylate cyclase system. Adenylate cyclase was strikingly activated by purified parathyroid hormone, epinephrine, prostaglandin I2 and histamine. The demonstration of PTH activated adenylate cyclase in glomeruli raises the possibility of a role of this hormone in regulation of glomerular filtration rate. Guanylate cyclase was strikingly activated by CA2+, nitrate derivatives such as sodium nitroprusside. Its role remained still unknown.     

Fibronectin localization in the rat glomerulus

Fibronectin (FN) has been localized in the rat glomerulus using indirect immunolabeling. It was demonstrated in frozen sections by immunofluorescence, in sections of fixed kidneys by both peroxidase and ferritin-labeled antibodies, and in isolated glomerular basement membranes (GBM) with ferritin-labeled antibodies. Complementary and convergent results were obtained with these approaches. FN was most abundant in the mesangial matrix where it was especially concentrated at the interface between the endothelial and mesangial cells. In the peripheral capillary loop, FN was also detected in the laminae rarae (interna and externa) of the GBM--i.e., between the endothelial and epithelial cells, respectively, and the GBM. These findings indicate that FN is an important constituent of the glomerulus, and they are compatible with the assumption that, in the glomerulus, as in cultured cells, FN is involved in cell-to-cell (mesangial-mesangial, mesangial- endothelial) and cell-to-substrate (mesangial cell-mesangial matrix, epithelium-GBM, endothelium-GBM) attachment.     

Human keratinocytes express a new CD44 core protein (CD44E) as a heparan-sulfate intrinsic membrane proteoglycan with additional exons

We previously identified a 90-kD (GP90), collagen-binding, membrane glycoprotein, termed extracellular matrix receptor III (ECMR III), that is homologous to the lymphocyte homing receptor and CD44 antigen (Gallatin, W. M., E. A. Wayner, P. A. Hoffman, T. St. John, E. C. Butcher, and W. G. Carter. 1989. Proc. Natl. Acad. Sci. USA. 86:4654- 4658). CD44 is abundantly expressed in many epithelial tissues, and is localized predominantly to filopodia in cultured keratinocytes. Here we establish CD44 as a polymorphic family of related membrane proteoglycans and glycoproteins possessing extensive diversity in both glycosylation and core protein sequence. Human neonatal foreskin keratinocytes (HFKs) and QG56 lung squamous carcinoma cells express an alternatively spliced form of the CD44 core protein (termed CD44E) that contains an additional 132 amino acids in the carbohydrate attachment region of the extracellular domain. HFKs, HT1080 fibrosarcoma and QG56 cells, as well as many other human cells, contain varying ratios of GP90 and structurally related, higher molecular mass forms of CD44 that express the following characteristics: (a) each form reacted with anti- CD44 (mAbs) P1G12, P3H9, and P3H5. Each of these mAbs recognized a distinct, nonoverlapping epitope present on each CD44 form. (b) Differences in mass were due primarily to variation in carbohydrate moieties, including sulfated aspargine-linked glycopeptides (GP), chondroitin sulfate (CS), and heparan sulfate (HS) glycosaminoglycans, as well as O-linked mucin and polylactosamine structure(s). The major polymorphic forms were designated HT1080 GP90 and CS180, QG56 GP230, and HFK HS/CS250, based on dominant carbohydrate moieties and relative mass. (c) The polymorphic forms use CD44 and CD44E core proteins, each containing a unique set of potential attachment sites for O- and N- glycosides and glycosaminoglycans. (d) Immunofluorescence microscopy, differential extraction with Triton-X-114 detergent, and incorporation into liposomes indicated that all the forms were membrane bound glycoconjugates. These results define CD44 as a structurally diverse, but immunologically related, set of intrinsic membrane macromolecules, and suggests that these structurally varied forms might be expected to manifest multiple functions.     

Repartition of the kidney cortex glomerulus in rats]

This paper presents the repartition of 989 glomeruli in 8 parallel concentric renal cortex zones, by projecting on a calibrated screen rat kidney slices photographies. The glomerular density increases regularly from the outside to the middle cortical zones and then decreases to the deepest juxtamedullary zones.     

Ruthenium red staining of rat glomerulus

Summary The irregularity of ruthenium red (RR) staining for electron microscopy may be partly attributable to its poor diffusion through tissue. In this study, ruthenium red was perfused into kidneys of normal and nephrotic rats. A dense endothelial reaction occurred in both arterioles and glomerular capillaries. Dot-like deposits, most prevalent in the lamina rara externa of the basal lamina of the glomerular capillaries, were also present. The deposits appeared with equal frequency in both normal and nephrotic animals, suggesting a similar distribution of acidic glycoprotein residues. The possible significance of these deposits and other applications for the technique are discussed.     

Demonstration of the myotoxic effect of theophylline on the isolated kidney glomerulus of the rat]

After confirmation of the intense and very fast myorelaxant effect of theophylline on isolated glomeruli, xanthic reagent myotoxic effects are shown during more or less long contacts with these glomerular suspensions. We studied isolated glomeruli diameter evolution according to reagent dose (0,25 to 10 mg/ml) and its contact length (1, 5, 10 minutes). If the diameter remains practically constant during all the period for the lowest doses, it begins to decrease after the 5th minute for higher (1 and 2,5 mg/ml) and cracks up in the first minutes for the biggest ones (5 and 10 mg/ml). Pharmacologic and toxic actions are discussed ; hypothesis of a toxic effect at smooth muscular cells level is proposed.     

Scanning electron microscopy of the kidney glomerulus during development

Consecutive stages of renal glomerulogenesis were studied in white rats using scanning electron microscopy of microvessel corrosion casts and specimens dried through critical point. The splitting of ingrowing capillaries was shown to be the leading mechanism of glomerulogenesis. The differentiation of endothelial and epithelial components of glomerular filter involves two main processes: progressive spreading and arborization of cells. A suggestion is put forward that the growth and spatial reorganization of cytoskeletal elements in the endothelial and epithelial cells are the basic mechanisms of their differentiation during glomerulogenesis.     

Stimulation of protein synthesis by a 34 KD DNA-binding protein from human placenta

A 34 KD DNA-binding protein fraction from human placenta stimulated endogenous protein synthesis in rabbit reticulocyte and wheat-germ cell-free systems. Though the synthesis of several proteins were stimulated by the 34 KD protein, a dose-dependent increase of two polypeptides of molecular weights 42,000 and 51,000 were distinctly observed in reticulocyte lysates. The synthesis of the major protein (beta-globin) was not affected by the 34 KD protein. In both hemin supplemented and unsupplemented lysates, the ability of 34 KD protein to stimulate the synthesis of high molecular weight (HMW) proteins was drastically reduced by Mg++ and not by dsRNA.     

Non-granulated peripolar cells exist in the rat glomerulus

Summary The peripolar cell is a unique cell type in the mammalian glomerulus. Peripolar cells are said to be identifiable during light microscopy by their cytoplasmic granules and by their position at the vascular pole; and during scanning electron microscopy by their distinctive surface morphology. We used both techniques to count peripolar cells in 6 normal rat kidneys. Scanning microscopy revealed that 55(±5)% of glomeruli contained at least one peripolar cell whereas light microscopy revealed granulated peripolar cells in only 4(±2)% of glomeruli. Vascular poles which contained peripolar cells previously identified by scanning were then examined by light and by transmission electron microscopy. Serial sections through these peripolar cells demonstrated the absence of cytoplasmic granules. Our observations suggest that the majority of peripolar cells in the rat contain no granules.