The distribution of some hydrolases in glomeruli and tubular fragments prepared from rat kidney by zonal centrifugation

1. A collagenase digest of rat kidney cortex was separated into four bands by zonal centrifugation. 2. Two of these bands were shown by light-microscopy to contain glomeruli and tubular fragments, which were free from each other and well separated from other renal material. 3. Protein, N-acetyl-beta-glucosaminidase, 5'-nucleotidase, l-leucine beta-naphthylamidase, leucine aminopeptidase, acid phosphatase and alkaline phosphatase were assayed across the gradient. 4. The greater proportion of these enzyme activities was recovered in the tubular fragments and acid phosphatase was the only enzyme detected in significant amounts in the glomeruli. 5. Tubular fragments and glomeruli were sedimented and multiple forms of beta-naphthylamidase, N-acetyl-beta-glucosaminidase, acid phosphatase and alkaline phosphatase were investigated by starch-gel electrophoresis.     

Presence of gamma-glutamyltransferase in the renal microvascular compartment

The association between the brush border enzyme alkaline phosphatase and gamma-glutamyltransferase was determined by sucrose density gradient analysis of crude kidney homogenates, isolated glomeruli, and isolated microvessels. As previously established there is an overlap of these enzyme activities in the crude homogenate corresponding to a density of 1.17 g.cm-3. In contrast, isolated glomeruli sedimented with a peak of 1.25 g. cm-3 and exhibited gamma-glutamyltransferase activity but little alkaline phosphatase activity; homogenizing isolated glomeruli shifted the fragments to a density coincident with that observed for the crude homogenate gamma-glutamyltransferase peak. A second population of capillaries, isolated microvessels, were homogenized and analysed on the sucrose density gradient. These fragments sedimented over the same range as crude homogenate gamma-glutamyltransferase peak but were devoid of alkaline phosphatase activity and yet exhibited remarkable gamma-glutamyltransferase activity. The results indicate homogenization of renal cortex results in a heterogeneous collection of particles from both tubular and microvascular locations exhibiting gamma-glutamyltransferase activity which overlap with the brush border alkaline phosphatase containing membranes. However, isolation of microvessels and glomeruli prior to homogenization allows separation of gamma-glutamyltransferase from alkaline phosphatase activity; between 10 and 20% of the total homogenate gamma-glutamyltransferase activity is estimated to be associated with the microvascular compartment.     

Desmin-positive epithelial cells outgrowing from rat encapsulated glomeruli

Decapsulated glomeruli, encapsulated glomeruli and tubular fragments were each selected and cultured in order to identify the origin of polygonal epithelial cells in glomerular outgrowths and to characterize them by double-label immunofluorescence microscopy using antibodies against cytoskeletal proteins. Polygonal cells outgrew from less than 1% of decapsulated glomeruli, 34.8 to 65.1% of encapsulated glomeruli and 62.4 to 79.7% of tubular fragments in culture. These data support the idea that polygonal cells in glomerular culture are derived mainly from parietal epithelial cells of Bowman's capsule but not visceral cells, and indicate that polygonal cells of tubular epithelial origin are also present. Polygonal cells from encapsulated glomeruli consisted of intensely vimentin-positive (IV) cells and weakly vimentin-positive (WV) ones. Most of the IV cells showed various degrees of staining with anti-desmin antibody, and some of them also expressed cytokeratins and alpha-smooth muscle actin. By contrast, all of the WV cells were stained with anti-cytokeratin antibody but not with anti-desmin antibody. Polygonal cells in cultures of tubular fragments were negative for desmin. These findings suggest that parietal cells express desmin in culture, even though they show no desmin staining in kidney sections.     

Quantitative distribution of lysosomal hydrolases in the rat nephron.

The activities of N-acetyl-beta, D-glucosaminidase (NAG, EC 3.2.1.30), beta, D-galactosidase (beta-gal, EC 3.2.1.23) and acid phosphatase (ac-Pase, EC 3.1.3.2) were measured in the glomeruli, five segments of the proximal and four segments of the distal tubule of normal male Wistar rats. The activities of NAG and beta-gal are 3- to 5-fold higher in the first part of the proximal tubule than in other segments and very low in glomeruli. We propose that the distribution of these two glycosidases reflects the contribution of the different tubular segments to the reabsorption of glycoproteins. The maximal activity of ac-Pase was found in the straight part of the proximal tubule. It was only 1.5-fold higher than in the distal tubule. Moreover, the activity in glomeruli is rather high. We conclude that ac-Pase is not primarily involved in the handling of reabsorbed molecules.     

Predilection of Segmental Glomerulosclerosis Lesions for the Glomerulotubular Junction Area in Type 1 Diabetic Patients: A Novel Mapping Method

The location of segmental glomerular lesions in relation to the vascular or tubular pole may have diagnostic or prognostic significance. We have developed a model-based method to estimate the distance from a glomerular lesion to a given landmark (vascular or tubular pole) or the glomerular center and applied this to biopsies from 5 microalbuminuric, 5 normoalbuminuric and 7 proteinuric type 1 diabetic patients and 5 normal controls. The distance from each glomerular adhesion to the glomerulotubular junction was measured and divided by the glomerular radius, allowing comparability among different glomeruli, assuming a spherical shape for Bowman''s capsule, an assumption which was validated. The frequency of adhesions in 6 glomerular zones with equal height (zone I adjacent to the glomerulotubular junction and zones II–VI progressively farther away) was determined: 59% of adhesions were in zone I, 15% in zone II, 16% in zone III, 7% in zone IV and 3% in zone VI (adjacent to the hilus). In glomeruli with only one adhesion, 82% of these were in zone I. This new method accurately localizes segmental lesions within glomeruli and revealed a marked predilection in type 1 diabetic patients for segmental sclerosis to develop at the glomerulotubular junction.     

Intrarenal localization of renin binding substance in rats

Renin binding substance is a protein that reacts with renin (Mw:40,000) to form a high-molecular-weight renin (Mw:60,000). There is evidence that this substance is present in the renal cortex. However, the exact localization has not been determined. We now report that when glomeruli and tubular segments were isolated from the rat kidney cortex and were frozen and thawed to extract proteins, the high-molecular-weight renin was detected by high performance liquid chromatography, when renin was mixed with an extract of tubular segments, but was not detected with an extract of the glomeruli. Thus, the renin binding substance was demonstrated in the cortical tubular cells but not in the glomeruli. Thus, the renin binding substance was demonstrated in the cortical tubular cells but not in the glomeruli, and the renin binding substance probably does not contribute to the process of biosynthesis of renin in juxtaglomerular cells. Rather, this substance may play a role in tubular functions in the kidney.     

Cellular origin of fibronectin in interspecies hybrid kidneys

The cellular origin of fibronectin in the kidney was studied in three experimental models. Immunohistochemical techniques that use cross-reacting or species-specific antibodies against mouse or chicken fibronectin were employed. In the first model studied, initially avascular mouse kidneys cultured on avian chorioallantoic membranes differentiate into epithelial kidney tubules and become vascularized by chorioallantoic vessels. Subsequently, hybrid glomeruli composed of mouse podocytes and avian endothelial-mesangial cells form. In immunohistochemical studies, cross-reacting antibodies to fibronectin stained vascular walls, tubular basement membranes, interstitium, and glomeruli of mouse kidney grafts. The species-specific antibodies reacting only with mouse fibronectin stained interstitial areas and tubular basement membranes, but showed no reaction with hybrid glomeruli and avian vascular walls. In contrast, species-specific antibodies against chicken fibronectin stained both the interstitial areas and the vascular walls as well as the endothelial-mesangial areas of the hybrid glomeruli, but did not stain the mouse-derived epithelial structures of the kidneys. In the second model, embryonic kidneys cultured under avascular conditions in vitro develop glomerular tufts, which are devoid of endothelial cells. These explants showed fluorescence staining for fibronectin only in tubular basement membranes and in interstitium. The avascular, purely epithelial glomerular bodies remained unstained. Finally, in outgrowths of separated embryonic glomeruli, the cross-reacting fibronectin antibodies revealed two populations of cells: one devoid of fibronectin and another expressing fibronectin in strong fibrillar and granular patterns. These results favor the idea that the main endogenous cellular sources for fibronectin in the embryonic kidney are the interstitial and vascular cells. All experiments presented here suggest that fibronectin is not synthesized by glomerular epithelial cells in vivo.     

Atrial natriuretic peptide elevates cGMP contents in glomeruli and in distal tubules of rat kidney

Effect of synthetic rat atrial natriuretic peptide (1-28) (ANP) on the cGMP content was studied using defined nephron segments of rat kidney. ANP elevates cGMP contents in glomeruli in a concentration and time-dependent manner. The increase of cGMP was observed in glomeruli, distal convoluted tubule (DCT) and cortical collecting tubule (CCT) (delta %; 279 +/- 35, 148 +/- 10 and 152 +/- 18, respectively), and no effect was observed in proximal convoluted (PCT) and straight tubule (PST). These results suggest that ANP may act directly on the tubular cells as well as glomeruli. In glomeruli, effects of ANP and carbamylcholine on cGMP contents were additive suggesting that these two agents may act on different receptors. Angiotensin II and norepinephrine failed to affect the ANP-induced cGMP production in the glomeruli.     

Heparan sulfate proteoglycan from human and equine glomeruli and tubules

1. Proteoglycans were isolated from human and equine glomeruli or tubules by guanidine extraction and anion exchange chromatography. 2. These proteoglycan preparations contained about equal amounts of heparan sulfate and chondroitin sulfates. 3. During the preparation of glomerular or tubular basement membranes the main part of proteoglycans (greater than 50%) was extracted in the salt extract. Chondroitin sulfate proteoglycan was mainly found in the water and salt extracts of glomeruli and tubules, heparan sulfate proteoglycan in the deoxycholate extracts and the basement membranes. 4. The glomerular basement membrane (GBM) contains about 12% (human) or 20% (equine) of the proteoglycans of the total glomerulus. They consist of greater than 70% (equine) or 80% (human) of heparan sulfate. 5. Heparan sulfate proteoglycan was isolated from the proteoglycan preparations of human or equine glomeruli and tubules by additional treatment with nucleases and chondroitinase ABC followed by CsCl gradient centrifugation. 6. Protein accounts for about 40% (dry weight) of the heparan sulfate proteoglycans. Their amino acid composition is characterized by a high content of glycine, but 3-hydroxyproline, 4-hydroxyproline and hydroxylysine are lacking. 7. The biochemical characteristics of the heparan sulfate proteoglycan of human or equine glomeruli or tubules differ from that isolated from rat glomeruli by their higher protein content and their amino acid composition. The significance of these differences is discussed.     

Isolation and characterization of insulin receptors from rat kidney glomeruli and tubules

In order to directly compare the structural characteristics of renal glomerular and tubular insulin receptors, the purified isolated nephron subunits were extracted with 1% Triton X-102, fractionated by DEAE-Sephacel ion exchange column chromatography and the fractions containing insulin binding proteins were identified by the precipitation of 125I-insulin-protein complexes with polyethylene glycol (PEG). The fractions containing insulin binding proteins were pooled, incubated with 125I-insulin and covalently cross-linked with disuccinimidyl suberate, followed by chromatography of the cross-linked samples on Sepharose CL-6B. From both glomeruli and tubules, three 125I-insulin-binding complexes with molecular weights of 560 KDa, 220 KDa and 95 KDa were found. SDS-PAGE of these complexes from glomeruli and tubules under both reducing and nonreducing conditions gave similar patterns of 125I-insulin-crosslinked components, with the exception of the polypeptide pattern from the 560 KDa peak fraction which was markedly different between glomeruli and tubules with the former giving major labeled components at 170 and 68 KDa while the latter showed labeled components of 125 KDa and greater than 250 KDa. Glomerular and tubular insulin receptors, therefore, display similar subunit composition under reducing conditions, but differ in the non-reduced state, suggesting that these complexes may differ in the extent and/or nature of disulfide bonding.     

Histochemical studies on the olfactory glomeruli of squirrel monkey

Summary Detailed histochemical studies on the distribution of various oxidative and dephosphorylating groups of enzymes have been made in the olfactory glomeruli of the squirrel monkey. The olfactory glomeruli showed strongly positive activity for succinic dehydrogenase, lactic dehydrogenase, monoamine oxidase, alkaline phosphatase, adenosinetriphosphatase and simple esterase. They showed moderately positive activity for cytochrome oxidase, specific cholinesterase, 5'nucleotidase; mildly positive activity for acid phosphatase; and negligible activity for nonspecific cholinesterase and glucose-6-phosphatase. The glomeruli did not show the presence of any thiamine pyrophosphatase-positive Golgi apparatus. The blood vessels surrounding the glomeruli were strongly positive for the nonspecific cholinesterase test. The significance of these results are discussed briefly.     

Renal cortex guanylate cyclase. Preferential enrichment in glomerular membranes.

1. The localisation and some of the properties of rabbit kidney cortex guanylate cyclase (GTP pyrophosphatase lyase (cyclizing) EC 4.6.1.2) have been studied. Upon fractionation of dissociated renal cortex, guanylate cyclase activity was preferentially enriched in fractions of pure glomeruli, where its specific activity was 44.5 times that measured in tubular fragments. Most, if not all, of the glomerular activity was found to be firmly membrane-bound, whereas the guanylate cyclase activity of the tubules was mainly soluble. Therefore, particulate guanylate cyclase activity could serve as marker enzyme for kidney glomeruli. 2. All hormones or hormone-like agents tested were without effect on kidney guanylate cyclase activity. Triton X-100 stimulated both glomerular and tubular activity. 3. Considering the high cyclic GMP forming capacity of kidney glomeruli, part of the cyclic GMP found in urine might be synthetized locally in these structures.     

Extralysosomal localisation of acid phosphatase in the rat kidney

 There is strong evidence that acid phosphatase (AcPase) plays an important role in the catabolism of the glomerular basement membrane (GBM) and the removal of macromolecular debris resulting from ultrafiltration. Recent enzyme histochemical investigations provide new evidence of the antithrombotic and anti-inflammatory function of ADPase and on the distribution of AcPase in mouse kidney tubule cells. By means of 3 mM cerium as the trapping agent and 1 mM p-nitrophenyl phosphate as the substrate, extralysosomal AcPase could be demonstrated at the ultrastructural level. Following a mild perfusion fixation (2% formaldehyde + 0.07% glutaraldehyde), an effective postfixation and short enzyme incubations (20 min) with microwave irradiation, highly specific enzyme histochemical reaction product and reasonable structural preservation were obtained. Extralysosomal, membrane-bound AcPase was observed along the endoplasmic reticulum, the trans-Golgi cisternae, the nuclear envelope, basal infoldings of the proximal and distal tubular cells and on glomerular profiles, e.g. cell membranes of podocytes, endothelium and basement membrane. Large amounts of extralysosomal AcPase were observed in the basement membrane of glomeruli, in contrast to no AcPase activity in the tubular and mesangial basement membrane. The observed difference in AcPase activity in the tubular epithelial basement membrane and the GBM supports the idea that AcPase in GBM specifically serves in the clearance of macromolecular debris to facilitate ultrafiltration. In the GBM a laminar distribution is observed, suggesting that both epithelial and endothelial cells are involved in the production of AcPase. Accepted: 16 September 1997     

Mixed Organic Solvents Induce Renal Injury in Rats

To investigate the injury effects of organic solvents on kidney, an animal model of Sprague-Dawley (SD) rats treated with mixed organic solvents via inhalation was generated and characterized. The mixed organic solvents consisted of gasoline, dimethylbenzene and formaldehyde (GDF) in the ratio of 2∶2:1, and were used at 12,000 PPM to treat the rats twice a day, each for 3 hours. Proteinuria appeared in the rats after exposure for 5–6 weeks. The incidences of proteinuria in male and female rats after exposure for 12 weeks were 43.8% (7/16) and 25% (4/16), respectively. Urinary N-Acetyl-β-(D)-Glucosaminidase (NAG) activity was increased significantly after exposure for 4 weeks. Histological examination revealed remarkable injuries in the proximal renal tubules, including tubular epithelial cell detachment, cloud swelling and vacuole formation in the proximal tubular cells, as well as proliferation of parietal epithelium and tubular reflux in glomeruli. Ultrastructural examination found that brush border and cytoplasm of tubular epithelial cell were dropped, that tubular epithelial cells were partially disintegrated, and that the mitochondria of tubular epithelial cells were degenerated and lost. In addition to tubular lesions, glomerular damages were also observed, including segmental foot process fusion and loss of foot process covering on glomerular basement membrane (GBM). Immunofluorescence staining indicated that the expression of nephrin and podocin were both decreased after exposure of GDF. In contrast, increased expression of desmin, a marker of podocyte injury, was found in some areas of a glomerulus. TUNEL staining showed that GDF induced apoptosis in tubular cells and glomerular cells. These studies demonstrate that GDF can induce both severe proximal tubular damage and podocyte injury in rats, and the tubular lesions appear earlier than that of glomeruli.     

Distribution of various sites of hormonal action between microvessels, glomeruli and tubules isolated from the renal cortex of rabbits

Collagenase dispersion of rabbit kidney cortex followed by centrifugation on discontinuous sucrose gradient, allowed the simultaneous obtention of microvascular, glomerular and tubular fractions. Microscopic studies and the measurements of cellular renin activity and the muscle-specific-enzyme creatine kinase showed that these vessels were arteriolar in nature and that they contained the preglomerular arterioles. The glomerular or tubular contamination rates were assessed by means of enzymatic markers. AVP stimulated only the tubular fraction whether GTP was present or not. In the absence of GTP, beta-isoproterenol stimulated only the tubular enzyme while in the presence of GTP, the microvascular and especially the glomerular AC were also stimulated. GTP enhanced considerably the microvascular response to bPTH-(1-34) while, in the glomeruli and tubules the effects of GTP and hormones were only additive. The possible physiological significance of these results are discussed.     

Number of glomeruli is increased in the kidney of transgenic mice expressing the truncated type II activin receptor

Histological analyses of the kidney were performed in transgenic mice expressing the truncated type II activin receptor. In these mice, signaling through the activin receptor was attenuated. Size and wet weight of the kidneys were identical to those of normal mice. Histologically, the number of glomeruli was approximately 180% of that in normal mice. The sizes and shapes of the glomeruli were variable, but many of them were smaller than those in normal mice. Morphometrically, the total glomerular area was 130% of that of the normal mice. Abnormality of the epithelia in Bowman's capsule was observed and the number of tubular epithelial cells was increased in the transgenic mice. The serum levels of blood urea nitrogen, creatinine, and creatinine clearance were identical to those in normal mice. These results suggest that the action of activin or related ligands is critical for determination of the nephron number.     

The effect of transforming growth factor-beta on the alkaline phosphatase activity in rabbit renal cortical tubular cell cultures

The effect of various growth regulators including epidermal growth factor and transforming growth factor-beta on the alkaline phosphatase activity of rabbit renal cortical tubular cells has been investigated in a serum-free culture. As a result, it was found that transforming growth factor-beta, known to be a growth inhibitor of renal tubular cells, increased the alkaline phosphatase activity of the tubular cells dose-dependently and that cycloheximide blocked any increase in the activity of this factor. In contrast, epidermal growth factor decreased the alkaline phosphatase activity in the tubular cells.     

Mesangioproliferative Glomerulonephritis in Mink with Encephalitozoonosis

Renal specimens from 6 mink with encephalitozoonosis were studied by light and electron microscopy and immunohistochemistry. The glomeruli of affected kidneys had a mesangioproliferative glomerulonephritis which was characterized by an increase in mesangial cells and matrix in most glomeruli. Some glomeruli were partially or completely sclerosed. There were protein or granular casts in the cortical and medullary tubules. Interstitial nephritis, vasculitis and tubular cysts were found. Electron microscopy demonstrated extensive matrix and increased cellularity in the mesangial areas. Glomeruli showed segmentally thickened or wrinkled capillary basement membranes. Electron dense deposits were found in the glomerular basement membranes and mesangium. Peroxidase-anti-peroxidase immunohistochemistry demonstrated that IgG and IgM positive material was present as granular deposits in the glomerular basement membrane and occasionally in the mesangium.     

Mediators and mechanisms of radiation nephropathy

Normal tissue radiation injury occurs after sufficient irradiation, thus limiting the curative potential of x-ray therapy. In the kidney, radiation injury results in fibrosis and, ultimately, renal failure. The mediators of fibrosis in radiation nephropathy have received scant attention. Therefore, we evaluated the sequential presence of alpha smooth muscle actin (alphasma), fibrin, collagen, and TGFbeta1 in a porcine model of radiation nephropathy using 9.8 Gy single-dose local kidney irradiation. During the 24-week study, there was progressive and significant collagen accumulation in glomeruli and in interstitium. In glomeruli, this was associated with significant mesangial alphasma expression by 2 weeks after irradiation, a further rise at 4 weeks, and then a gradual fall to baseline. Glomerular fibrin deposition was significant by 4 weeks after irradiation, and remained elevated thereafter. There was little or no glomerular TGFbeta1 expression at any time point. Tubular fibrin deposition was significant at 4 weeks after irradiation but declined thereafter. There was little or no tubulo-interstitial alphasma expression at any time after irradiation. At 6 weeks after irradiation, there was a significant peak of tubular epithelial TGFbeta1 expression that declined thereafter. The early glomerular injury is evident as mesangial alphasma expression but is not proceeded by TGFbeta1 expression. There is sustained glomerular fibrin deposition with deposition of fibrin in tubular lumens, suggesting that tubular fibrin derives and flows out from injured glomerular tufts. We conclude that i) alphasma expression is an early marker of glomerular radiation injury, presaging scarring; ii) fibrin deposition is involved in glomerular and tubular radiation injury; and iii) TGFbeta1 is not an early event in radiation nephropathy, and not apparent in glomeruli in this model, but may correlate with later tubulo-interstitial fibrosis. Thus, the mediators of scarring in this model differ according to time after injury and also according to the affected tissue compartment.     

Effect of vasoactive intestinal polypeptide on the cyclic adenosine monophosphate generating system in rat kidney glomeruli and cortical tubules

The effect of in vitro addition of vasoactive intestinal polypeptide (VIP) on the 3'-5'-cyclic adenosine monophosphate (cAMP) generating system in rat kidney glomeruli and cortical tubules was studied. VIP did not stimulate cAMP accumulation in glomeruli; but VIP did stimulate, specifically and in a dose-dependent manner, cAMP concentrations in tubular membranes with the addition of GTP. These results are consistent with the existence of a functionally active VIP receptor coupled to adenylate cyclase in rat kidney cortical tubules.