Cellular differentiation in the kidneys of newborn mice studies with the electron microscope

The structure of the kidney of the Swiss albino mouse changes progressively during the first 2 weeks after birth. Cells proliferate to form new nephrons, cells differentiate by acquiring specialized membranous components, and certain cytological features which are present at birth diminish in abundance or disappear. The differentiation of the cells of the cortical tubules has been studied using the light and electron microscopes. The tubules are partially and variably differentiated at birth. During the first 2 weeks after birth the brush border develops in the proximal tubules by the accumulation of numerous microvilli on the apical cell margins. Basal striations develop in proximal and distal tubules as an alignment of mitochondria, the result of what appears to be progressive interlocking of adjacent fluted cells. The mitochondria increase in number and size, accumulate homogeneous matrix, and acquire small, very dense granules. The collecting ducts develop tight pleating of the basal cell membranes, and dark cells containing numerous small cytoplasmic vesicles and microvilli appear. At birth there are dense irregular cytoplasmic inclusions presumed to be lipide in renal cells, the cytoplasmic granules of Palade are abundant, and there are large round bodies in the cells of the proximal tubules. The lipide inclusions disappear a few days after birth, and the cytoplasmic granules of Palade diminish in abundance as the cells differentiate. The large round bodies in the proximal tubules consist of an amorphous material and contain concentrically lamellar structures and mitochondria. They resemble the cytoplasmic droplets produced in the proximal tubules of adult rats and mice by the administration of proteins. The large round bodies disappear from the proximal tubules of infant mice during the first week after birth, but the concentric lamellar structures may be found in adult mice.     

Studies on the morphology and ultrastructure of the Malpighian tubules of Halobiotus crispae Kristensen, 1982 (Eutardigrada)

The excretory and osmoregulatory system of Halobiotus crispae consists of two lateral and one smaller dorsal Malpighian tubules, which empty into the digestive tract in the transition zone of the midgut and rectum. The tubules are identical at the ultrastructural level, and consist of an initial segment with three large cells, a thin transitional distal part lacking a nucleus, and a proximal part with 9–12 nuclei. The initial segment possesses deep basal infoldings and interdigitating, finger-shaped processes of the plasma membrane, large mitochondria and giant nuclei. The distal part is a short section which supports the initial segment. Cellular offshoots from the succeeding proximal part constitute the distal part. The distal and proximal parts contain intercellular canals with concretions of variable size. The exit of the proximal part into the digestive tract is characterized by the presence of microvilli. Correlated with the different stages in the cyclomorphosis of H. crispae , we observed size variation of the Malpighian tubules; thus, pseudosimplex stages have the largest tubules. We present suggestions concerning the physiology of the tubules and compare the Malpighian tubules of Tardigrada with the Malpighian papillae of Protura.     

Pathogenetic significance of lipid peroxidation in damage of the proximal segment of the nephron in acute Masugi's nephritis

During the acute experimental nephritis a decrease of reabsorption by proximal tubules is combined with the activation of the lipid peroxidation into the renal cortex without changes in the activation of lysosomal enzyme of acid phosphatase and cathepsin D. Ionol, an inhibitor of oxygen products, exerts a protective action on the renal function and reabsorption by proximal tubules, decreasing concentration of the malondialdehyde into the renal cortex.     

Lactate oxidation by three segments of the rabbit proximal tubule

Oxidation of [U14C]lactate to 14CO2 was measured in vitro, in nonperfused anatomically defined segments of rabbit proximal tubule (S1, proximal convoluted, and S2 and S3, proximal straight tubules). The rate of lactate oxidation was similar in S2 and S3 segments, and within the range of lactate oxidation rates measured in vivo. In contrast, the oxidation rate of S1 segments was significantly lower than that of S2 or S3. In proximal straight tubules, lactate oxidation was inhibited by incubation at 0 degrees C, or by application of 1 mM ouabain. To determine if the rate of transepithelial transport affected the rate of lactate oxidation, lactate oxidation was measured in proximal straight tubules after the lumen had been opened by perfusion with Ringer's containing 10 mM polyethylene glycol. No difference in lactate oxidation rate was observed between tubules with patent lumina and nonperfused tubules. These results suggest that the various segments of the renal proximal tubule have different metabolic characteristics, and that the rate of substrate oxidation is related to the activity of the Na+, K+-ATPase.     

Histochemical studies on the uptake of horseradish peroxidase by rat kidney slices

When rat kidney slices were incubated in the presence of horseradish peroxidase, there was an energy-dependent uptake of the protein by the cells of the kidney tubules. The uptake was greatest in the proximal convoluted tubules and in the thick ascending limbs of the loops of Henle; it was abolished by cold, anoxia, 2,4-dinitrophenol, and fluoroacetate, and was more readily depressed by unfavorable metabolic conditions in the proximal convoluted tubules than in the thick ascending limbs. Protein uptake was inhibited when the kidney slices were incubated in electrolyte-free media. In sodium chloride solutions, uptake was reduced as sodium was progressively replaced by choline, and ouabain inhibited uptake in the proximal convoluted tubules, but not in the thick ascending limbs. To a limited extent, lithium could replace sodium in the incubation medium with no depression of peroxidase uptake. These results suggest that a sodium-stimulated, ouabain-sensitive ATPase may be involved in the uptake of protein by cells of the kidney tubule. The intracellular transport of peroxidase in cells of the proximal convoluted tubules was abolished by cold, anoxia, and 2,4-dinitrophenol, but it was not affected by concentrations of ouabain which inhibited the uptake of the protein.     

Dissolution of granules in the Malpighian tubules of Musca autumnalis DeGeer,during mineralization of the puparium

The dissolution of mineralized granules stored in the larval Malpighian tubules of the face fly, Musca autumnalis DeGeer, was studied both in situ and with isolated granules in vitro. The release of calcium, phosphorus, and magnesium from granules increased exponentially as the pH of the bathing medium was decreased. The pH measured in the distal region of the Malpighian tubules was 8.08 while that of the proximal region was 7.35. Thus, the decrease in pH of lumen contents from distal to proximal regions of the tubules appears to be a major effector of granule dissolution. Loss of structural integrity of the granules accompanied mineral release and also increased as pH of the bathing medium was lowered in vitro. This structural disintegration was similar to that observed in naturally dissolving granules isolated from the proximal region of the Malpighian tubules. The larval tubules, therefore, appear to have regional specialization in that granules are formed and stored in the distal lumen and dissolution takes place as granules move into the more acidic proximal region. No granules were found in the larval hindgut contents also indicating that dissolution and transport take place in the proximal region of the tubules. However, granules of similar composition were found in the meconium and in the most distal regions of adult Malpighian tubules.     

Enhancement of gentamicin-induced nephrotoxicity by Mg deficiency in non-pregnant rats. Morphological, enzyme histochemical and immunohistochemical studies

Non-pregnant rats fed an Mg-deficient diet showed some degenerated and calcified proximal tubules in the inner region of the medullary rays accompanied by reduced or absent enzyme activities. After gentamicin treatment some damaged convoluted proximal tubules occurred. Enzyme histochemistry revealed decreased activities for brush border and lysosomal hydrolases; using immunohistochemistry lesions were detectable for the cytoskeletal proteins keratin and vimentin. Administration of gentamicin to Mg-deficient rats led to a further decrease of hydrolase activities in obviously intact proximal tubules and drastic structural and enzymatic defects as well as alterations of the cytoskeletal proteins in the convoluted and straight segments of other proximal tubules and to a lesser degree also in glomeruli and further portions of the tubular apparatus including the collecting ducts.     

Intra-endosomal pH-sensitive recruitment of the Arf-nucleotide exchange factor ARNO and Arf6 from cytoplasm to proximal tubule endosomes

Kidney proximal tubule epithelial cells have an extensive apical endocytotic apparatus that is critical for the reabsorption and degradation of proteins that traverse the glomerular filtration barrier and that is also involved in the extensive recycling of functionally important apical plasma membrane transporters. We show here that an Arf-nucleotide exchange factor, ARNO (ADP-ribosylation factor nucleotide site opener) as well as Arf6 and Arf1 small GTPases are located in the kidney proximal tubule receptor-mediated endocytosis pathway, and that ARNO and Arf6 recruitment from cytosol to endosomes is pH-dependent. In proximal tubules in situ, ARNO and Arf6 partially co-localized with the V-ATPase in apical endosomes in proximal tubules. Arf1 was localized both at the apical pole of proximal tubule epithelial cells, but also in the Golgi. By Western blot analysis ARNO, Arf6, and Arf1 were detected both in purified endosomes and in proximal tubule cytosol. A translocation assay showed that ATP-driven endosomal acidification triggered the recruitment of ARNO and Arf6 from proximal tubule cytosol to endosomal membranes. The translocation of both ARNO and Arf6 was reversed by V-type ATPase inhibitors and by uncouplers of endosomal intralumenal pH, and was correlated with the magnitude of intra-endosomal acidification. Our data suggest that V-type ATPase-dependent acidification stimulates the selective recruitment of ARNO and Arf6 to proximal tubule early endosomes. This mechanism may play an important role in the pH-dependent regulation of receptor-mediated endocytosis in proximal tubules in situ.     

Proximal tubular atrophy: Qualitative and quantitative structural changes in chronic obstructive nephropathy in the pig

Summary Kidneys of pigs with various degrees of induced chronic obstructive nephropathy were studied by light- and electron microscopy to assess the structural changes of proximal convoluted tubules with increasing degrees of atrophy. A particular aim was to evaluate the quantitative relationship between proximal tubular and interstitial changes in early tubular atrophy. The kidneys were subjected to varying degrees of ureteral obstruction and were fixed by in vivo vascular perfusion. Quantitative (morphometric) analyses were carried out on montages of electron micrographs representing randomly selected cortical areas and cross sections of individual proximal convoluted tubules. The results demonstrated that ureteral obstruction was followed by significant reductions in proximal tubular epithelium, in volume of proximal tubular mitochondria and in surface area of proximal tubular basolateral membranes. These changes were present even in the absence of any demonstrable increase in cortical interstitium or alterations in the relationships between proximal tubules and peritubular capillaries. With increase in the volume of cortical interstitium the proximal tubules were further simplified in ultra-structure with a reduced number of interdigitating lateral cell processes. Concomitantly there were significant quantitative changes in the spatial associations between tubules and capillaries due to increase in tubulo-capillary distances. The present study shows that ultrastructural changes in proximal tubules during early atrophy precede the volume increase in cortical interstitium associated with chronic obstructive nephropathy. It is suggested that the early tubular changes are due to decreased functional loads, whereas the further progression of tubular atrophy may be a result of impaired nourishment of the tubular cells due to increased interstitial tissue and altered relationships between tubules and capillaries.This work was supported by grant no 12-0727 from the Danish Medical Research Council     

Enhancement of gentamicin-induced nephrotoxicity by Mg deficiency in non-pregnant rats

Summary Non-pregnant rats fed an Mg-deficient diet showed some degenerated and calcified proximal tubules in the inner region of the medullary rays accompanied by reduced or absent enzyme activities. After gentamicin treatment some damaged convoluted proximal tubules occurred. Enzyme histochemistry revealed decreased activities for brush border and lysosomal hydrolases; using immunohis-tochemistry lesions were detectable for the cytoskeletal proteins keratin and vimentin. Administration of gentamicin to Mg-deficient rats led to a further decrease of hydrolase activities in obviously intact proximal tubules and drastic structural and enzymatic defects as well as alterations of the cytoskeletal proteins in the convoluted and straight segments of other proximal tubules and to a lesser degree also in glomeruli and further portions of the tubular apparatus including the collecting ducts.Supported by the Deutsche Forschungsgemeinschaft (Sfb 174)     

Effect of functional loading on the operation of the active transport system for organic acids in the proximal kidney tubules of rats after unilateral nephrectomy and in the early postnatal period

The influence of a prolonged introduction of exogenic organic acid penicillin (that is functional loading) on the level of accumulation of an anionic dye (fluorescein) in renal proxima tubules was studied after unilateral nephrectomy and early postnatal period. Injection of penicillin 2 days after unilateral nephrectomy slowly increased Na-independent and strongly increased Na-dependent component of active fluorescein transport in renal proximal tubules of randombred, but strongly decreased both Na-independent and Na-dependent transport in renal tubules of the Campbell rats. When newborn random-bred, Wistar and Campbell rats were pretreated with penicillin, we obtained a slow increase in Na-independent and a strong increase in Na-dependent component of fluorescein transport in renal tubules of random-bred and Wistar rats, but a significant reduction in both Na-independent and Na-dependent transport. It is concluded that the ability for adaptive (or substrate) stimulation of active transport of organic anion in renal proximal tubules is controlled genetically. Adaptive stimulation of organic acid transport in renal tubules referred to in literature as "carried induction", was accomplished apparently by the increase in driving force of the active transport, that is evidently the level of electrochemical Na+-gradient.     

Evidence for a functional intracellular angiotensin system in the proximal tubule of the kidney

ANG II is the most potent and important member of the classical renin-angiotensin system (RAS). ANG II, once considered to be an endocrine hormone, is now increasingly recognized to also play novel and important paracrine (cell-to-cell) and intracrine (intracellular) roles in cardiovascular and renal physiology and blood pressure regulation. Although an intracrine role of ANG II remains an issue of continuous debates and requires further confirmation, a great deal of research has recently been devoted to uncover the novel actions and elucidate underlying signaling mechanisms of the so-called intracellular ANG II in cardiovascular, neural, and renal systems. The purpose of this article is to provide a comprehensive review of the intracellular actions of ANG II, either administered directly into the cells or expressed as an intracellularly functional fusion protein, and its effects throughout a variety of target tissues susceptible to the impacts of an overactive ANG II, with a particular focus on the proximal tubules of the kidney. While continuously reaffirming the roles of extracellular or circulating ANG II in the proximal tubules, our review will focus on recent evidence obtained for the novel biological roles of intracellular ANG II in cultured proximal tubule cells in vitro and the potential physiological roles of intracellular ANG II in the regulation of proximal tubular reabsorption and blood pressure in rats and mice. It is our hope that the new knowledge on the roles of intracellular ANG II in proximal tubules will serve as a catalyst to stimulate further studies and debates in the field and to help us better understand how extracellular and intracellular ANG II acts independently or interacts with each other, to regulate proximal tubular transport and blood pressure in both physiological and diseased states.     

Altered expression and localization of insulin receptor in proximal tubule cells from human and rat diabetic kidney

Diabetes is the major cause of end stage renal disease, and tubular alterations are now considered to participate in the development and progression of diabetic nephropathy (DN). Here, we report for the first time that expression of the insulin receptor (IR) in human kidney is altered during diabetes. We detected a strong expression in proximal and distal tubules from human renal cortex, and a significant reduction in type 2 diabetic patients. Moreover, isolated proximal tubules from type 1 diabetic rat kidney showed a similar response, supporting its use as an excellent model for in vitro study of human DN. IR protein down‐regulation was paralleled in proximal and distal tubules from diabetic rats, but prominent in proximal tubules from diabetic patients. A target of renal insulin signaling, the gluconeogenic enzyme phosphoenolpyruvate carboxykinase (PEPCK), showed increased expression and activity, and localization in compartments near the apical membrane of proximal tubules, which was correlated with activation of the GSK3β kinase in this specific renal structure in the diabetic condition. Thus, expression of IR protein in proximal tubules from type 1 and type 2 diabetic kidney indicates that this is a common regulatory mechanism which is altered in DN, triggering enhanced gluconeogenesis regardless the etiology of the disease. J. Cell. Biochem. 114: 639–649, 2013. © 2012 Wiley Periodicals, Inc.     

Metabolic heterogeneity of the proximal and distal kidney tubules

Proximal and distal tubule suspensions were prepared from kidneys of Sprague-Dawley rats by an isolation procedure on a Percoll^R gradient. The marker enzymes alkaline phosphatase (brush border) and hexokinase (cytoplasmic) as well as p-aminohippurate transport capacity, gluconeogenic activity and electron microscopy were used to characterize the two kidney tubule suspensions. The results of this study indicate that cytochrome P-450 is localized to the proximal tubular cells and that the O-deethylation of 7- ethoxycoumarin was higher in the proximal than distal fraction. Both proximal and distal tubules showed glucuronidation and deacetylation capacities and a relatively equal distribution of non-protein sulfhydryls. These studies demonstrate metabolic heterogeneity of the nephron, the proximal tubule being the main site of renal xenobiotic metabolism. Understanding of metabolic heterogeneity of proximal and distal kidney tubules should provide important information regarding cell specific mechanisms of nephrotoxicity.     

Recurrence of posterior polymorphous corneal dystrophy is caused by the overgrowth of the original diseased host endothelium

Peplomycin (PEP), an anti-tumor antibiotic related structurally to bleomycin, is widely used, especially for squamous cell carcinoma but shows renal toxicity. We prepared monoclonal antibodies (mAbs) against N-(γ-maleimidobutyryloxy)succinimide-conjugated PEP. The mAbs were monospecific for PEP, but did not react with bleomycin and other anticancer antibiotics. The mAbs enabled us to develop an immunocytochemical (ICC) method for detecting the uptake of PEP in the rat kidney. Two hours after a single i.v. administration of PEP, ICC revealed immunostaining for PEP in irregularly shaped cytoplasmic granules of the proximal tubules in which the microvilli were also stained. Also, staining occurred in the distal tubules and collecting ducts, in both of which we observed scattered swollen cells, reminiscent of necrotic cells, in which both the nuclei and cytoplasm reacted strongly with the antibody. Twenty-four hours after injection, PEP in the proximal tubules completely vanished, but yet significant amounts of PEP remained in both the distal tubules and collecting ducts. Distribution patterns of PEP in cells of the kidneys resembled, in some ways, those of our recent ICC studies for an organic cation aminoglycoside antibiotic gentamicin. This ICC suggests that PEP taken up in the proximal tubule cells is localized in the lysosomes, and organic cation transporters and bleomycin hydrolase might be involved in entrance and/or disappearance of PEP in this cell type. Furthermore, the distal tubules and collecting ducts may be the sites readily affected by some chemotherapeutic agents.     

Membrane traffic after inhibition of endocytosis in renal proximal tubules

This study was performed to examine quantitatively the cellular organelles involved in membrane recycling after inhibition of luminal endocytosis in renal proximal tubules. Paraffin oil was microinfused into rat renal proximal convoluted tubules to prevent luminal endocytosis. After 1-2 hr the kidneys were fixed by perfusion and prepared for electron microscopy. Segment 1 proximal tubules infused with paraffin oil and control tubules from the same kidney were studied. In addition we examined proximal tubules from kidneys fixed by immersion 30 sec after removal of the kidney. In the oil-infused tubules the large endocytic vacuoles (greater than 0.5 micron) disappeared, the amount of small endocytic vacuoles (less than 0.5 micron) was reduced to about 10%, and the amount of dense apical tubules was significantly increased. The dense apical tubules were very seldom seen connected to the apical plasma membrane in controls but this was occasionally observed in tubules fixed by immersion and relatively often in oil-infused tubules. An ultrastructural morphometric analysis substantiated and extended the qualitative observations and provided quantitative estimates of volumes and surface areas for large endocytic vacuoles, lysosomes, mitochondria, small endocytic vacuoles, and dense apical tubules in control and experimental tubules. The results strongly support the suggestion that the dense apical tubules located in the apical cytoplasm represent the vehicle for the recycling of membrane from endocytic vacuoles back to the plasma membrane, and show that in renal proximal tubule cells small and large endocytic vacuoles are transformed into dense apical tubules when endocytosis is stopped.     

Morphometric study of the ultrastructure of nephrons and collecting tubules in the kidney of rats with renal and spontaneous hypertension.

The convoluted proximal and straight distal tubules and the medullary collecting ducts in kidneys of rats with ischaemic renal hypertension and with genetic spontaneous hypertension were studied by means of electron microscopic morphometry. The volume of mitochondria, the area of their cristae, of the outer surface and of membranes of the intercellular labyrinth, and other ultrastructural characterisitcs were calculated. No significant differences were found in proximal tubules between experimental and control animals, although in the distal tubules in both experiments the coefficient characterizing the level of morphologic organization of mitochondria, which takes into account their basic morphometric parameters, was reduced in hypertensive animals as compared with the intact ones. The volume of mitochondria and the area of their cristae in collecting ducts, and also the area of membranes of the intercellular labyrinth were increased. Our results suggest that in hypertension the reabsorption of substances from the proximal tubules is essentially normal, that it is reduced at the beginning of the distal tubules but is intensified in the collecting ducts.     

CELLULAR DIFFERENTIATION IN THE KIDNEYS OF NEWBORN MICE STUDIED WITH THE ELECTRON MICROSCOPE

The structure of the kidney of the Swiss albino mouse changes progressively during the first 2 weeks after birth. Cells proliferate to form new nephrons, cells differentiate by acquiring specialized membranous components, and certain cytological features which are present at birth diminish in abundance or disappear. The differentiation of the cells of the cortical tubules has been studied using the light and electron microscopes. The tubules are partially and variably differentiated at birth. During the first 2 weeks after birth the brush border develops in the proximal tubules by the accumulation of numerous microvilli on the apical cell margins. Basal striations develop in proximal and distal tubules as an alignment of mitochondria, the result of what appears to be progressive interlocking of adjacent fluted cells. The mitochondria increase in number and size, accumulate homogeneous matrix, and acquire small, very dense granules. The collecting ducts develop tight pleating of the basal cell membranes, and dark cells containing numerous small cytoplasmic vesicles and microvilli appear. At birth there are dense irregular cytoplasmic inclusions presumed to be lipide in renal cells, the cytoplasmic granules of Palade are abundant, and there are large round bodies in the cells of the proximal tubules. The lipide inclusions disappear a few days after birth, and the cytoplasmic granules of Palade diminish in abundance as the cells differentiate. The large round bodies in the proximal tubules consist of an amorphous material and contain concentrically lamellar structures and mitochondria. They resemble the cytoplasmic droplets produced in the proximal tubules of adult rats and mice by the administration of proteins. The large round bodies disappear from the proximal tubules of infant mice during the first week after birth, but the concentric lamellar structures may be found in adult mice.     

Effect of phosphate deprivation on enzymes of the cyclic adenosine monophosphate metabolism in rat proximal convoluted and proximal straight tubules.

Phosphate deprivation causes a resistance to the phosphaturic effect of parathyroid hormone (PTH). The present study determined whether acute phosphate deprivation alters basal or stimulated activities of key enzymes of the cyclic adenosine monophosphate (cAMP) metabolism in microdissected proximal convoluted and proximal straight tubules, since blunted cAMP levels in these proximal subsegments might account for refractoriness to the effect of PTH on phosphate reabsorption in the proximal convoluted and proximal straight tubule segments. In the proximal convoluted tubules of rats fed a normal-phosphate diet (NPD), PTH increased the adenylate cyclase activity by tenfold. In the proximal convoluted tubule of rats fed a low-phosphate diet (LPD), PTH also increased the adenylate cyclase activity by tenfold. In addition, forskolin increased the adenylate cyclase activity to levels similar to PTH in the proximal convoluted tubule of rats fed NPD or LPD. In the proximal straight tubule of rats fed NPD, PTH resulted in an approximately fivefold increase in adenylate cyclase activity. In the proximal straight tubule of rats fed LPD, PTH resulted in a fourfold increase in adenylate cyclase activity. The forskolin-stimulated adenylate cyclase activity was markedly decreased (46%) in the proximal straight tubule of phosphate-deprived rats. The cAMP-phosphodiesterase activity in the proximal convoluted tubule was significantly increased by 26% in phosphate-deprived rats. The cAMP-phosphodiesterase activities in the proximal straight tubules from rats fed NPD or LPD were similar. We conclude that distinct differences in key enzymes of cAMP metabolism exist in the proximal convoluted and proximal straight tubule subsegments. Further, phosphate deprivation affects the cAMP-phosphodiesterase and adenylate cyclase activities differently in these nephron subsegments.(ABSTRACT TRUNCATED AT 250 WORDS)     

Giant lysosomes in the renal proximal tubules--a morphological characteristic of DBA/2 and DBA/1 mouse kidneys.

The DBA/2Cr mouse is characterized by the presence of giant lysosomes located in the proximal convoluted tubules of males and proximal straight tubules of females. However, it remains unclear whether these giant lysosomes in the proximal tubules are characteristic of DBA/2Cr specifically, or are common to other DBA/2 substrains and DBA/1. The present study investigated the morphology of kidneys from DBA/2CrSlc, DBA/2JJcl, DBA/2NCrj and DBA/1JNCrj mice of both sexes. Giant lysosomes in the renal proximal tubules were found to represent common morphological characteristic of both DBA/2 and DBA/1JN.