Cellular signaling, AGE accumulation and gene expression in hepatocytes of lean aging rats fed ad libitum or food-restricted.

The effects of food restriction on liver glucagon and vasopressin V1a receptors, on AGE accumulation and on gene expression were investigated in 10- and 30-month-old WAG/Rij female rats fed ad libitum or chronically food-restricted by 30%. The age-related increase in glucagon and vasopressin V1a receptor density, as well as the rise in glucagon-induced cAMP generation was prevented by the restriction. AGE accumulation, characteristic of the aging process, was normalized in food-restricted animals. Gene expression determined with rat Atlas cDNA Expression Arrays containing 1176 cDNA indicates that a few genes exhibited a greater than twofold change in mRNA ratios with age. Most down-regulated genes were related to oxidative metabolism of lipids, and most of the up-regulated genes were concerned with the cell cycle and transcription factors. Chronic food restriction partially prevents these changes in gene expression and induces up- and down-regulation of several mRNAs which are not modified with age in ad libitum fed rats.

N-phenacylthiazolium bromide decreases renal and increases urinary advanced glycation end products excretion without ameliorating diabetic nephropathy in C57BL/6 mice.

AIMS: Advanced glycation end products (AGE), which form from the non-enzymatic reaction of proteins and sugars, have been implicated in the pathogenesis of diabetic nephropathy. Recently, a compound [N-phenacylthiazolium bromide (PTB)] has been described which cleaves alpha,beta-dicarbonyl compounds. In the present study we used diabetic C57BL/6 mice to determine if PTB altered renal AGE levels and reduced diabetic glomerulosclerosis. METHODS: Mice with stable hyperglycaemia induced by streptozotocin were given daily subcutaneous injections of either PTB (10 microg/g) or saline for 12 weeks. Renal-collagen bound AGE and urinary AGE-peptides were measured by ELISA using an anti-AGE-RNase antibody. Renal collagen-released Nepsilon(carboxymethyl)lysine (CML) and pentosidine were determined by high pressure liquid chromatography (HPLC). Glomerular lesions (volume and mesangial/total surface area) were evaluated by computer-assisted image analysis. We determined urinary protein/creatinine ratio as a functional parameter. AGE localization was examined by immunohistochemistry using the anti-AGE-RNase antibody. RESULTS: Renal collagen-bound AGE were decreased and urinary AGE excretion was increased in PTB-treated diabetic mice. However, collagen-released CML and pentosidine were similar in both groups. Glomerular histology and morphometric analysis revealed also no differences between PTB-and saline-treated diabetic mice. The urinary protein/creatinine ratio was unaffected by PTB-treatment. AGE staining by anti-AGE-RNase antibody was present in Bowman's capsules, glomerular basement membranes and cortical tubules. It was decreased in all structures in PTB-treated diabetic mice. CONCLUSION: In summary, PTB decreased renal AGE accumulation but did not ameliorate glomerular lesions or proteinuria. Thus, cleavage of AGE by PTB is not sufficient to prevent development of diabetic nephropathy in C57BL/6 mice.

Inhibition of nitric oxide synthase activity by early and advanced glycation end products in cultured rabbit proximal tubular epithelial cells.

Nitric oxide (NO) is important in the regulation of renal tubular function. We have investigated whether glycated proteins could impair the NO production by examining the effects of Amadori products (AP-BSA) and advanced glycation end products (AGE-BSA) on primary cultures of rabbit proximal tubular epithelial (PTE) cells. Nitric oxide synthase activity was assessed by measurement of the conversion of L-arginine to L-citrulline and by production of NO, after short-term (30 min) or long-term (1 or 3 days) incubation. Short incubations of PTE cells with either 200 microg/ml AP-BSA or 40 microg/ml AGE-BSA significantly decreased NO production. AP-BSA (3000 microg/ml) inhibited the Ca(2+)-dependent NOS activity even though above 50 microg/ml it increased Ca(2+)-independent NOS activity. In contrast, 40 microg/ml AGE-BSA inhibited both isoforms of NOS. Longer incubations with 200 microg/ml AP-BSA or 250 microg/ml AGE-BSA decreased NO release and inhibited Ca(2+)-dependent and -independent NOS activities. APs did not affect NO release by S-nitroso-N-acetyl-penicillamine (SNAP), while 250 microg/ml AGEs decreased it. After 3 days incubation, glycation products had no effect on the NOS cell content. Cell viability and proliferation were not modified under these experimental conditions, suggesting that the fall in NO production was not due to there being fewer cells. These data indicate that APs and AGEs directly inhibit NOS activity, and additionally that AGEs quench released NO. Thus, both types of glycated proteins alter the production of NO by PTE cells and could participate in the renal tubule dysfunction associated with aging and diabetes.

Accumulation of advanced glycation endproducts in the rat nephron: link with circulating AGEs during aging.

The accumulation of advanced glycosylation end products (AGEs) is believed to be a factor in the development of aging nephropathy. We have attempted to establish a link between the formation of AGEs and the onset of renal impairment with aging, indicated by albuminuria, using a fluorescence assay and immunohistochemical detection of AGEs in the renal extracellular matrix in rats. The fluorescence of collagenase-digested Type IV collagen from GBM increased with age, from 1.65 +/- 0.05 AU/mM OHPro (3 months) and 1.58 +/- 0.04 (10 months) to 2.16 +/- 0.06 (26 months) (p < 0.001) and 2.53 +/- 0.18 (30 months) (p < 0.001). In contrast, the extent of early glycation products significantly decreased from 5.35 +/- 0.25 nmol HCHO/nmol OHPro at 3 months to 3.14 +/- 0.19 at 10 months (p < 0.001), 3.42 +/- 0.38 at 26 months, and 0.74 +/- 0.08 at 30 months (p < 0.001). The urinary fluorescence of circulating AGE rose from 2.42 +/- 0.15 AU/mg protein (3 months), 1.69 +/- 0.07 (10 months), to 4.63 +/- 0.35 (26 months) (p < 0.01) and 4.73 +/- 0.72 (30 months), while the serum fluorescence increased from 0.39 +/- 0.02 AU/mg protein at 3 months and 0.43 +/- 0.02 at 10 months to 0.59 +/- 0.04 at 26 months (p < 0.001) and 0.54 +/- 0.03 at 30 months (p < 0.04). Polyclonal antibodies raised against AGE RNase showed faint areas of AGE immunoreactivity in mesangial areas in the nephrons of young rats. The immunolabeling of Bowman's capsule, the mesangial matrices, and the peripheral loops of glomerular and tubule basement membranes increased with rat age. The increase in circulating AGE peptides parallels the accumulation of AGEs in the nephron, and this parallels the pattern of extracellular matrix deposition, suggesting a close link between AGE accumulation and renal impairment in aging rats.

Characterization and distribution of albumin binding protein in normal rat kidney.

The mechanism by which proteins that pass through the glomerular basal lamina are taken up by proximal tubule cells is incompletely characterized. Past work has identified the kinetics of albumin binding to renal brush-border membrane. We have now purified and characterized albumin binding protein (ABP) and shown its distribution in renal proximal tubular cells. ABP was purified from rat renal proximal tubular cell brush-border membrane by affinity chromatography with rat serum albumin-Sepharose. The resulting ABP had two apparent molecular masses (55 and 31 kDa) by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Antibodies to ABP were raised in rabbits and checked by immunoassay and immunoblotting. Light-microscopic immunohistochemistry showed ABP all along the proximal tubule in the pars convoluta and pars recta. Electron-microscopic immunohistochemistry showed labeling on microvilli and in apical endocytic vacuoles, dense apical tubules, and lysosomes. These results indicate that ABP is involved in proximal tubule endocytosis.

Effect of glycation of albumin on its binding to renal brush-border membrane vesicles: influence of aging in rats.

Aging is associated with the loss of preferential urinary excretion of Amadori-product glycated albumin. We have measured the binding of 125I-labeled glycated albumin to the renal brush-border membrane vesicles from young and old rats to determine whether a specific receptor-mediated endocytosis system may be involved. 125I-Glycated albumin was specifically bound by renal brush-border membrane vesicles in a time- and temperature-dependent manner; the binding was concentration-dependent, saturable and reversible. Scatchard plots gave an apparent dissociation constant Km of 488 +/- 17 nM, and a number of binding sites N of 33.5 +/- 3.4 pmol/mg protein/min in membrane vesicles from young (3 months old) rats; the binding of native [125I]albumin, gave a Km of 1194 +/- 200 nM (P < 2%) and N of 82.4 +/- 16.3 pmol/mg protein/min (P < 3%). Vesicles from 10-month-old rats had a similar Km (619.6 +/- 135.3 nM) and N (21.91 +/- 2.98 pmol/mg protein/min), while those from older (30 months old) rats had significantly increased Km (1344 +/- 237 nM, P < 3%) and N (81.3 +/- 10.9 pmol/mg protein/min, P < 1%) for 125I-glycated albumin binding. 125I-Glycated HSA was not displaced by unlabeled native HSA in less than 100-fold excess and native [125I]HSA was only displaced by a 10-fold excess of unlabeled glycated HSA. The binding of native [125I]HSA was partly inhibited (85%) by unlabeled glycated HSA. Thus, there appear to be two different binding sites, one for glycated and the other for native albumin, lying close together; and the glycation site on albumin is the discriminatory recognition factor.

Glycation of albumin with aging and diabetes in rats: changes in its renal handling.

Albumin glycation was investigated in old rats to elucidate the link between the preferential excretion of glycated albumin and age-related microalbuminuria. Postprandial blood glucose and the glycated albumin in the serum and urine of 3-, 10- and 30-month-old Wistar rats and in streptozotocin diabetic rats were determined. Blood glucose increased from 1.46 +/- 0.046 g l-1 in 3-month-old rats to 2.08 +/- 0.06 (10 months) and 1.75 +/- 0.23 (30 months) (P < 0.05). Albumin glycation level in the serum increased from 0.79 +/- 0.07 nmol HCHO/nmol albumin (3 months) to 1.41 +/- 0.14 (10 months) and 1.73 +/- 0.21 (30 months) (P < 0.05); urinary level increased from 1.63 +/- 0.39 nmol HCHO/nmol albumin (3 months) to 2.92 +/- 0.57 (10 months) and 2.39 +/- 0.36 (30 months) (P < 0.01). The percent glycated albumin in serum rose from 3.33 +/- 0.64 to 6.81 +/- 0.63 and 6.99 +/- 1.79% of total albumin (P < 0.05), whereas the urine percentage decreased from 12.81 +/- 3.97 to 12.64 +/- 2.87 and 2.63 +/- 0.97% (P < 0.05) in 3-, 10- and 30-month-old rats, respectively. Editing decreased with aging from 4.28 +/- 0.83 (3 months) to 1.84 +/- 0.32 (10 months) and 0.52 +/- 0.14 (30 months) (P < 0.01). Editing in microproteinuric diabetic rats was lower (0.95 +/- 0.08) than in 3-month-old control rats (P < 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)

Age-related changes in albumin binding by renal brush-border membrane vesicles.

A selective proteinuria occurs with normal aging. We investigated the contribution of a defect in the receptor-mediated endocytosis to the age-related albuminuria by measuring albumin binding by renal brush-border membrane vesicles from young and old female Wistar rats using a filtration method. Old (24 months) rats had a significantly higher proteinuria (13.29 +/- 5.25 mg prot/24 h/100 g bw) than did young (3 months) rats (1.23 +/- 0.55 mg prot/24 h/100 g bw). Scatchard analysis of the kinetic parameters of 125I-albumin binding revealed a decrease in the binding capacity of brush-border membrane vesicles from old rats. The number of binding sites, N (pmol/mg protein/min) was 236.84 +/- 97.50 in old rat preparations and 380.27 +/- 178.36 in young rat vesicles (P < 0.05). By contrast, Km did not change significantly with age (478.86 +/- 259.29 nM in old rat vesicles and 498.00 +/- 220.36 nM in young rat preparations). Consequently the index of adsorptive endocytosis efficiency (the N/Km ratio) decreased drastically with age from 0.782 +/- 0.238 at 3 months to 0.547 +/- 0.199 at 24 months (P < 0.05). These data indicate that defective receptor-mediated endocytosis could, at least partly, explain the age-dependent rise in urinary albumin excretion.

Age-related changes in the plasma membrane proteoglycans of rat kidney glomerular cells.

In a previous in vivo study, we showed that the glomerular cells of rat kidney synthesize both peripheral and integral plasma membrane proteoglycans. The present work focuses on the age-related changes in these cell membrane proteoglycans. The peripheral proteoglycans in "adult control" rats aged 3 months were found to be heparan sulfate, dermatan sulfate, and chondroitin sulfate, with heparan sulfate being the main glycosaminoglycan. The integral membrane proteoglycans contained mainly dermatan sulfate plus less amounts of heparan sulfate. The relative proportions of the glycosaminoglycans in the integral membrane proteoglycans changed between 1 and 3 months. In addition, the degree of sulfation increased in both families of proteoglycans, and this was associated with an increase in glycosaminoglycan synthesis in the peripheral proteoglycans. The nature and relative proportions of the glycosaminoglycans forming the proteoglycans, did not change with age, after 10 months, and neither did the amount of glycosaminoglycans. But, the degree of sulfation of both peripheral and integral membrane proteoglycans decreased. De novo synthesized proteoglycans from 24-month-old rats had a higher overall charge than did those at other ages, owing to the presence of sulfate and carboxylic groups. We conclude that, as for glomerular basement membrane proteoglycans, biochemical alterations affect the glomerular cell membrane proteoglycans with aging.

Binding of 125I-labelled albumin by isolated rat renal brush-border membrane vesicles. Evidence for uptake and internalization process.

1. In the kidney, filtered proteins are rapidly reabsorbed by the proximal tubule via adsorptive endocytosis. This process starts with the protein binding to the luminal brush-border membrane. 2. The binding of 125I-labelled albumin to rat renal brush-border membrane vesicles and the effect of a low molecular weight protein lysozyme on that binding was assessed by the filtration method. 3. The Scatchard plot revealed a one-component binding-type curve with a dissociation constant Kd of 430.9 nM and 39.6 pmol/mg membrane protein for the number of binding sites. 4. Albumin binding was saturable and reversible, time and temperature dependent and the initial rate enhanced by increasing amounts of lysozyme. 5. The fact that association of albumin with the brush-border membrane vesicles was dependent upon the intravesicular space suggested a double process, binding of the ligand to the membrane surface and its internalization. These data suggest that albumin has a different binding site than that of a low-molecular weight protein lysozyme, with a constant affinity value near physiological loads. That specificity may confer selectivity upon the endocytic uptake process.

Basement membrane proteoglycans and anionic sites in the fetal rat kidney during late gestation.

Proteoglycans were studied in developing rat fetal kidney using cytological and biochemical techniques. These compounds were detected with immunoperoxidase in the nephron basement membranes from the earliest stages of differentiation. In the glomerular basement membrane, immunostaining appeared as both diffuse and granular deposits, as long as this membrane consisted of loose material; however, as soon as a three-layered membrane had formed, staining was confined to the laminae rarae as regularly arranged granules. The same pattern of staining was observed during differentiation of the basement membrane of the proximal tubule. In Bowman's capsule, immunostaining appeared as granules, which were sparsely distributed in the developing glomerulus and then regularly lined the stacked laminae when differentiation was complete. In all basement membranes, anionic sites (disclosed by polyethyleneimine) were colocated with immunostained granular deposits. Total glycosaminoglycan content gradually increased from the beginning of metanephros development to birth. During this period, the relative proportions of glycosaminoglycans changed: heparan sulfate increased and hyaluronic acid decreased as differentiation proceeded. The possible relationship between morphological observations and biochemical changes in glycosaminoglycan content is discussed.

Localization of basement membrane glycoproteins in rat kidney during foetal development.

The distribution of basement membrane glycoproteins (type IV collagen, laminin, fibronectin, and proteoglycans) was studied in foetal rat kidney by immunohistochemical techniques using polyclonal antibodies. From the first stages of nephron differentiation, all these glycoproteins were detectable by immunofluorescence in the tubular and glomerular basement membranes and in the mesangial matrix. As differentiation proceeded, labelling of glycoproteins progressively intensified, except for that of fibronectin, which gradually decreased in the glomerular basement membrane (GBM) and was barely observable at full differentiation. With immunoperoxidase staining in electron microscopy, all glycoproteins were seen to be widely dispersed in the spaces between the epithelial and endothelial glomerular cells so long as the GBM remained a loose structure. However, after it became a compact, 3-layered formation, type IV collagen and laminin were distributed throughout the GBM, whereas proteoglycans and anionic sites appeared as 2 rows of granules confined to the laminae rarae.

Differentiation of the glomerular filtration barrier in the rat fetus: possible role of collagen.

Successive steps leading to the development of glomerular ultrafiltration properties were explored in rat fetuses. The appearance of the lamina densa of the glomerular basement membrane (GBM) concurrently with a sharp rise in collagen biosynthesis suggest a prominent role for these events in restricting permeability to plasma proteins. Sieving functions of the glomerular barrier are shown to depend on macromolecular architecture of the GBM, negative-fixed charges of the laminae rarae representing only one factor in maintaining the structure required for selective permeability.

On the presence of a metalloprotease in human skin fibroblasts that degrades the human skin elastic fiber system.

Succinyl-trialanine paranitroanilide, a specific synthetic substrate of elastases, was shown to be hydrolyzed by Triton X-100 extracts of human skin fibroblasts at near neutral pH. The neutral endopeptidase has been partially purified by ion exchange chromatography (DEAE Sephadex) and affinity chromatography using an AH-Sepharose (Ala)3 column. The enzyme has been purified 85-fold and appears to be a metalloprotease as shown by its inhibitory profile. In its partially purified form, the neutral endopeptidase was found inactive toward benzoyl arginine paranitroanilide, benzoyl tyrosine paranitroanilide, azocasein, type I collagen, and [3H]ligamentum nuchae-insoluble elastin. Structural glycoprotein microfibrils isolated from porcine aorta are extensively degraded by this neutral protease. It could also hydrolyze, but to a lesser extent, insoluble elastin purified from human aortas; it was, however, found inactive toward bovine ligamentum nuchae elastin. Its potentiality to degrade the human skin elastic fiber system (namely elastic fibers, oxytalan, and elaunin fibers) has been assessed by a morphometric analysis of the length of these fibers (on tissue sections appropriately stained to identify the components of the elastic fiber system) prior to and after enzyme action. Analysis of the data obtained by morphometry indicated that this neutral protease attacked rapidly both elaunin and oxytalan fibers of human dermis, but only slowly the mature elastic fibers.

[Changes in the glomerular filtration barrier during aging in rats]. / Modifications de la barrière de filtration glomérulaire au cours du vieillissement, chez le rat.

In this work, we analysed histochemical, biochemical and functional modifications of the glomerular basement membrane (GBM), occurring for aging, in the Rat. The results suggest an increase of collagenous components and a decrease of sulfated glucosaminoglycans as a function of age. In other respects, fixed anionic sites of the GBM, disclosed by colloidal iron, are almost exclusively restricted to the laminae rarae in one month-old rats, whereas the marker appears randomly scattered among the lamina densa in 12 month-old animals. These changes could be the cause of increased permeability of the GBM during aging.

Effect of Mg2+ and Ca2+ on enzymatic elastolysis of insoluble elastin determined by a conductimetric method.

The effect of some divalent cations on the elastolysis of insoluble elastin by pancreatic elastase has been studied with a conductimetric method. Mn2+ and Cu2+ give progressive inhibition, while Ca2+ initially slightly increases elastolysis, then becomes an inhibitor at concentrations higher than 10(-4) M. A stronger effect is demonstrated with Mg2+ which increases the initial velocity of the enzymatic reaction. However, there is no effect when N-succinyl-(Ala)(3)-paranitroanilide is used as the substrate. The different effects observed can be explained by an enzymatic activation process (cation-enzyme complex) and/or by a conformational change of the insoluble elastin.