Jean Schaeverbeke

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 Bowmans 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. (J Histochem Cytochem 45:1059–1068, 1997)

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)

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.

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.

Gentamicin administered during gestation alters glomerular basement membrane development.

Gentamicin during gestation alters glomerular basement membrane development. A drug-induced nephrotoxicity was described for neonates after gentamicin was given intraperitoneally to pregnant Wistar rats; glomerular alterations and changes in permselectivity were important. We investigated the ultrastructure of the glomerular basement membrane (GBM), the arrangement of anionic sites, and the urinary proteins at two ages, with 1-day- and 12-month-old control and prenatally exposed animals. For neonates, the pattern of glomerular differentiation was similar, anionic sites were made of heparan sulfate proteoglycans, and the GBM had the same total thickness in both groups. After transplacental gentamicin exposure, the lamina densa was larger; the laminae rarae were thinner; the density of anionic sites was increased; the levels of hydroxyproline, sulfate, and hexuronic acid in the kidney were increased; and the immunoelectrophoresis of urinary proteins was abnormal. For adults, prenatal exposure to gentamicin led to altered juxta-medullary glomeruli with a larger GBM and abundant anionic sites, especially in the lamina densa, and to a protein excretion different from that of controls. Thus, gentamicin administered during pregnancy leads to permanent alterations of the GBM with modifications of both the layers and the anionic sites, possibly because of a perturbed protein metabolism. These altered glomeruli are at risk during life and could be the starting point for a kidney disease. Images

Leishmania donovani : antagonistic effect of S-adenosyl methionine on ultrastructural changes and growth inhibition induced by sinefungin

Sinefungin, an antifungal and antiparasitic nucleoside antibiotic, is a very potent antileishmanial agent in vitro and in vivo (Bachrach et al. 1980, FEBS Letters 121, 287-291; Neal et al. 1985, Transactions of the Royal Society of Tropical Medicine and Hygiene 79, 85-122). It was previously shown that this molecule is a competitive inhibitor of AdoMet for transmethylases (Paolantonacci et al. 1986, Molecular and Biochemical Parasitology 21, 47-54; Avila et al. 1987, Molecular and Biochemical Parasitology 26, 69-76) and that it induces shape changes of Leishmania donovani promastigotes as observed by light microscopy (Lawrence and Robert-Gero 1990; Bulletin de la Societé Française de Parasitologie 8, 13-18). In the present work the effect of the antibiotic on the ultrastructure was analyzed by electron microscopy. The main changes induced at sublethal concentrations (0.26 microM sinefungin for 16 hr) were progressive rounding, decreased motility, enlargement of the flagellar pocket, and shortening and loss of the external part of the flagellum. The comparison with control cells showed shorter Golgi saccules and fragmentation of the trans-Golgi network into vesicles, indicating a stimulated Golgi apparatus activity. This result, associated with the enlarged flagellar pocket, suggests an unbalanced cytoplasmic exchange between exocytosis and endocytosis. These effects are quite different from those induced by tunicamycin (Dagger et al. 1984, Biology of the Cell 50; 173-180) or paromomycin. In addition, other nucleoside and nonnucleoside growth inhibitors failed to induce similar changes. AdoMet antagonized the sinefungin-induced shape changes and ultrastructural modifications but had no effect with respect to other growth inhibitors. This suggests that the sinefungin activity at the cellular level is specifically related to competition with AdoMet. A comparative study of N-methylation and carboxylmethylation of proteins in sinefungin-treated promastigotes showed that the antibiotic preferentially inhibits the latter, catalyzed by protein-O-methyltransferases. These enzymes are known to regulate the function of various proteins involved in secretion. Overall the results suggest that one of the main targets of sinefungin in exponentially growing cells is the protein carboxylmethylation involved in membrane transport.

Glomerular alterations in rat neonates after transplacental exposure to gentamicin

Alterations of tubules and glomerules have been reported previously in kidneys of rat neonates after aminoglycosides were given to the mother during gestation. Here, we have studied the effects of gentamicin on the development of the glomerular basement membrane (GBM). Pregnant Wistar female rates were treated with gentamicin. Deliveries occurred normally. Using electron microscopy, we looked at the deepest glomerules of the kidneys of 1-day-old neonates: myeloid bodies were found in podocytes, and the GBM appeared thicker and denser than in controls. Anionic ferritin, injected intravenously crossed the GBM in prenatally gentamicin-exposed animals, but not in controls. Furthermore, urine electrophoresis showed the presence of proteins normally found only in the urine of fetuses 2 days before birth. We suggest then, that in utero exposure to gentamicin leads to a delay of renal maturation and that the GBM is altered in juxtamedullary nephrons while it is normally differentiated and functioning in controls. Thus exposure to drugs before birth could be harmful to the GBM.

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.

Transplacental effects of gentamicin on endocytosis in rat renal proximal tubule cells

Changes in kidney maturation in utero have been reported after gentamicin administration to pregnant rats. While the proteinuria commonly observed, could be related to modifications of the glomerular basement membrane, perturbed renal protein handling could be accounted for by changes in the proximal tubular cells. Therefore, we studied the effect of gentamicin on the renal handling and transport of proteins in proximal tubular cells using the horseradish peroxidase, a fluid-phase marker, as a probe. Gentamicin was administered intraperitoneally to pregnant Wistar rats (75 mg/kg body weight per day) and neonatal kidneys were studied 1 day after birth. In proximal tubular cells of the deep cortical area, containing the fully matured nephrons of neonates, the transport and digestion of reabsorbed peroxidase was considerably reduced compared with controls where peroxidase reached lysosomes after endocytosis. Urinary protein excretion increased in treated animals. We conclude that gentamicin, entering the proximal tubular cells via the endocytic pathway, decreases the tubular reabsorption of proteins, thus increasing urinary protein excretion.

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.