Plasma levels and renal handling of endogenous amino acids in snakes: a comparative study

Plasma levels of 22 endogenous amino acids were measured by ion-exchange chromatography in four species of snakes: Thamnophis sirtalis, T. radix, Aipysurus laevis, and Python molurus. Despite considerable interspecific variation in the amino acid composition, all species showed relatively high plasma concentrations of histidine, a feature apparently unique to reptiles. The renal handling of these amino acids was studied by renal clearance methods. As in other vertebrates, net tubular absorption of filtered amino acids predominated. However, net tubular secretion of taurine, cysteic acid and/or phosphoserine and beta-alanine was observed, with taurine being the predominant amino acid secreted. The percentage reabsorption of the total amino acids filtered by the snake kidneys ranged from 79 to 95%. Evidence for the postrenal absorption of amino acids in these reptiles is presented. In species that normally undergo hibernation (Thamnophis spp.), the ability of the kidney to reabsorb amino acids was depressed by cold acclimation. Cold acclimation significantly decreased plasma levels of all amino acids except taurine, whose concentration increased. The increase in plasma taurine level may have resulted from cellular osmoregulation. Under these conditions, renal excretion of taurine increased concomitantly with the increase in plasma taurine concentration.     

Interleukin 1 and the glomerular mesangium. I. Purification and characterization of a mesangial cell-derived autogrowth factor

The proteins expressing interleukin 1 (IL 1) activity from rat peritoneal macrophages and cultured glomerular mesangial cells were compared after purification to apparent homogeneity. The purified IL 1 shared a number of biochemical features including m.w., charge, and specific activity. These findings were extended by the results of proteolytic peptide mapping, which revealed similar breakdown oligopeptides, confirming the close resemblance of these two IL 1 species produced by macrophages and mesangial cells. The purified mesangial cell IL 1 acts as an autocrine or paracrine growth factor. The local release of this cytokine may be an important factor in glomerular diseases characterized by mesangial proliferation and matrix expansion.     

Localization and distribution of anionic charges in the glomerular mesangium of normal and nephrotic rats

Sulfated glycosaminoglycans and sialoglycoproteins are thought to play a pivotal role in the glomerular capillary wall barrier to filtration since these anionic charged elements are important in the maintenance of capillary wall integrity and constitute a charge-selective filter. The development of proteinuria in puromycin aminonucleoside (PAN) nephrosis is associated with polyanion loss from the glomerular capillary wall structures. Since in PAN nephrosis the permeability of the mesangial area to plasma proteins and tracer substances has also been shown to be increased, the purpose of this study was to analyse the localization and distribution of anionic charges in the glomerular mesangium in this experimental model. Glycosaminoglycans were labeled by perfusion of the kidneys with ruthenium red solution (RR). Electron microscopic examination revealed the presence of distinct small RR granules ("anionic sites") in the mesangial intercellular matrix substance and in the laminae rarae of the glomerular basement membrane (GBM). The center-to-center spacing of the granules was measured and a frequency distribution of intervals in different interval classes was constructed. In normal glomeruli the anionic sites in the mesangial matrix showed a distribution pattern identical to the GBM with a maximal interval incidence at the 31-40 nm class. In nephrotic rats anionic site distributions in matrix and GBM did not change significantly. Sialoglycoproteins were labeled with colloidal iron (CI). In PAN nephrosis a decrease of CI binding was observed at the epithelial-basement membrane junction of the glomerular capillary wall. However, CI labeling of the mesangial matrix and mesangial cell membranes did not differ from that of normal glomeruli.(ABSTRACT TRUNCATED AT 250 WORDS)     

The mesangial cell culture: a tool for the study of the electrophysiological and pharmacological properties of the glomerular mesangial cell

Cultured rat glomerular mesangial cells (MC) were evaluated as a tool for reliable electrophysiological measurements as well as for fluorimetric determinations of intracellular Ca++. They had a resting potential similar to that observed in cultured vascular smooth muscle cells (VSMCs), in VSMCs of mouse kidney arterioles, or in glomerular--presumably mesangial--cells of kidney slices. The comparison with the other cell types was carried out in order to look for features distinguishing them from these cells, e.g., active and passive electrical membrane properties or electrical membrane responses to vasoactive pharmacological agents. In MCs, as well as in the other cell types, the average membrane potential was approx. -50 mV. The vasoconstrictor peptides angiotensin II (ANG II) and arginine-vasopressin (AVP) caused depolarizations that could be blocked by the respective specific inhibitors of these compounds. The agonist-induced depolarizations have to be attributed, at least in part, to a Ca++ inward current. Norepinephrine, if any, had only a weak action upon MCs, whereas isoproterenol either did not influence the membrane potential or hyperpolarized the cells. Other substances tested, which had no influences upon the membrane potential, were neuropeptide Y and atriopeptin 3. As to their resting electrical properties and their responses to pharmacological agents, cultured mesangial cells did not differ from glomerular, i.e., most probably mesangial, cells in the kidney slice. The difference between mesangial cells and VSMCs consists in their reaction to noradrenaline. Whereas VSMCs respond with a marked depolarization, the noradrenaline effect upon MCs in culture and in the kidney slice is either absent or very weak. Repeated passage of the cells (more than six passages) led to a gradual loss of their responsiveness to the agonists, indicating reduced receptor expression which may be interpreted as dedifferentiation. This held for both cultured MCs and VSMCs. Fluorimetric measurements using the Ca++-specific indicators quin-2 and fura-2 were performed with a purpose-developed, ultrasensitive photon-counting microspectrofluorimeter. Individual MCs as well as isolated glomeruli responded to the vasoconstrictors ANG II and AVP with an increase in Ca++-dependent fluorescence indicating that these agents indeed depolarize the cells partly via a Ca++ influx and increase cytosolic free Ca++.(ABSTRACT TRUNCATED AT 400 WORDS)     

Synaptonemal complex alterations in X-irradiated and in oestrogen-treated mice: a comparative study.

Synaptonemal complexes (SCs) were analysed in male NMRI mice either X-irradiated or treated with oestradiol benzoate (E2B). Animals 30 days old underwent a single X-ray exposure of either 5, 7.5 or 10 Gy and were killed at different times after exposure, i.e., 24 h, 1, 4, 12 and 16 weeks. E2B was injected daily to adult mice from day 30 to day 60 or up to day 90 of age. Oestradiol was also administered during the neonatal period and animals were examined on days 28, 60 and 90 of age. Different SC alterations were found in X-irradiated and in E2B-treated mice. SC lesions were rare in oestrogen-treated adult mice. Among SC anomalies, asynapsis and fragmentation of SC were common lesions. However, the former was more frequent in E2B-treated mice, whereas the latter was more frequent in X-irradiated mice. Quadri- or multi-valents, bridges between bivalents, rings and loops were exclusively encountered in the latter, whereas heterotelomeric associations seemed to be specific in E2B-treated animals. The mechanisms of the different SC lesions are discussed.     

Oxidative stress in primary glomerular diseases: a comparative study

Objective To evaluate the status of oxidative stress in patients with different primary glomerular diseases (PGD) which have differential predisposition to renal failure. Methods Seventy-three patients with PGD and 50 controls were enrolled in the study. They were sub-grouped into non-proliferative glomerulonephritis (NPGN) and proliferative glomerulonephritis (PGN). Levels of serum malondialdehyde (MDA), reactive nitrogen intermediates (RNI), plasma total homocysteine (tHcy), urine 8-isoprostane (8-IP), RBC thiols, glutathione-S-transferase (GST) and serum superoxide dismutase (SOD) were measured spectrophotometrically. Results PGD patients showed a significant increase in MDA, RNI, tHcy, 8-IP levels (P < 0.05) and decreased SOD, total thiols and protein bound thiol levels as compared to controls (P < 0.05). Significantly higher levels of tHcy, MDA and 8-IP (P < 0.05) and lower SOD enzyme activity (P < 0.05) were observed in PGN group as compared to NPGN and control groups. These changes remained significant even after adjustment was made for creatinine. Conclusions Oxidative stress in PGN is significantly higher than NPGN, indicating higher oxidative stress in these patients, independent of degree of renal dysfunction.     

The glomerular mesangial cell: an expanding role for a specialized pericyte

The mesangial cell occupies a central position in the renal glomerulus. It has characteristics of a modified smooth muscle cell, but is also capable of a number of other functions. Among these are generation of prostaglandins (PGs) and mediators of inflammation; production and breakdown of basement membrane and other biomatrix material; synthesis of cytokines; and uptake of macromolecules, including immune complexes. In terms of its smooth muscle activity, the mesangial cell contracts or relaxes in response to a number of vasoactive agents. This ability allows the cells to modify glomerular filtration locally. The cellular mechanism of action of many agents influencing mesangial cells involves activation of phospholipase C for phosphatidylinositol 4,5-bisphosphate. This results in generation of inositol trisphosphate and release of intracellular calcium. Mesangial cell relaxation can be mediated by enhanced cAMP or cGMP generation. Many vasoactive substances also stimulate PG production by mesangial cells. This involves activation of both phospholipase C and A2, the latter being responsible for the release of arachidonic acid. Mesangial cells are also capable of endocytosis of macromolecules, including immune complexes. This is initiated by binding to a specific receptor, resulting in formation of PG, platelet-activating factor, and reactive oxygen species. Mesangial cells can generate interleukin 1 and platelet-derived growth factor and respond to these in an autocrine manner. Thus, the mesangial cell not only can control glomerular filtration, but may also be involved in the response to local injury, including cell proliferation and basement membrane remodeling.     

Permeation of endogenous IgG with an anionic subpopulation into glomerular basement membrane in rat

Conflicting results of previous electron microscopy studies and concerns about the validity of immunoperoxidase technique employed in those studies to accurately localize endogenous IgG in rat glomerular basement membrane (GBM) prompted us to use other techniques to answer the following question: Does endogenous IgG permeate the matrix of GBM? Immunofluorescence, radioimmunoassay (RIA), isoelectric focusing, sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE), and immunodetection on Western blots were used to detect endogenous IgG in GBM. Direct immunofluorescence of normal frozen rat kidney sections prepared from in vivo perfused kidney showed endogenous IgG in a linear pattern of staining in the GBM. RIA for rat IgG found the IgG content of collagenase-solubilized GBM to be 0.48% of the dry weight. Immunodetection for rat IgG on Western blots of SDS-PAGE-separated GBM demonstrated endogenous IgG in purified collagenase-solubilized GBM. IgG was detected as an intact molecule with covalently linked light and heavy chains and not as small immunoreactive catabolic fragments. Isoelectric focusing followed by immunodetection on Western blot showed that part of the endogenous IgG in GBM was anionic. The results clearly show that under normal conditions, endogenous IgG can permeate into the collagen matrix of GBM in rat and that some of this IgG is more anionic than the IgG in serum. These findings may assist in understanding the transit of autoantibodies to subepithelial glomerular antigens located beneath the matrix of GBM in membranous glomerulonephropathy.     

The role of ADAM 15 in glomerular mesangial cell migration

Mesangial cells (MC) occupy the core of the renal glomerulus and are surrounded by a mesangial matrix. In certain diseases, MC migrate through this matrix into the pericapillary space. The mechanisms involved, however, are poorly understood. Members of the ADAM (A Disintegrin And Metalloproteinase) family of membrane proteins have the potential to be key modulators of cell-matrix interactions through the activities of their constituent domains. We have studied the possible role of ADAM 15 in human (H) MC migration in vitro. HMC ADAM 15 was expressed at low levels in serum-free medium but was increased during migration. Antibodies to the individual domains of ADAM 15 and the incorporation of antisense ADAM 15, (but not control oligonucleotide) inhibited this migration. Furthermore, inhibition of migration by the broad spectrum metalloproteinase inhibitor BB3103, demonstrated that metalloproteinase activity was essential for migration. ADAM 15, extracted from HMC membranes, was an active metalloproteinase, which degraded both type IV collagen and gelatin prepared from fibrillar collagen. Activity was inhibited by EDTA but not by phenylmethylsulfonyl fluoride. This is the first report of the potential of ADAM 15 for involvement in the restructuring of the mesangial matrix and in the migration of MC in disease.     

The effect of Helicobacter pylori infection and dietary iron deficiency on host iron homeostasis: a study in mice

BACKGROUND: Helicobacter pylori, which requires iron to survive, may cause host iron deficiency by directly competing with the host for available iron or by impairing iron uptake as a consequence of atrophy-associated gastric hypochlorhydria. The aim of this study was to examine the effect of H. pylori infection and dietary iron deficiency on host iron homeostasis in a mouse model. MATERIALS AND METHODS: H. pylori SS1-infected and uninfected C57BL/6 mice, fed either a normal diet or an iron-deficient diet, were assessed for iron status and infection-associated gastritis over a 30-week period. RESULTS: After 10 weeks, serum ferritin values were higher in H. pylori-infected mice than in uninfected controls, irrespective of dietary iron intake (p = .04). The infection-related increase in body iron stores persisted in the iron-replete mice but diminished over time in mice with restricted dietary iron intake (p < .0001). At 30 weeks serum ferritin levels were lower in these animals (p = .063). No significant difference in bacterial numbers was detected at the 30-week time point (p > .05) and the histological changes observed were consistently associated with infection (p < .01) and not with the iron status of the mice (p = .771). CONCLUSIONS: Infection with H. pylori did not cause iron deficiency in iron-replete mice. However, diminished iron stores in mice as a result of limited dietary iron intake were further lowered by concurrent infection, thus indicating that H. pylori competes successfully with the host for available iron.     

Food provisioning and stone handling tradition in Japanese macaques: a comparative study of ten troops

By addressing the influence of food provisioning on stone handling (SH), a behavioral tradition in Japanese macaques, this study contributes to the ongoing debate in cultural primatology by asking whether human intervention influences the emergence or propagation of behavioral traditions. SH is a form of object play consisting of the manipulation of stones by performing various behavioral patterns. We tested the hypothesis that the frequency of food provisioning affects the daily performance, form, and context of occurrence of SH by influencing a troop's feeding-related activity budget. We used a standardized observation procedure to investigate SH in ten troops of Japanese macaques. In troops provisioned several times a day, SH was more frequent, longer, and more prevalent during provisioning than nonprovisioning periods. These effects of provisioning were not significant in troops provisioned less frequently. SH was more frequently integrated with food-related activities in troops supplied with food several times a day than in the other troops. Food provisioning may be a key factor in the innovation and transformation phases of the SH tradition in Japanese macaques.     

A comparative study in rats of measures of the availability of dietary zinc and iron

The purpose of this study was to compare three measures of the availability of dietary Zn and Fe in order to test their validity. Thirty-six 5-wk-old rats were fed deionized water and wheat crispbread made from endosperm flour, whole-grain flour, or endosperm flour supplemented with Zn and Fe to the whole-grain levels ad libitum for 14 d. The retention of 65Zn and 59Fe from test meals of the same breads after 1 wk and the sum of the excretion of endogenous Zn and Fe (injected 65Zn and 59Fe) with the Zn and Fe balances, respectively, were used as independent measures of Zn and Fe absorption. Measurements of Zn absorption, Zn balance, and serum Zn concentration gave quite different results with regard to the availability of Zn in the three breads, presumably because of the homeostatic regulation of the absorption and excretion of Zn when the Zn in the diet is in excess of the body's needs. Measurements of Fe absorption, Fe balance, and Fe concentrations in liver and serum were consistent in demonstrating overloading of Fe in the group given wheat-endosperm crispbread supplemented with Zn and Fe, but there was evidence that the isotope retention method overestimated iron absorption.     

Ultrastructural distribution of endogenous IgGs in the glomerular wall of control and diabetic rats

Summary Endogenous IgG molecules were revealed with high resolutionem over the glomerular wall in renal tissues sampled from short and longterm control and streptozotocin induced diabetic rats by applying the protein A-gold immunocytochemical approach. In tissues from control animals, IgG antigenic sites were revealed on the subendothelial side of the basement membrane, the epithelial side being only weakly labelled. In contrast, in longterm diabetic animals IgG antigenic sites were present throughout the entire thickness of the basement membrane, and in patches closely associated with the plasma membrane of the epithelial cells. Deposits of basement membrane-like material present in the mesangial area were also highly labelled for IgG. Numerous intensely labelled lysosome-like structures were present in the epithelial cells. Morphometrical evaluation of the distribution of the labelling over the basement membrane confirmed these observations. In control animals a peak of labelling was found at 30 nm from the endothelial cell region corresponding to the subendothelial side of the lamina densa. In longterm diabetic animals the labelling was more uniformly distributed throughout the entire thickness of the basement membrane. These data were correlated to biochemical determinations of proteinuria and IgG excretion in urine samples from the control and the diabetic animals. These results suggest that in normal conditions the lamina densa may represent the main barrier for the restriction of the passage of IgGs through the glomerular wall. Modifications at that level occur during diabetes leading to or participating in the loss of the selective permeability of the basement membrane.     

Fusion and infection of influenza and Sendai viruses as modulated by dextran sulfate: a comparative study

We have directly compared the effect of two types of dextran sulfate with distinct molecular weights (500 kDa and 5 kDa) on the fusion activity and infectivity of both Sendai and influenza viruses, two lipid-enveloped viruses that differ in their routes of entry into target cells. To correlate membrane merging and infectivity MDCK cells were used as targets for the viruses in both approaches. In either case pronounced inhibition of virus–cell interactions by dextran sulfate was only observed at low pH, even though Sendai virus fuses maximally at pH 7.4. Although membrane merging could not be fully abolished, the inhibitory effect was always greater when the higher molecular weight dextran sulfate was used. The presence of this residual fusion activity, that could not be reduced even with high concentrations of agent, suggests that a limited number of binding sites for dextran sulfate may exist on the viral envelopes. The compounds also inhibited fusion of bound virions, and all results could be reproduced using erythrocyte ghosts as target membranes in the fusion assay, instead of MDCK cells. In agreement with these observations only the infectivity of influenza virus (which requires a low pH-dependent step to enter target cells) was affected by dextran sulfate, again the higher molecular weight compound showing a more pronounced inhibitory effect.