Altered anionic GBM components in monoclonal antibody against slit diaphragm-injected proteinuric rats

BACKGROUND: We previously reported that monoclonal antibody (mAb) 5-1-6 bound to renal filtration slits induces massive proteinuria without causing ultrastructural changes in the glomerulus. This study evaluated the underlying mechanisms of the increase in glomerular permeability. METHODS: The distribution of endogenous albumin and IgG in the glomerular basement membrane (GBM) was studied in in situ drip-fixed glomeruli of Munich-Wistar rats by use of immunogold immunocytochemistry in the presence and absence of mAb 5-1-6. The density of foot process glycocalyx components was estimated by labeling with Limax fluvus lectin- or Helix pomatia lectin-gold complexes. Anionic sites in the GBM were examined by labeling with cationic gold at pH 2.0 or 7.4. Carboxyl groups, which also furnish an anionic charge to the GBM, were examined by specific biotinylation and colloidal gold probe methods. In addition, the infusion-staining of anionic sites was performed by use of ruthenium red in both Munich-Wistar and Wistar rats. RESULTS: The urinary excretion of albumin and IgG was increased markedly in the treated rats, indicating a non-selective barrier defect. In the control rats, albumin and IgG molecules were mainly located along the inner half of the GBM, and to a lesser degree in the lamina rara externa. In the treated rats, the albumin and IgG moieties were more equally distributed throughout the width of the GBM. Newly appearing, small dense peaks at the outer side of the GBM were evident, indicating a barrier function of outer zone of the GBM and/or epithelial cell layer. No intergroup differences in the density of lectin binding sites on foot processes were seen. The reduction in the number of ruthenium red-positive anionic sites and cationic gold (pH 2. 0)-labeled anionic sites in the lamina rara externa was significant in the treated rats at day 3, indicating a possible alteration of charged proteoglycan in the lamina rara externa. No such changes were seen with cationic gold (pH 7.4)-labeled anionic sites in the GBM. The density of labeled carboxyl groups was significantly reduced in the treated rats relative to the controls. CONCLUSIONS: These results show that the injection of mAb 5-1-6 induced a perturbation of the charge- and probably the size-selective glomerular filtration barrier. The observed reduction in the levels of various negatively charged substances resulted in massive proteinuria, implying that alteration of target antigens can affect the integrity of the GBM constituents maintaining the normal barrier function.     

Value of intravascular ultrasound in angiographically underestimated coronary findings: exemplified by 2 case reports]

Ultrastructural alteration of anionic sites (ASs) in the glomerular basement membrane (GBM) was studied in 10 cases of swine mesangial proliferative glomerulonephritis using a cationic ultrastructural tracer, 0.5% polyethyleneimine (M.W. = 1,800). Glomerular ASs were seen as discrete electron-dense particles in the GBM, mesangial matrix and epithelial cell surfaces by electron microscopy. In the lamina rara externa (LRE) of the normal GBM, ASs were distributed regularly in a single layer. In those areas of the LRE that contained electron dense deposits or clusters of spherical microparticles (SMPs), however, a distinct reduction or loss of ASs was observed in all the pigs. Quantitative assessment of ASs in the LRE over 1,000 nm of the GBM revealed a significant reduction in ASs in one case with diffuse global thickening of the GBM as compared with the remaining nine pigs without GBM thickening (P < 0.001, Mann-Whitney's U-test). There were no ASs in the lamina densa (LD) of the normal GBM, but an irregular distribution of ASs was seen within the LD of the pig showing diffuse global thickening of the GBM. These results suggest that a disturbance of the charge-selective barrier in the GBM may be induced by electron-dense deposits or SMPs, in the LRE as well as thickening of the GBM in swine glomerulonephritis.     

Glomerular injury induced by cationic 70-kD staphylococcal protein; specific immune response is not involved in early phase in rats

A highly cationic staphylococal protein (designated p70, MW 70 kD, pI > 10) belongs to the groups of bacterial proteins that can bind immunoglobulin without specific antigen-antibody recognition; heparin inhibition tests indicated a charge interaction. This study evaluated the nephritogenicity of p70, which has affinity for the glomerular basement membrane (GBM), and the influence of various mediator systems on the induction of glomerulonephritis by p70. The left kidneys of intact rats, rats given cobra venom factor (complement-depleted), or rats given anti-adhesion molecules (ICAM-1 and LFA-1a) were perfused with p70. Proteinuria started within 24 h and persisted at day 5. Intraglomerular infiltration of cells was seen as early as 15 min, peaking at day 1. Deposits of rat IgG and C3 were seen in a subendothelial location 15 min after p70 perfusion in the left kidney and were found in a predominantly subepithelial location from 1 day onwards. Complement depletion and blockade of adhesion molecules suppressed proteinuria from day 2 onwards; these manipulations also prevented the recruitment of infiltrating cells and partially hindered the transfer of IgG across the GBM and the accumulation of IgG in the subepithelial region. In the non-perfused right kidneys, deposits of IgG and C3 were comparable to those in the left kidneys, suggesting that p70-IgG complexes formed in the circulation may also contribute to the deposits in the GBM. Heparin inhibition tests indicated an electrostatic interaction between p70 and immunoglobulin. Complement and inflammatory mediator systems (granulocytes, monocytes/macrophages, and/or lymphocytes) were required to provoke glomerular injury. p70 might play a role in acute glomerulonephritis following Staphylococcus aureus infection.     

Charge and size selectivity of proteinuria in children with idiopathic nephrotic syndrome

Experimental studies have pointed to charge selectivity as an important determinant of glomerular permeability to macromolecules. Loss of glomerular basement membrane (GBM) polyanion has been proposed as a cause of the selective proteinuria in minimal change nephrotic syndrome (MCNS). However, the presence of less-anionic albumin in urine than plasma from MCNS and focal and segmental glomerulosclerosis (FSGS) patients has been interpreted both as evidence for partial maintenance of charge selectivity and for involvement of other pathogenic mechanisms. The exact role of charge selectivity in the pathogenesis of nephrotic proteinuria remains controversial. We have examined the clearance of endogenous proteins of differing size and charge in children with idiopathic nephrotic syndrome (NS). Chromatofocusing was used to determine the isoelectric points (pIs) of albumins in paired plasma and urine samples from patients with FSGS (n = 6) and MCNS (n = 6). Charge selectivity was assessed by comparing the pIs of the fractions with the highest albumin concentration (model pI) in plasma and urine. The difference between the modal pIs was defined as the delta modal pI. Charge selectivity was also assessed from the albumin/transferrin and IgG4/IgG1 clearance ratios; size selectivity from the IgG1/albumin and IgG1/transferrin as well as the IgG4/albumin and IgG4/transferrin clearances. In children with FSGS, the mean (+/-SD) delta modal pI was -0.05 +/- 0.16, and in MCNS -0.05 +/- 0.11. Neither value differed significantly from zero. The albumin/transferrin clearance ratio showed no significant difference between FSGS and MCNS, but the IgG4/IgG1 clearance ratio was significantly higher in MCNS (P < 0.05). Size selectivity was significantly reduced in FSGS compared with MCNS (for IgG1/transferrin P < 0.01 and for IgG1/albumin P < 0.05). For IgG4/transferrin and IgG4/albumin, P was < 0.05. In conclusion, there was no evidence for residual charge selectivity in idiopathic NS associated with either MCNS or FSGS during nephrotic-range proteinuria. There was a significant loss of GBM size selectivity in children with FSGS with heavy proteinuria compared with children with MCNS with heavy proteinuria.     

The pharmacokinetic characteristics of glycolated humanized anti-Tac Fabs are determined by their isoelectric points

To evaluate a method for preventing the nephrotoxicity caused by the high renal accumulation of radiolabeled or toxin-conjugated small immunoproteins used for cancer therapy, we conjugated humanized anti-Tac Fab fragments with various numbers of glycolate molecules [glycolated Fab fragments (glyco-Fabs)] and separated the conjugates by means of ion-exchange columns into three fractions, depending on their isoelectric points (pIs). We evaluated the biodistribution, pharmacokinetics, and catabolism in normal nude mice of nonglycolated Fab (pI > or = 9.3) and three different preparations of glyco-Fab, including strongly anionic glyco-Fab (sa-glyco-Fab: pI < or = 4.5), mildly anionic glyco-Fab (pI = 4.5-7), and mildly cationic glyco-Fab (pI = 7-9.3). In addition, the biodistributions of 125I-labeled sa-glyco-Fab and 131I-labeled nonglycolated Fab were evaluated in normal nude mice coinjected with 50 mg of L-lysine and/or 1 microg of furosemide and in a control group without coinjection. We then evaluated the serial biodistribution of 125I-labeled sa-glyco-Fab (4 microCi/1 microg) and 131I-labeled nonglycolated Fab (5 microCi/1 microg) in Tac antigen-positive (ATAC4) and -negative (A431) tumor-bearing nude mice with s.c. tumor xenografts derived from Tac antigen-positive ATAC4 cells and receptor-negative A431 cells. These animals were coinjected with 30 mg of lysine i.v. and 30 mg of lysine i.p. 15 min after the radiolabeled Fab injection. To evaluate the biodistribution data and study scintigraphic imaging, we performed serial scintigraphy on normal and tumor-bearing mice with all four 131I-labeled preparations. 125I-labeled mildly cationic glyco-Fab and 131I-labeled nonglycolated Fab had similar distributions, except in the kidney. However, both 125I-labeled anionic glyco-Fab preparations showed significantly different distributions from both cationic Fabs in the blood, liver, lung, and spleen. Renal accumulation of all four radiolabeled Fab preparations increased significantly as the pI increased (P < 0.01). In addition, the intact fraction of Fab excreted into urine increased as pI decreased. Therefore, the glomerular filtration depended on whether the charge on the Fab was positive or negative. The proportion of Fab reabsorbed by the proximal tubules increased as pI increased. 125I-labeled sa-glyco-Fab and 125I-labeled mildly anionic glyco-Fab showed a similar distribution in the blood and all organs except the kidney. Lysine led to an additional blocking effect on proximal tubular uptake of both sa-glyco-Fab and nonglycolated Fab. Addition of furosemide yielded only a small effect when used with lysine. With lysine, the sa-glyco-Fab:nonglycolated Fab estimated integral radioactivity ratios were 4.7 and 0.7 in the ATAC4 tumor and in the kidney, respectively. The use of anionic fragments, which may be used in conjunction with lysine, represents a promising approach that may help decrease the renal toxicity of other small fragments, the molecular weights of which range from Mr 40,000 to 70,000, and, thereby, allow higher doses of radiation to the tumor.     

Antigen specificity of anti-nuclear antibodies complexed to nucleosomes determines glomerular basement membrane binding in vivo

Monoclonal anti-nuclear antibodies which are complexed to nucleosomes are able to bind to the glomerular basement membrane (GBM) in vivo, whereas purified antibodies do not bind. The positively charged histone moieties in the nucleosome are-responsible for the binding to anionic determinants in the GBM. We tested the hypothesis that the specificity of the autoantibodies complexed to the nucleosome influences the glomerular binding of the antibody-nucleosome complex. We induced the formation of these immune complexes in vivo, by intraperitoneal inoculation of hybridomas producing monoclonal anti-nuclear antibodies (four anti-histone, three anti-double stranded (ds)DNA and three anti-nucleosome antibodies) into nude BALB/c mice. In ascites and plasma from the mice inoculated with these hybridomas, nucleosome/autoantibody complexes were detected in comparable amounts. Immunofluorescence of kidney sections revealed that about 60% of the mice inoculated with anti-nucleosome or anti-dsDNA hybridomas had immunoglobulin deposits in the GBM, whereas only 15% of the mice with anti-histone hybridomas showed these deposits (p < or = 0.04). In the Matrigel-ELISA (used as a GBM surrogate) ascites from anti-nucleosome or anti-DNA hybridomas displayed significantly higher titers (p < or = 0.002) than ascites from anti-histone hybridomas. In conclusion, nucleosome/immunoglobulin complexes comprising anti-nucleosome or anti-dsDNA auto-antibodies do bind more frequently to the GBM in vivo than nucleosome/immunoglobulin complexes containing anti-histone antibodies. It therefore appears that the specificity of the antibody bound to the nucleosome is a critical determinant for the nephritogenic potential of the nucleosome-autoantibody complex.     

Thin GBM nephropathy: premature glomerular obsolescence is associated with hypertension and late onset renal failure

Thin glomerular basement membrane (GBM) nephropathy, also called familial benign hematuria, is characterized by chronic hematuria and uniform thinning of the lamina densa of the glomerular basement membrane. It generally holds an excellent renal prognosis. Alport syndrome in early stages can also show attenuation of the GBM; conversely, renal insufficiency has been reported in familial benign hematuria. To discern early Alport syndrome from thin GBM nephropathy, we carried out a prospective epidemiological study in which 19 normotensive and non-azotemic adult patients with chronic microscopic (18 of 19) and macroscopic (1 of 19) hematuria and biopsy-proven thin GBM nephropathy were followed for a median of 12 years (range 9 to 15 years). Renal biopsies of thin GBM patients at entry showed an increased incidence of focal global glomerulosclerosis when compared to disease controls as IgA nephropathy (P = 0.047) and normal renal tissue (P = 0.0075). All renal biopsies showed the presence of the Goodpasture antigen when tested immunohistochemically. Presence of Alport syndrome was excluded clinically as none of the patients had complaints of hearing loss or abnormalities by audiography and ophthalmology. At the end of follow-up, the incidence of hypertension in thin GBM nephropathy (35%) exceeded that of healthy clinical controls (P = 0.048), and one hypertensive patient developed mild renal failure. In the normotensive patients, the glomerular filtration rate at follow-up as measured by inulin clearance was reduced in three out of seven; these were over 50 years of age. Although no family members were known to have renal disease at inclusion, within four families six elderly first degree relatives had developed unexplained renal insufficiency at the end of follow-up. Thus, thin GBM nephropathy predisposes to premature glomerular obsolescence, leading in time to increased incidences of hypertension and late onset renal insufficiency.     

Alterations in the charge and size selectivity barrier of the glomerular filter in aminonucleoside nephrosis in rats

The aminonucleoside of puromycin induces proteinuria and renal damage when given to rats. Aminonucleoside of puromycin was administered to male Wistar-Furth rats as a single intravenous injection in a dose of 15 mg. per 100 gm. of body weight. The animals were studied 9 days later when the mean urinary protein was 175 mg. per 24 hours. Evidence of glomerular epithelial cell injury included massive obliteration of foot processes, appearance of microvilli, protein reabsorption droplets, extreme attenuation of cytoplasm with formation of blebs, and focal detachment of epithelial cells from glomerular basement membrane. An increase in both the amount of mesangial matrix and the number of mesangial cells was also observed. The fractional clearance (C/GFR) of anionic horseradish peroxidase had increased 18.5 times as compared to control values and was nearly equal to the C/GFR of neutral horseradish peroxidase in the experimental rats. The C/GFR of cationic horseradish peroxidase was decreased by one-third so that it approximated the C/GFRs of both anionic and neutral horseradish peroxidase. These findings indicate a nearly complete loss of the charge-selective barrier to filtration. In addition, C/GFRs of tritiated uncharged dextrans with a range of molecular radii from 18 to 58 Angstrom (A) were determined. The C/GFRs of dextrans (alpha e less than 30 A) were decreased in the experimental rats as compared to C/GFRs of dextrans of corresponding molecular size in control rats. However, the C/GFRs of dextrans (alpha e greater than 38A) were increased in experimental as compared to control rats. Further, both anionic and cationic ferritin (alpha e = 61 A) were observed in the urinary space near denuded areas of glomerular basement membrane. These results indicate that the size-selective properties of the glomerular barrier to filtration have been modified with decreased C/GFR of small molecules and increased C/GFR of large molecules. Thus, the proteinuria of aminonucleoside nephrosis in rats occurs secondary to alterations in both the charge- and size-selective barriers to glomerular filtration.     

Separation of septal influences on lordosis, ultrasound production, and body weight

It is well known that macromolecules like albumin are markedly restricted in their passage across the glomerular capillary wall. However, the relative importance of solute size, charge and shape is currently debated since much of the previous work is based on dextran in neutral or charge-modified forms. These polymers have certain drawbacks that make them less suitable for analysis of capillary permeability and the notion of a glomerular charge barrier has therefore been questioned. Moreover, macromolecules larger than albumin (mol. wt. 69,000) have been suggested to pass through nonselective 'shunt' pathways. In order to study glomerular permeability, isolated rat kidneys were perfused with albumin solutions containing trace amounts of two differently radiolabelled isoenzymes of lactate dehydrogenase (LDH) at low temperature to inhibit tubular function. The isoenzymes have similar size (mol. wt. 140,000) and shape but differ in charge, one carrying a negative net surface charge (LDH1, -19) and the other being slightly cationic (LDH5, +2). The urine and perfusate samples were subjected to high pressure liquid chromatography (HPLC) gel-filtration to allow for measurements of intact LDH. The fractional clearance was 0.11% +/- 0.04% for the anionic LDH1 and 0.56% +/- 0.07% for LDH5, whereas that for albumin was 0.21% +/- 0.03% at a glomerular filtration rate of 0.11 +/- 0.01 mL min-1 g-1 kidney wet weight. The results were analysed using a homogenously charged membrane model and are compatible with a charge density of 35 mEq L-1, with 95% confidence interval of 26-41 mEq L-1. These findings suggest a significant glomerular charge selectivity for proteins substantially larger than albumin. The charge density is, however, far less than estimated from dextran studies.     

Functional and morphometric evaluation of offspring kidney after intrauterine undernutrition

Pregnant rats were subjected to 50% food restriction during the first or the second half of pregnancy, or throughout pregnancy. The effects of intrauterine food restriction, on kidney function and morphometry were studied in newborn and adult (3 months) offspring. No differences in glomerular diameter were observed in newborn restricted rats compared with controls. The number of glomeruli was significantly lower both in newborn and 3-month-old restricted rats. However, glomerular diameter was increased in 3-month-old rats, which suggests that hypertrophic stimuli were present. The medulla/cortex ratio increased in adult rats submitted to food restriction during pregnancy, a finding that agrees with the preserved sodium and acid excretion, and the normal osmolar and free water clearance observed in these groups. These results show that the reduction in glomerular number is still present 3 months after birth in the progeny of mothers submitted to severe food restriction during pregnancy, suggesting impairment of glomerulogenesis even after birth. Intra utero undernutrition can be regarded as an experimental model of glomerular hypertrophy.     

Approach of cellular mechanisms of glomerulosclerosis in a model of accelerated aging the obese Zucker rat

With age, the morphological changes which occur in renal glomeruli in the absence of any added pathology are an expansion of the extracellular matrices (ECM)--glomerular basement membrane (GBM) and mesangial matrix--and lesions of focal and segmental glomerular hyalinosis (FSGH). Although the mechanisms involved in these glomerular changes are still unknown, an inflammatory step seems to precede the expansion of the extracellular matrices, but the nature of the cytokines and adhesion molecules has yet to be explored. In order to understand the cellular and molecular events of the FSGH, we used the genetically obese Zucker rat (fa/fa) which develops several early FSGH lesions. We observed that FSGH is the result of a modification of the podocyte: 1) bulging of the podocyte with endocytotic vesicles rich in albumin; 2) detachment from the GBM, collapsing of the capillary loops with a progressive disappearance of capillary cells and formation of hyalin and lipid deposits, synthesis of new ECM components; 3) focal adherence of the GBM and the basement lamina of Bowman's capsule and synthesis of new matrix. The detachment of the podocytes from the GBM appeared to be linked to the disappearance of the alpha 3 beta 1 integrin, major molecule which anchors the epithelial cells to the GBM. By immuno-gold techniques, we showed that the density of alpha 3 moieties significantly diminished when podocytes are spreaded over the GBM. This integrin is probably bound to the laminin in the GBM.     

Temporal trends in Canadian birth defects birth prevalences, 1979-1993

Syrian hamsters of the APA strain (APA hamsters) develop spontaneous mesangial thickening in the renal glomeruli from an early age. They also develop focal and segmental glomerulosclerosis (FSG) at and after 6 months of age. In this study, histopathological, immunohistochemical and lectin histochemical examinations were conducted to clarify the modification of the spontaneous renal lesions of APA hamsters by streptozotocin(SZ)-induced diabetes. Histopathological analysis revealed that the expansion of the mesangial region was more prominent and the thickening of the glomerular basement membrane (GBM) was weaker in SZ-treated animals than in non-treated ones. Immunohistochemical analysis suggested that type IV collagen and laminin were involved in the expansion of the mesangial region and thickening of the GBM. In lectin histochemical analysis, podocytes, capillary endothelial cells, GBM and a part of mesangial region of SZ-treated animals were positive for RCA120 and GSL-I with neuraminidase-pretreatment although they were negative for these lectins in non-treated animals. These results suggest that the spontaneous glomerular lesion of APA hamsters is modified qualitatively and quantitatively by SZ-induced diabetes.     

Lipid-binding characteristics of the polybasic carboxy-terminal sequence of K-ras4B

We have examined the association with lipid vesicles of fluorescent lipidated peptides based on the farnesylated, polybasic carboxy-terminal region of mature K-ras4B, which functions physiologically as an autonomous plasma membrane-targeting motif. While the peptides bind to neutral lipid (phosphatidylcholine/phosphatidylethanolamine) vesicles with relatively low affinity, the vesicle-binding affinity increases exponentially as increasing amounts of anionic lipids are incorporated into the vesicle bilayers. Competitive vesicle-binding experiments reveal that the K-ras4B carboxy-terminal sequence accordingly discriminates strongly between lipid surfaces of differing surface charge, such that two lipid bilayers differing in anionic lipid content by 10 mol % will show a 45-fold preferential accumulation of the lipidated peptide in the more negatively charged surface. At the same time, the carboxyl-terminal region of K-ras4B exhibits no preferential binding to particular anionic lipids, including the polyanionic species phosphatidylinositol-4'-phosphate and phosphatidylinositol-4',5'-bisphosphate, beyond that predicted on the basis of surface-charge effects. The K-ras4B carboxyl-terminal sequence dissociates rapidly (with half-times of seconds or less) from lipid bilayers containing up to 40 mol % anionic lipid. These results suggest that the targeting of the mature K-ras4B carboxy-terminus to the plasma membrane, if it is based on interactions with plasma membrane lipids, is not mediated by a kinetic-trapping mechanism or by specific binding to particular anionic lipids but may rest on the sensitive surface potential-sensing function of this region of the protein.     

Initial attachment of baby hamster kidney cells to an epoxy substratum. Ultrastructural analysis

In the presence of serum-containing medium, BHK cells attached and spread during a 1-h period onto a 3-5 nm thick serum layer absorbed on the substratum surface. The closest approach of the plasma membrane to the serum layer was observed to be about 9nm, which was determined by tilting the sectioned cells in a goniometer holder. Bundles of microfilaments or other cytoplasmic specializations were not observed in association with the regions of close contact. However, in the space between the plasma membrane and the adsorbed serum layer, a diffusely stained material could be visualized after fixation/staining by the tannic acid-glutaraldehyde technique. This technique also permitted increased clarity of visualization of trilaminar appearance of the plasma membrane. The distribution and mobility of anionic sites on the surfaces of attached and spreading cells was determined by labeling with polycationic ferritin. We observed movement of polycationic ferritin into large clusters on the cell surface, collapse of cell surface microextensions, and endocytosis, all of which were similar to our previous findings utilizing cells in suspension. However, the absolute amount of ferritin bound to the upper cell surface was less than that previously observed when suspended cells were put under similar labeling conditions. Also, polycationic ferritin did not appear to penetrate between the lower cell surface and the substratum.     

Lack of restriction at the blood-brain interface in Limulus despite atypical junctional arrangements

Tracer and freeze-fracture techniques are used to evaluate the capacity of the central and peripheral nervous system of the horseshoe crab, Limulus polyphemus to admit or exclude molecular or ionic constituents of the blood intercellularly. Both the peripheral and central nervous systems are contained within blood sinuses so there is intimate contact between the haemolymph and the neural lamella. No discrete perineurium exists so any protection afforded to the nerve cells must be provided by the ensheathing glial cells and any junctions between them. Using ionic lanthanum as a pre-fixation incubation medium the system is seen to be completely "open', with the tracer gaining access to all regions of the nervous tissue. Cellular association in the peripheral nervous system, as revealed by thin-section and freeze-fracture, consist only of small scattered gap junctions between glial cells which afford no restriction to tracer entry. Gap junctions are again present between glial cells in the C.N.S. but here they are far more numerous, sometimes forming extensive sheets of almost continuous gap junctional plaques. Between certain glial cells there also exists a junctional system of linear PF ridges and complementary EF grooves; these may associate with or surround, often discontinuous arrays, the gap junctional plaques. Given their characteristics and the freedom of tracer entry, they seem unlikely to represent either typical occluding tight junctions or septate junctions.     

Stability and leakiness: opposing challenges to the glomerulus

The complex architecture of the glomerular tuft is stabilized by several mechanisms. The basic system consists of the GBM and the mesangium maintaining the branching pattern of the capillary network. Superimposed are the podocytes, which appear to take effect by two mechanisms. First, podocytes contribute to the stabilization of the capillary folding pattern by supporting the angles between neighboring capillaries. Second, podocyte foot processes fixed to the outer aspect of the GBM probably function as contractile patches counteracting the elastic distension of the GBM. Simultaneously, the pattern of foot process interdigitation underlies the elaboration of a filtration slit and is thus pivotal for the high hydraulic permeability and the specificity of the glomerular filter. The loss of this pattern-commonly termed "foot process effacement" or "foot process fusion"-is frequently found in pathological situations and results in a decrease in permeability and impairment in specificity. On the other hand, foot process effacement is associated with prominent hypertrophy of the contractile apparatus of podocytes, suggesting an increased ability to generate forces counteracting capillary expansion. Thus, foot process effacement appears as an adaptive change in podocyte phenotype giving priority to the support function of podocytes for the prize of reducing the specific permeability.     

Demonstration of anionic sites in human eccrine and apocrine sweat glands in post-embedded ultra-thin sections with cationic colloidal gold: effect of enzyme digestion on these anionic sites

We localized anionic sites ultrastructurally in human eccrine and apocrine sweat glands with a poly-L-lysine-gold complex (cationic colloidal gold). Anionic sites were labeled by incubating Lowicryl K4M-embedded sections on droplets of cationic colloidal gold. In eccrine sweat glands, colloidal gold particles were restricted to the basolateral membrane of the secretory cells at low pH, whereas the luminal membrane did not react with the gold particles. Chondroitinase ABC digested these anionic sites. This indicates that chondroitin sulfate and/or dermatan sulfate constitutes anionic sites in the basal labyrinth of eccrine sweat glands. In apocrine sweat glands, the luminal membrane of the secretory cells showed strong reaction at low pH, whereas the contraluminal membrane did not show any reaction. Neuraminidase completely digested these anionic sites, which indicated that the anionic charge of the apocrine lumen was due to sialic acid. Differences in distribution and susceptibility to enzymes of anionic sites in cell membranes between eccrine and apocrine sweat glands may reflect functional differences between these glands. Dark cell granules in eccrine secretory cells were negative for the anionic sites when sections were labeled without any pre-treatment. However, pre-incubation of the grids on EGTA or deionized water unmasked the anionic sites on the dark cell granules. The positive staining after EGTA treatment was greatly decreased by reincubation with CaCl2. These results suggested that Ca blocked anionic sites in dark cell granules. Exposed anionic sites were digested with chondroitinase ABC. This indicated that chondroitinase ABC and/or dermatan sulfate composed the anionic sites in dark cell granules.     

Surgical treatment for the recurrence of colorectal cancer

Analysis by two-dimensional gel electrophoresis of the N-laurylsarkosinate(Sarkosyl)-insoluble envelope complexes of L-[35]S-cysteine-labeled elementary bodies of Chlamydia pneumoniae strain IOL-207, Chlamydia trachomatis serovar LGV2, D, and F, and Chlamydia psittaci strain 6BC showed differences in the molecular charges of chlamydial outer membrane proteins. The apparent isoelectric point (pI) of the major outer membrane protein of C. pneumoniae strain IOL-207 was 6.4, whereas the pI of the major outer membrane protein of the C. trachomatis and C. psittaci strains differed little from one another, ranging from 5.3 to 5.5. The 60-kDa cysteine-rich protein of C. pneumoniae was the only 60-kDa chlamydial protein with a pI value (5.9) more acidic than that of the corresponding major outer membrane protein. As a general rule, the charges of both the 60-kDa and the low-molecular-mass (12-15 kDa) cysteine-rich proteins were widely variable, depending on the strain. However, in each individual strain, the variation of the charge of the 60-kDa protein had a compensatory change in the low-molecular-mass cysteine-rich protein.     

The location of fluorescence probes with charged groups in model membranes

The location of commonly used charged fluorescent membrane probes in membranes was determined in order to: (1) investigate the relationship between the structure of hydrophobic molecules and their depth within membranes; and (2) aid interpretation of experiments in which these fluorescent probes are used to examine membrane structure. Membrane depth was calculated using parallax analysis, a method in which the quenching induced by lipids carrying a nitroxide group at different locations in the membrane is compared. Shallow locations were found for xanthene dyes (fluorescein, eosin, Texas Red and rhodamine) both in free form and when attached either to the headgroup of phospholipids or long hydrocarbon chains. The exact structure of the xanthene and the nature of its linkage to lipid had only a modest effect on membrane location, which ranged between 19 and 24 A from the center of the bilayer in a charged state. Thus, the location of these fluorophores largely reflects their intrinsic properties rather than the nature of the groups to which they are attached. Furthermore, cationic and anionic xanthene derivatives had similar depths, indicating the type of charge does not have a large effect on depth. Consistent with this conclusion, shallow locations were also found for other hydrocarbon chain-linked cationic (acridine orange and styrylpyridinium) and anionic (coumarin, anilinonaphthalenesulfonic acid (ANS), and toluidinylnaphthalenesulfonic acid (TNS)) charged probes. These all located at 16-18 A from the bilayer center. We conclude that both anionic and cationic molecules that are otherwise hydrophobic predominantly occupy shallow locations within the polar headgroup region of the bilayer no matter how hydrophobic the molecule to which they are linked. This depth is significantly shallower than that occupied by most previously studied uncharged polar molecules that locate near the membrane surface. Consistent with this conclusion, a 2-4 A deeper location was found for xanthene probes with no net charge. In other experiments, methods to avoid chemical reactions that can distort the measurement of depth by fluorescence quenching were developed.