Roberta Oleggini

Altered adhesion features and signal transduction in NRK-49F cells transformed by down-regulation of lysyl oxidase.

Lysyl oxidase (LOX) down-regulation induced an oncogenic phenotype in NRK-49F. This event was accompanied by a constitutive activation of ras oncogene and down-regulation of PDGF beta receptor, among other important phenotypic and molecular modifications. In the present paper we show that ras activation is not accompanied by a constitutive activation of the MAP kinases as expected. Surprisingly, even if MAPK-independent, ras activation was accompanied by a constitutive Ser(63) and Ser(73) phosphorylation of c-jun, a further downstream target of ras. Although rare, this ras alternative pathway has been described. Since ras alone is seldom able to trigger cell transformation and the transformed phenotype showed clearly an abnormal adhesion pattern, we investigated the main molecules involved in cell-cell adhesion. In fact, we found that beta-catenin was up-regulated, escaping the glycogen synthase kinase-3 beta (GSK-3 beta) control, through unclear mechanisms. Its nuclear accumulation was accompanied by an up-regulation of cyclin D1, as classically described in the activation of the Wnt/beta-catenin signal pathway. We believe that the resulting up-regulation of cyclin D1 acted in synergy with ras to induce the cell transformation.

Peroxidative damage of the erythrocyte membrane in children with nephrotic syndrome

The structural composition of erythrocyte ghosts was analysed in children affected by steroid-responsive (SRNS) and unresponsive nephrotic syndrome (SUNS). No variation of either intrinsic or extrinsic ghost proteins was found by discontinuous SDS-electrophoresis associated with a very sensitive double staining technique. By contrast, the composition of inner-layer phospholipids — phosphatidyl ethanolamine (PE) and phosphatidyl serine (PS) — was altered in SRNS with minor changes also involving phosphatidic acid, phosphatidyl inositol and lysophosphatidyl choline. Signs of peroxidative damage were present in both SRNS and SUNS ghosts and inside the cells; these included high levels of fluorescent amino-iminopropene derivates of PE and PS, increased intraerythrocytic amounts of malonyldialdehyde and decreased levels of reduced glutathione. Taken together these results support the concept that in SRNS and SUNS erythrocytes are target cells for peroxidative damage. In SRNS peroxidation of membrane lipids results in a marked alteration of the phospholipid composition of erythrocyte ghosts.

Rare functional variants of podocin (NPHS2) promoter in patients with nephrotic syndrome.

Podocin (NPHS2) is a component of the glomerular slit-diaphragm, with major regulatory functions in renal permeability of proteins. Loss of podocin and decrease in resynthesis may influence the outcome of proteinuric renal disease such as segmental glomerulosclerosis (FSGS), and promoter functionality plays a key role in this process. NPHS2 promoter variants with functional activity may be a part of the problem of podocin resynthesis. We sequenced NPHS2 promoter region from -628 to ATG in a large cohort of 260 nephrotic patients (161 with FSGS) who were presenting proteinuria from moderate to severe and were receiving or had received modular therapies according to their sensitivity to steroids and other immune modulators. Three sequence variants (-236C>T, -52C>G, -26C>G) were identified in our study population that gave an allele frequency below 1% (5 patients out of 520 alleles). Functional implications were shown for each variants that were most evident for -52C>G and -26C>G (-50% of luciferase expression compared to the wild-type sequence, p < 0.01). Consensus analysis for homology of the -52 region with regulatory factors revealed homology for USF1 and the sum of experiments with gel retardation and with cells silenced for USF1 confirmed that this factor regulates NPHS2 expression at this site. In conclusion, three functional variants in NPHS2 promoter have been identified in a large cohort of patients with nephrotic syndrome and FSGS that have a frequency <1%. One of these (i.e., -52C>G) is associated with a poor clinical outcome and evolution to end-stage renal failure. USF1 was identified as the transcriptional factor regulating NPHS2 at this site. Even if not sufficient to cause FSGS per se, these variants could represent modifiers for severity and/or progression of the disease.

Endogenous Albumin as a Marker of Renal Selectivity in Steroid-Unresponsive Nephrotic Syndrome

Albumin electrical charge, conformation and hydrophobicity taken as indexes of renal selectivity were evaluated in 8 children affected by steroid-unresponsive nephrotic syndrome associated with glomerulosclerosis or mesangial hypercellularity. These characteristics related to urinary albumin have already been reported to vary markedly in steroid-responsive nephrotic syndrome of minimal-change nephropathy giving rise to new pathogenetic possibilities in this disease. In the steroid-unresponsive nephrotic children albumin was found to be more microheterogenous and cationic in urine than in serum and at the same time it was conformationally altered. Regarding these characteristics, the selectivity properties of the renal filter are similar in steroid-unresponsive nephrotic syndrome, suggesting a pathogenetic connection between these two renal disorders.

Selective enhancement by cyclosporin A of collagen expression by mesangial cells 'in culture'.

Extracellular matrix deposition in mesangial areas leading to glomerulosclerosis is the major side effect of protracted therapies with cyclosporin A. In order to define any direct correlation between a chronic therapy with the drug and glomerulosclerosis we studied the effects of cyclosporin A on extracellular matrix production by human mesangial cells in culture. By immunoprecipitation and sodium dodecyl sulfate polyacrylamide electrophoresis (SDS-PAGE) of [3H]proline-labeled mesangial cells it was found that cyclosporin A induced a dose-dependent increase in total collagen synthesis (+80%), corresponding to a net increment in collagen III (+120%) and in a component with 70 kDa molecular weight which was produced only in negligible amount by mesangial cells under standard conditions. This collagen was characterized by cyanogen bromide digestion and finger print analysis as a novel molecule, not sharing any peptide composition similarities with the already characterized collagens. These data indicate that cyclosporin A stimulates the synthesis by mesangial cells of selected collagens, mainly collagen III and a new low molecular weight component. This mechanism may be relevant in cyclosporin A induced glomerulosclerosis occurring during protracted therapies with the drug.

Spectrophotometric determination of browning products of glycation of protein amino groups based on their reactivity with nitro blue tetrazolium salts

A simple spectrophotometric method has been devised for determining the advanced products of glycation of lysine and albumin (browned compounds) based on their reactivity with nitro blue tetrazolium (NBT) salts. Aminoiminopropene derivatives of lysine and malondialdehyde, which share the same optical and fluorescence characteristics of browned compounds, were unreactive in the assay. Of the early products of glycation of lysine and albumin, the Schiff base adduct was unreactive in the assay, whereas the Amadori product (1-deoxy-1-morpholinofructose), when determined with NBT, gave a positive reaction that was slightly less marked than that of browned derivatives of albumin. It is concluded that the NBT assay is specific for Amadori and browned derivatives produced by glycation of amino groups and can be used for detecting such compounds in proteins (circulating and structural) exposed to high levels of carbohydrates.

Lysyl oxidase regulates MMTV promoter: indirect evidence of histone H1 involvement.

Lysyl oxidase (LOX) is the enzyme that facilitates the cross-linking of collagen and elastin, although other functions for this enzyme have been indicated. Of these other functions, we describe herein the ability of LOX to regulate several gene promoters, like collagen III, elastin, and cyclin D1. We have previously demonstrated a specific binding between LOX and histone H1, in vitro. Therefore, we investigated whether LOX would affect the mouse mammary tumor virus (MMTV) promoter and its glucocorticoid regulation, which depends on the phophorylation status of histone H1. Our results show that the over-expression of recombinant human LOX was able to trigger MMTV activity, both in the presence and absence of glucocorticoids. Moreover, we demonstrated that histone H1 from cells expressing recombinant LOX contained isodesmosine and desmosine, indicating specific lysyl-oxidase-dependent lysine modifications. Finally, we were able to co-immunoprecipitate the exogenous LOX and histone H1 from the LOX transfected cells. The data are compatible with a decreased positive charge of histone H1, owing to deamination by LOX of its lysine residues. This event would favor H1 detachment from the target DNA, and consequent opening of the MMTV promoter structure to the activating transcription factors. The presented data, therefore, suggest a possible histone-H1-dependent mechanism for the modulation of MMTV promoter by LOX.

Interaction between cationic dyes and erythrocyte membranes in minimal change nephropathy: an electrophoretic approach

A study was undertaken to clarify the usefulness of two cationic dyes, alcian blue (AB) and ruthenium red (RR) in demonstrating the defect in cellular membranes noted in minimal change nephropathy (MCN). The binding of both dyes to RBC membranes purified from normal and nephrotic children was evaluated by electrophoretic titration curves. When examined separately, AB was found to precipitate spontaneously, producing macro-aggregates with no electrophoretic mobility at pH 5. This was presumed to be the result of hydrophobic interaction of the dye with itself. The same phenomenon was observed when this dye was incubated at 37°C with RBC ghosts from normal children, when AB presented a sigmoidal curve with a net positive charge for pHs higher than 5.5 and lower than 5 and no electrophoretic mobility at pH 5. However, incubation of AB with RBC ghosts from children with MCN resulted in an improvement of the solubility of the dye which then migrated with a net positive charge along the whole gradient of pH from 3.5 to 9. The presence of zwitterionic neutral detergents such as CHAPS, but not of a charged substance such as protamine sulphate, inhibited precipitation at pH 5 when incubated with membranes from normal children, supporting the hydrophobic nature of the phenomenon. When RR was used instead of AB, it was fully protonated (i.e. did not precipitate) when analysed alone, but when incubated with normal RBC ghosts, it also revealed no electrophoretic mobility at pH 5. Likewise, as seen with AB, the incubation of RR with RBC ghosts from children with MCN or with zwitterionic detergents produced an improvement in the ionization of the dye. We conclude that RBC membranes purified from children with MCN improved the solubility of AB in aqueous media by inhibiting the hydrophobic interaction of the dye, and the same explanation may hold true for the improved solubility noted with the use of RR under similar conditions. The identification of the membrane factor(s) which is responsible for this effect may be relevant to the understanding of any cellular membrane alteration in the glomeruli of children with MCN.

Intact Renal Albumin Downregulates the Extracellular Matrix Expression by Mesangial Cells and Renal Fibroblasts in vitro

Chronic Adriamycin (ADR) nephropathy is invariably associated with glomerulosclerosis and tubulointerstitial fibrosis. To investigate the hypothesis that severe albuminuria plays a role in the pathogenesis of both processes, we purified the protein from conditioned media of rats with advanced ADR nephropathy and tested the fibrogenic effect on renal fibroblasts and mesangial cells in vitro. Albumin was purified by pseudoligand chromatography and was identified on the basis of the NH2 amino terminus. Furthermore, it was differentiated from the urinary homologue, being more anionic and more fatted while maintaining a conserved peptide composition. The exposure of renal cells to renal albumin induced a dose-dependent reduction in collagen synthesis with a half-maximal decrease with 0.2 microgram/ml of albumin. With renal albumin levels of 0.4 microgram/ml the collagen incorporation of 3H-proline by mesangial cells and renal fibroblasts (primary cultures and cell lines) was reduced by 76, 81 and 45% respectively. A qualitative analysis by SDS-polyacrylamide electrophoresis and immunoprecipitation of radiolabelled collagens demonstrated a drastic and unselective decrease in all major collagens synthesized by mesangial cells and fibroblasts, including type I, III and V. Previous immunoprecipitation of the protein with anti-rat albumin antibodies completely reversed this phenomenon. Finally, albumin purified from urines of rats with ADR nephropathy downregulated the synthesis by renal cells of the same collagens but this effect was less evident compared to renal albumin. These findings demonstrate that renal albumin drastically reduces the synthesis of collagens by mesangial cells and renal fibroblasts, this effect being most evident on those components which constitute the extracellular matrix in glomerulosclerosis and interstitial fibrosis.(ABSTRACT TRUNCATED AT 250 WORDS)

Preparative High Performance Chromatography of a Major Browning Compound Derived from Lysine and Glucose

A major browning compound derived from lysine and glucose was purified by high performance chromatography on a RP8 column after several extractions in methanol plus acetonitrile. This compound was separated by a main contaminant corresponding to unreacted lysine by extracting the aminoacid after its derivatization with ninhydrin.