Guido Orlandini

Oxidative stress in scleroderma: Maintenance of scleroderma fibroblast phenotype by the constitutive up‐regulation of reactive oxygen species generation through the NADPH oxidase complex pathway

OBJECTIVE To explore the role of reactive oxygen species (ROS) in the in vitro activation of skin fibroblasts from patients with systemic sclerosis (SSc). METHODS Fibroblasts were obtained from involved skin of patients with limited or diffuse SSc. Oxidative activity imaging in living cells was carried out using confocal microscopy. Levels of O2- and H2O2 released from fibroblasts were estimated by the superoxide dismutase (SOD)-inhibitable cytochrome c reduction and homovanilic acid assays, respectively. To verify NADPH oxidase activation, the light membrane of fibroblasts was immunoblotted with an anti-p47phox-specific antibody. Fibroblasts were stimulated with various cytokines and growth factors to determine whether any of these factors modulate ROS generation. Cell proliferation was estimated by 3H-thymidine incorporation. Northern blot analysis was used to study alpha1 and alpha2 type I collagen gene expression. RESULTS Unstimulated skin fibroblasts from SSc patients released more O2- and H2O2 in vitro through the NADPH oxidase complex pathway than did normal fibroblasts, since incubation of SSc fibroblasts with diphenylene iodonium, a flavoprotein inhibitor, suppressed the generation of ROS. This suppression was not seen with rotenone, a mitochondrial oxidase inhibitor, or allopurinol, a xanthine oxidase inhibitor. Furthermore, the cytosolic component of NADPH oxidase, p47phox, was translocated to the plasma membrane of resting SSc fibroblasts. A transient increase in ROS production was induced in normal but not in SSc fibroblasts by interleukin-1beta (IL-1beta), platelet-derived growth factor type BB (PDGF-BB), transforming growth factor beta1 (TGFbeta1), and H2O2. Treatment of normal and SSc fibroblasts with tumor necrosis factor a (TNFalpha), IL-2, IL-4, IL-6, IL-10, interferon-alpha (IFNalpha), IFNgamma, granulocyte-macrophage colony-stimulating factor (GM-CSP), G-CSF, or connective tissue growth factor (CTGF) had no effect on ROS generation. Constitutive ROS production by SSc fibroblasts was not inhibited when these cells were treated with catalase, SOD, IL-1 receptor antagonist, or antibodies blocking the effect of TGFbeta1, PDGF-BB, and other agonists (IL-4, IL-6, TNFalpha, CTGF). In contrast, treatment of SSc fibroblasts with the membrane-permeant antioxidant N-acetyl-L-cysteine inhibited ROS production, and this was accompanied by decreased proliferation of these cells and down-regulation of alpha1(I) and alpha2(I) collagen messenger RNA. CONCLUSION The constitutive intracellular production of ROS by SSc fibroblasts derives from the activation of an NADPH oxidase-like system and is essential to fibroblast proliferation and expression of type I collagen genes in SSc cells. Our results also exclude O2-, H2O2, IL-1beta, TGFbeta1, PDGF-BB, IL-4, IL-6, TNFalpha, or CTGF as mediators of a positive, autocrine feedback mechanism of ROS generation.

Comparison of Annexin V and Calcein-AM as Early Vital Markers of Apoptosis in Adherent Cells by Confocal Laser Microscopy

SUMMARY Although morphological criteria for apoptosis are in general reliable, no systematic comparison of the techniques employed thus far has yet been performed. In this study, using confocal laser microscopy, we compared the performance of annexin V-FITC and calcein-AM for early detection of apoptosis in living adherent cells. Experiments were carried out on two distinct cell lines, PC 12 and NIH3T3, endowed with different shape and adhesion properties. The apoptotic process was followed for a prolonged period in the same cells of a predetermined field by means of a special flow chamber. Our results show that both probes allowed the detection of apoptotic cells in either cell line. However, some cells that clearly exhibited apoptotic changes on calcein visualization were annexin-negative. In NIH3T3 cells, annexin negativity of apoptotic cells was correlated with the preservation of cell shape and adhesion properties. These findings show that, at least in PC12 and NIH3T3 cells, annexin might be less sensitive than calcein-AM for early apoptosis detection and, for NIH3T3 cells, suggest that phosphatidilserine exposure is in some way linked to changes in cell shape and/or adhesion to culture substrate.

Time course assessment of methylmercury effects on C6 glioma cells: submicromolar concentrations induce oxidative DNA damage and apoptosis

Organic mercury is a well‐known neurotoxicant although its mechanism of action has not been fully clarified. In addition to a direct effect on neurons, much experimental evidence supports an involvement of the glial component. We assessed methylmercury hydroxide (MeHgOH) toxicity in a glial model, C6 glioma cells, exposed in the 10−5–10−8 M range. The time course of the effects was studied by time‐lapse confocal microscopy and supplemented with biochemical data. We have monitored cell viability and proliferation rate, reactive oxygen species (ROS), mitochondrial transmembrane potential, DNA oxidation, energetic metabolism and modalities of cell death. The earliest effect was a measurable ROS generation followed by oxidative DNA damage paralleled by a partial mitochondrial depolarization. The effect on cell viability was dose dependent. TUNEL, caspase activity and real‐time morphological observation of calcein‐loaded cells showed that apoptosis was the only detectable mode of cell death within this concentration range. N‐acetyl‐cysteine (NAC) or reduced glutathione (GSH) completely prevent the apoptotic effect of MeHgOH. The lowest effective MeHgOH concentration was 10−7 M for ROS and DNA OH‐adducts generation. The effect of submicromolar concentrations of MeHgOH on C6 cells could be relevant in the developmental neurotoxicity caused by low dose, long‐term exposures, such as those of food origin. In addition, we have shown that the same concentrations are effective in the induction of DNA oxidative damage, with further potential pathogenetic implications.

Intracellular free [Ca2+] in circulating lymphocytes of spontaneously hypertensive rats

In the light of previous reports suggesting a common abnormality of Ca handling in most tissues of hypertensive humans and rats, we applied a novel technique using the fluorescent probe Quin 2 for measurement of cytosolic free Ca2+ in lymphocytes of spontaneously hypertensive rats (SHR). (Ca2+)i is increased in SHR (122.1 +/- 7.4 nM) versus normotensive Wistar-Kyoto (WKY) control rats (81.1 +/- 6.3 nM) Membrane exchange, as challenged by varying the extracellular Ca concentration over a 10(5)-fold range proved to be relatively unimportant in regulating (Ca2+)i and did not significantly affect the difference between SHR and WKY. Catecholamines and ouabain had no appreciable effect on (Ca2+)i. The mechanisms of increased (Ca2+)i in SHR lymphocytes remain to be fully elucidated.

Calcein-AM is a detector of intracellular oxidative activity

Calcein-acetoxymethylester (calcein-AM) is a non-fluorescent, cell permeant compound, which is converted by intracellular esterases into calcein, an anionic fluorescent form. It is used in microscopy and fluorometry and provides both morphological and functional information of viable cells. In this study we have tested the response of calcein-AM to oxidation. In cell-free fluorometric assays, H2O2 and xanthine–xanthine oxidase induced a dose-dependent emission of the AM form but had no effects on calcein. Fluorometric and confocal microscopy tests on human fibroblasts confirmed that the cell permeant AM form is the actual sensor since its removal from culture medium, and its consequent back-diffusion, made the system insensitive to oxidative stimuli. In time-lapse confocal microscopy, calcein-AM detected changes in the intracellular redox state following direct oxidation (H2O2, xanthine–xanthine oxidase) and phorbol ester treatment. Comparative tests showed that calcein-AM sensitivity to oxidation is about one order of magnitude higher than other fluorescein derivatives. The absence of leakage, due to the presence of the probe in the extracellular compartment, and its low toxicity allow to perform experiments for prolonged times following the response to the same or different stimuli repeatedly applied. We propose calcein-AM as a sensitive tool for intracellular ROS generation in living cells with useful applications for real-time imaging in confocal microscopy.

Inhibition of Glutamine Synthetase Triggers Apoptosis in Asparaginase-Resistant Cells

The resistance to L-asparaginase (ASNase) has been associated to the overexpression of asparagine synthetase (AS), although the role played by other metabolic adaptations has not been yet defined. Both in ASNase-sensitive Jensen rat sarcoma cells and in ARJ cells, their ASNase-resistant counterparts endowed with a five-fold increased AS activity, ASNase treatment rapidly depletes intracellular asparagine. Under these conditions, cell glutamine is also severely reduced and the activity of glutamine synthetase (GS) is very low. After 24h of treatment, while sensitive cells have undergone massive apoptosis, ARJ cells exhibit a marked increase in GS activity, associated with overexpression of GS protein but not of GS mRNA, and a partial restoration of glutamine and asparagine. However, when ARJ cells are treated with both ASNase and L-methionine-sulfoximine (MSO), an inhibitor of GS, no restoration of cell amino acids occurs and the cell population undergoes a typical apoptosis. No toxicity is observed upon MSO treatment in the absence of ASNase. The effects of MSO are not referable to depletion of cell glutathione or inhibition of AS. These findings indicate that, in the presence of ASNase, the inhibition of GS triggers apoptosis. GS may thus constitute a target for the suppression of ASNase-resistant phenotypes.

Natural anti-endothelial cell antibodies (AECA)

Natural AECA constitute a pool of autoantibodies circulating in healthy subjects, which react with a restricted and conserved set of endothelial antigens and establish idiotypic interactions within the immunoglobulin networks. Normal IgG interacts with living endothelial cells and is internalized with a mechanism involving microtubules and resembling that of ligand-receptor internalization. IgG-endothelial cell interaction appears to be dependent on the variable region of antibodies and is followed by modifications of endothelial cell function. Natural AECA increase anti-inflammatory properties of endothelial cells through the selective inhibition of thromboxane A2, endothelin and metalloproteinase-9 secretion, and also through the inhibition of endothelial cell proinflammatory response to TNF-alpha. We have gathered evidence demonstrating that natural AECA constitute a strictly controlled autoantibody pool, interact with living endothelial cells and take part in the regulation of endothelial function, through direct anti-inflammatory effects.

Histological Adaptation of Orthotopic Ileal Neobladder Mucosa: 4-Year Follow-Up of 30 Patients

Objective: For 4 years we have monitored the histological evolution of ileal neobladders in a single cohort of 30 patients in order to systematically describe the histological changes occurring after surgery. The aim of the study was to evaluate the long-term evolution of many histological parameters with functional relevance as to the metabolic outcome of the reservoirs. Methods: Ileal samples were collected during surgery and by random biopsies during cystoscopy 6, 12, 18, 24, 36 and 48 months later. At each step qualitative and quantitative assessment of the histological and cytological conditions of the samples was carried out. Results: Morphological changes develop relatively early but the situation tends to level out in about 1 year. The morphological changes are topographically uneven and, although mucosal flattening becomes progressively prevalent, areas with shortened villi persist indefinitely. Goblet cells prevail over enterocytes and the secretive pattern shifts towards sialomucins. The overall replication rate decreases initially but tends to restore in 1 year. Dysplasia or atrophy were never recorded. Conclusions: The 4-year systematic follow-up revealed a typical histological adaptation pattern in the ileal neobladder without signs of dysplasia. The changes seem to be induced by the aggressive environment and develop in the time lag required for functional adaptation of the epithelium.

Host-cell-dependent role of actin cytoskeleton during the replication of a human strain of influenza A virus

This study was aimed at investigating the possible involvement of the actin cytoskeleton in the modulation of host permissiveness to A/NWS/33 human influenza virus infection in two mammalian (MDCK and LLC-MK2) cell lines in vitro. During the early stages of infection, no appreciable association between incoming NWS/33 virions and cortical actin was detectable in the permissive MDCK model by confocal microscopy, while extensive colocalization and a slower infection progression were observed in LLC-MK2 cells. In the latter model, we also demonstrated the inability of the virus to carry out multiple replication cycles, irrespective of the presence of cleaved HA subunits in the released virions. Treatment with the actin-depolymerizing agent cytochalasin D significantly increased the infection efficiency in LLC-MK2 cells, while a detrimental effect was observed in the MDCK cell line. Our data suggest a selective role of the actin network in inducing a restriction to influenza virus replication, mostly depending on its molecular organization, the host cell type and virus replication phase.

Receptor-ligand internalization.

Publisher Summary The chapter presents a discussion on receptor-ligand internalization. Currently, confocal imaging has provided new insights in the observation of fluorescent specimens. The virtual absence of out-of-focus blurring allows a much better definition of probe localization at the subcellular level together with the possibility of exploiting the three-dimensional (3-D) reconstruction capability of most confocal systems. A self-constructed flow chamber to an inverted confocal scanning laser microscope that allows long-term observation of adherent cells, under controlled micro-environmental conditions have been paired. This method provides images of intact, nonfixed cells and allows one to change culture conditions and to observe living cell responses directly or to perform two-step staining to identify subcellular structures involved in the observed processes. The reliability of this procedure has been verified on a well-known model of receptor-ligand internalization, that of insulin and insulin receptor. The same technique has also been applied to studying the interactions between natural human antibodies, circulating in healthy subjects, and living human endothelial cells, fibroblasts, and proximal tubular epithelial cells. The device described in the chapter is simple and inexpensive but fulfills all the described criteria.