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Your search keyword '"Silengo, Lorenzo"' showing total 13 results
Start Over Author "Silengo, Lorenzo" Publisher elsevier b.v.
13 results on '"Silengo, Lorenzo"'

3. P13K gamma modulates the cardiac response to chronic pressure overload by distinct Kinase-dependent and independent effects

Author

Patrucco, Enrico, Selvetella, Giulio, Marengo, Stefano, Rybalkin, Sergei D., Wetzker, Reinhard, Barberis, Laura, Notte, Antonella, Brancaccio, Mara, Maffei, Angelo, Azzolino, Ornella, Russo, Giovanni, Altruda, Fiorella, Silengo, Lorenzo, Hirsch, Emilio, Lembo, Giuseppe, and Wymann, Matthias P.

Subjects
Protein kinases -- Research, Cyclic adenylic acid -- Research, Phosphoinositides -- Research, Biological sciences
Abstract

The G protein coupled, receptors-activated phosphoinositide 3-kinase gamma(PI3K gamma) mediates inflammatory responses and negatively controls cardiac contractility by reducing cAMP concentrations. A study is conducted to show that mice carrying a targeted mutation in the PI3K gamma gene causing loss of kinase activity (PI3K gamma(super KD/KD)) display reduced inflammatory reactions but no alterations in cardiac contractility.

Published
2004

5. Heme Exporter FLVCR1a Regulates Heme Synthesis and Degradation and Controls Activity of Cytochromes P450.

Author

Vinchi, Francesca, Ingoglia, Giada, Chiabrando, Deborah, Mercurio, Sonia, Turco, Emilia, Silengo, Lorenzo, Altruda, Fiorella, and Tolosano, Emanuela

Abstract

Background & Aims: The liver has one of the highest rates of heme synthesis of any organ. More than 50% of the heme synthesized in the liver is used for synthesis of P450 enzymes, which metabolize exogenous and endogenous compounds that include natural products, hormones, drugs, and carcinogens. Feline leukemia virus subgroup C cellular receptor 1a (FLVCR1a) is plasma membrane heme exporter that is ubiquitously expressed and controls intracellular heme content in hematopoietic lineages. We investigated the role of Flvcr1a in liver function in mice. Methods: We created mice with conditional disruption of Mfsd7b, which encodes Flvcr1a, in hepatocytes (Flvcr1a fl/fl ;alb-cre mice). Mice were analyzed under basal conditions, after phenylhydrazine-induced hemolysis, and after induction of cytochromes P450 synthesis. Livers were collected and analyzed by histologic, quantitative real-time polymerase chain reaction, and immunoblot analyses. Hepatic P450 enzymatic activities were measured. Results: Flvcr1a fl/fl ;alb-cre mice accumulated heme and iron in liver despite up-regulation of heme oxygenase 1, ferroportin, and ferritins. Hepatic heme export activity of Flvcr1a was closely associated with heme biosynthesis, which is required to sustain cytochrome induction. Upon cytochromes P450 stimulation, Flvcr1a fl/fl ;alb-cre mice had reduced cytochrome activity, associated with accumulation of heme in hepatocytes. The expansion of the cytosolic heme pool in these mice was likely responsible for the early inhibition of heme synthesis and increased degradation of heme, which reduced expression and activity of cytochromes P450. Conclusions: In livers of mice, Flvcr1a maintains a free heme pool that regulates heme synthesis and degradation as well as cytochromes P450 expression and activity. These findings have important implications for drug metabolism. [Copyright &y& Elsevier]

Published
2014
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6. Lack of Haptoglobin Affects Iron Transport Across Duodenum by Modulating Ferroportin Expression.

Author

Marro, Samuele, Barisani, Donatella, Chiabrando, Deborah, Fagoonee, Sharmila, Muckenthaler, Martina U., Stolte, Jens, Meneveri, Raffaella, Haile, David, Silengo, Lorenzo, Altruda, Fiorella, and Tolosano, Emanuela

Subjects
IRON in the body, MAMMAL body composition, TRANSFERRIN
Abstract

Background & Aims: Haptoglobin is an acute phase protein responsible for the recovery of free hemoglobin from plasma. Haptoglobin-null mice were previously shown to have an altered heme-iron distribution, thus reproducing what occurs in humans in cases of congenital or acquired anhaptoglobinemia. Here, we report the analysis of iron homeostasis in haptoglobin-null mice. Methods: Iron absorption was measured in tied-off duodenal segments. Iron stores were evaluated on tissue homogenates and sections. The expression of molecules involved in iron homeostasis was analyzed at the protein and messenger RNA levels both in mice and in murine RAW264.7 macrophages stimulated in vitro with hemoglobin. Results: Analysis of intestinal iron transport reveals that haptoglobin-null mice export significantly more iron from the duodenal mucosa to plasma compared with control counterparts. Increased iron export from the duodenum correlates with increased duodenal expression of ferroportin, both at the protein and messenger RNA levels, whereas hepatic hepcidin expression remains unchanged. Up-regulation of the ferroportin transcript, but not of the protein, also occurs in haptoglobin-null spleen macrophages, which accumulate free hemoglobin-derived iron. Finally, we demonstrate that hemoglobin induces ferroportin expression in RAW264.7 cells. Conclusions: Taking together these data, we suggest that haptoglobin, by controlling plasma levels of hemoglobin, participates in the regulation of ferroportin expression, thus contributing to the regulation of iron transfer from duodenal mucosa to plasma. [Copyright &y& Elsevier]

Published
2007
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9. Hemopexin counteracts systolic dysfunction induced by heme-driven oxidative stress.

Author

Ingoglia, Giada, Cimino, James, Petrillo, Sara, Silengo, Lorenzo, Altruda, Fiorella, Hirsch, Emilio, Ghigo, Alessandra, Tolosano, Emanuela, Sag, Can Martin, Rex, Nikolai, Wagner, Stefan, Kreitmeier, Klaus, Maier, Lars S., De Franceschi, Lucia, and Vinchi, Francesca

Subjects
*HEMOPEXIN, *HEMOLYSIS & hemolysins, *OXIDATIVE stress, *HEART failure, *HEME
Abstract

Heart failure is a leading cause of morbidity and mortality in patients affected by different disorders associated to intravascular hemolysis. The leading factor is the presence of pathologic amount of pro-oxidant free heme in the bloodstream, due to the exhaustion of the natural heme scavenger Hemopexin (Hx). Here, we evaluated whether free heme directly affects cardiac function, and tested the therapeutic potential of replenishing serum Hx for increasing serum heme buffering capacity. The effect of heme on cardiac function was assessed in vitro , on primary cardiomyocytes and H9c2 myoblast cell line, and in vivo , in Hx -/- mice and in genetic and acquired mouse models of intravascular hemolysis. Purified Hx or anti-oxidants N-Acetyl- L -cysteine and α-tocopherol were used to counteract heme cardiotoxicity. In mice, Hx loss/depletion resulted in heme accumulation and enhanced reactive oxygen species (ROS) production in the heart, which ultimately led to severe systolic dysfunction. Similarly, high ROS reduced systolic Ca 2+ transient amplitudes and fractional shortening in primary cardiomyocytes exposed to free heme. In keeping with these Ca 2+ handling alterations, oxidation and CaMKII-dependent phosphorylation of Ryanodine Receptor 2 were higher in Hx -/- hearts than in controls. Administration of anti-oxidants prevented systolic failure both in vitro and in vivo. Intriguingly, Hx rescued contraction defects of heme-treated cardiomyocytes and preserved cardiac function in hemolytic mice. We show that heme-mediated oxidative stress perturbs cardiac Ca 2+ homeostasis and promotes contractile dysfunction. Scavenging heme, Hx counteracts cardiac heme toxicity and preserves left ventricular function. Our data generate the rationale to consider the therapeutic use of Hx to limit the cardiotoxicity of free heme in hemolytic disorders. [ABSTRACT FROM AUTHOR]

Published
2017
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10. The aging effect of chemotherapy on cultured human mesenchymal stem cells

Author

Buttiglieri, Stefano, Ruella, Marco, Risso, Alessandra, Spatola, Tiziana, Silengo, Lorenzo, Avvedimento, Enrico Vittorio, and Tarella, Corrado

Subjects
*MESENCHYMAL stem cells, *DRUG therapy, *CYTOLOGY, *CELL culture, *DOXORUBICIN, *CELL differentiation, *PHENOTYPES
Abstract

Various agents, including chemotherapeutic drugs, can induce cell senescence. However, the mechanisms involved in the aging pathway, particularly the stress that chemotherapy imposes on telomeres, are still undefined. To address these issues, human mesenchymal stem cells (MSCs) were assessed as target cells to investigate the initiation of the aging process by chemotherapy. The MSCs were obtained from bone marrow (BM) cells from normal adults and grown in the presence of platelet lysates. Cultured MSCs were identified for immunophenotype, and for growth and differentiation properties. The MSCs were exposed to 10 nM doxorubicin and 500 ng/mL etoposide, sublethal doses that induce DNA double-stranded breaks. Telomere length (TL) was assessed by flow-fluorescence in situ hybridization and Southern blotting. Initial TL shortening was detectable in MSCs at 5 days after drug exposure, with progressive reduction compared with untreated cells at 7, 14, 21, and 28 days in culture. After a single exposure, MSCs were unable to regain the lost telomere sequences for up to 28 days in culture. The ATM phosphorylation was documented early after drug exposure, while no telomerase activation was observed. Chemotherapy-induced TL shortening was associated with reduced clonogenic activity in vitro and accelerated adipose differentiation. Analogous behavior in the differentiation pattern was observed in naturally aged MSCs. These results indicate that cultured MSCs represent a useful cellular model to investigate novel drugs that may favor or, conversely, might prevent TL loss in human stem cells. The TL shortening is a permanent signature of previous chemotherapy-mediated DNA damage, and predicts impaired proliferative and differentiation potential. [ABSTRACT FROM AUTHOR]

Published
2011
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11. Morgana/chp-1, a ROCK Inhibitor Involved in Centrosome Duplication and Tumorigenesis

Author

Ferretti, Roberta, Palumbo, Valeria, Di Savino, Augusta, Velasco, Silvia, Sbroggiò, Mauro, Sportoletti, Paolo, Micale, Lucia, Turco, Emilia, Silengo, Lorenzo, Palumbo, Gioacchino, Hirsch, Emilio, Teruya-Feldstein, Julie, Bonaccorsi, Silvia, Pandolfi, Pier Paolo, Gatti, Maurizio, Tarone, Guido, and Brancaccio, Mara

Subjects
*CENTROSOMES, *CARCINOGENESIS, *CYTOLOGY, *CELLULAR signal transduction, *CELL cycle, *DROSOPHILA genetics, *LABORATORY mice, *GENETIC mutation
Abstract

Summary: Centrosome abnormalities lead to genomic instability and are a common feature of many cancer cells. Here we show that mutations in morgana/chp-1 result in centrosome amplification and lethality in both Drosophila and mouse, and that the fly centrosome phenotype is fully rescued by the human ortholog of morgana. In mouse cells, morgana forms a complex with Hsp90 and ROCK I and II, and directly binds ROCK II. Morgana downregulation promotes the interaction between ROCK II and nucleophosmin (NPM), leading to an increased ROCK II kinase activity, which results in centrosome amplification. morgana +/− primary cells and mice display an increased susceptibility to neoplastic transformation. In addition, tumor tissue array histochemical analysis revealed that morgana is underexpressed in a large fraction of breast and lung human cancers. Thus, morgana/chp-1 appears to prevent both centrosome amplification and tumorigenesis. [Copyright &y& Elsevier]

Published
2010
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12. Identification of Krit1B: a novel alternative splicing isoform of cerebral cavernous malformation gene-1

Author

Retta, Saverio Francesco, Avolio, Maria, Francalanci, Floriana, Procida, Simone, Balzac, Fiorella, Degani, Simona, Tarone, Guido, and Silengo, Lorenzo

Subjects
*CEREBRAL circulation, *HEMORRHAGE, *GENE expression, *CELL lines
Abstract

Cerebral cavernous malformations (CCM) are vascular malformations, mostly located in the central nervous system, which occur in 0.1–0.5% of the population. They are characterized by abnormally enlarged and often leaking capillary cavities without intervening neural parenchyma. Some are clinically silent, whereas others cause seizures, intracerebral haemorrhage or focal neurological deficits. These vascular malformations can arise sporadically or may be inherited as an autosomal dominant condition with incomplete penetrance. At least 45% of families affected with cerebral cavernous malformations harbour a mutation in Krev interaction trapped-1 (Krit1) gene (cerebral cavernous malformation gene-1, CCM1). This gene contains 16 coding exons which encode a 736-amino acid protein containing three ankyrin repeats and a FERM domain. Neither the CCM1 pathogenetic mechanisms nor the function of the Krit1 protein are understood so far, although several hypotheses have been inferred from the predicted consequences of Krit1 mutations as well as from the identification of Krit1 as a binding partner of Rap1A, ICAP1A and microtubules.Here, we report the identification of Krit1B, a novel Krit1 isoform characterized by the alternative splicing of the 15th coding exon. We show that the Krit1B splice isoform is widely expressed in mouse cell lines and tissues, whereas its expression is highly restricted in human. In addition, we developed a real-time PCR strategy to accurately quantify the relative ratio of the two Krit1 alternative transcripts in different tissues, demonstrating a Krit1B/Krit1A ratio up to 20% in mouse thymus, but significantly lower ratios in other tissues. Bioinformatic analysis using exon/gene-prediction, comparative alignment and structure analysis programs supported the existence of Krit1 alternative transcripts lacking the 15th coding exon and showed that the splicing out of this exon occurs outside of potentially important Krit1 structural domains but in a region required for association with Rap1A, suggesting a subtle, yet important effect on the protein function.Our results indicate that maintenance of a proper ratio between Krit1A and Krit1B could be functionally relevant and suggest that the novel Krit1B isoform might expand our understanding of the role of Krit1 in CCM1 pathogenesis. [Copyright &y& Elsevier]

Published
2004
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13. Role of citron kinase in dendritic morphogenesis of cortical neurons

Author

Di Cunto, Ferdinando, Ferrara, Luciana, Curtetti, Roberta, Imarisio, Sara, Guazzone, Simona, Broccoli, Vania, Bulfone, Alessandro, Altruda, Fiorella, Vercelli, Alessandro, and Silengo, Lorenzo

Subjects
*CYTOSKELETON, *GUANOSINE triphosphatase
Abstract

Small GTPases of the rho family regulate the extensive rearrangements of the cytoskeleton that characterize neuronal differentiation. Citron kinase is a target molecule for activated rhoA, previously implicated in control of cytokinesis. We have found that, in addition, it could play an important role in modulating the extension of neuronal processes. Using constitutively active and dominant negative mutants, we showed that citron kinase is involved in the morphologic differentiation of N1E-115 neuroblastoma cells induced by serum starvation. More importantly, quantitative analysis of citron kinase knockout cerebral cortex displayed that this molecule may differentially regulate the morphology of the dendritic compartment in corticocollicular versus callosally-projecting pyramidal neurons. [Copyright &y& Elsevier]

Published
2003
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