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8. Tie2 Expressing Monocytes in the Spleen of Patients with Primary Myelofibrosis

Author

Campanelli, R., Fois, G., Catarsi, P., Poletto, V., Villani, L., Erba, B. G., Maddaluno, L., Jemos, B., Salmoiraghi, S., Guglielmelli, P., Abbonante, V., Di Buduo, C. A., Balduini, A., Iurlo, A., Barosi, G., Rosti, V., Massa, M., Vannucchi, A. M., Balliu, M., Bartalucci, N., Bogani, C., Bosi, A., Calabresi, L., Corbizzi Fattori, G., Fanelli, T., Fjerza, R., Gesullo, F., Mannarelli, C., Merli, L., Pacilli, A., Pancrazzi, A., Paoli, C., Pieri, L., Rotunno, G., Sant'Antonio, E., Bonetti, E., Cazzola, M., Ambaglio, I., Bernasconi, P., Casetti, C. I., Catricala, S., Elena, C., Fugazza, E., Galli, A., Malcovati, L., Milanesi, C., Pascutto, C., Pietra, D., Ripamonti, F., Rossi, M., Rumi, E., Dejana, E., Breviario, F., Corada, M., Malinverno, M., Rambaldi, A., Chioda, G., Ferrari, M. L., Finazzi, G., Finazzi, M. C., Belotti, C., Boroni, C., Amaru, A., Golay, J., Bortoluzzi, S., Bisognin, A., Coppe, A., Saccoman, C., Manfredini, R., Artuso, L., Bernardis, I., Bianchi, E., Montanari, M., Pennucci, V., Prudente, Z., Rontauroli, S., Rossi, C., Ruberti, S., Salati, S., Tagliafico, E., Tenedini, E., and Zini, R.

Subjects
Male, 0301 basic medicine, Pathology, Physiology, Angiogenesis, CD34, Gene Expression, lcsh:Medicine, Medicine (all), Biochemistry, Genetics and Molecular Biology (all), Agricultural and Biological Sciences (all), Cardiovascular Physiology, Monocytes, White Blood Cells, 0302 clinical medicine, Animal Cells, Immune Physiology, Medicine and Health Sciences, Blood and Lymphatic System Procedures, Electron Microscopy, lcsh:Science, Microscopy, Multidisciplinary, Neovascularization, Pathologic, Cell Differentiation, Hematology, Middle Aged, Receptor, TIE-2, Haematopoiesis, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Splenectomy, cardiovascular system, Female, Cellular Types, Receptor, Research Article, medicine.medical_specialty, Aged, Case-Control Studies, Humans, Primary Myelofibrosis, Spleen, Patients, Immune Cells, CD14, Immunology, Surgical and Invasive Medical Procedures, Biology, Research and Analysis Methods, 03 medical and health sciences, Genetics, medicine, Progenitor cell, TIE-2, Myelofibrosis, Neovascularization, Pathologic, Blood Cells, lcsh:R, Biology and Life Sciences, Cell Biology, medicine.disease, Hematopoiesis, Health Care, 030104 developmental biology, Transmission Electron Microscopy, lcsh:Q, Bone marrow, Developmental Biology
Abstract

Primary myelofibrosis (PMF) is a Philadelphia-negative (Ph-) myeloproliferative disorder, showing abnormal CD34+ progenitor cell trafficking, splenomegaly, marrow fibrosis leading to extensive extramedullary haematopoiesis, and abnormal neoangiogenesis in either the bone marrow or the spleen. Monocytes expressing the angiopoietin-2 receptor (Tie2) have been shown to support abnormal angiogenic processes in solid tumors through a paracrine action that takes place in proximity to the vessels. In this study we investigated the frequency of Tie2 expressing monocytes in the spleen tissue samples of patients with PMF, and healthy subjects (CTRLs), and evaluated their possible role in favouring spleen angiogenesis. We show by confocal microscopy that in the spleen tissue of patients with PMF, but not of CTRLs, the most of the CD14+ cells are Tie2+ and are close to vessels; by flow cytometry, we found that Tie2 expressing monocytes were Tie2+CD14lowCD16brightCDL62-CCR2- (TEMs) and their frequency was higher (p = 0.008) in spleen tissue-derived mononuclear cells (MNCs) of patients with PMF than in spleen tissue-derived MNCs from CTRLs undergoing splenectomy for abdominal trauma. By in vitro angiogenesis assay we evidenced that conditioned medium of immunomagnetically selected spleen tissue derived CD14+ cells of patients with PMF induced a denser tube like net than that of CTRLs; in addition, CD14+Tie2+ cells sorted from spleen tissue derived single cell suspension of patients with PMF show a higher expression of genes involved in angiogenesis than that found in CTRLs. Our results document the enrichment of Tie2+ monocytes expressing angiogenic genes in the spleen of patients with PMF, suggesting a role for these cells in starting/maintaining the pathological angiogenesis in this organ.

Published
2016

11. The adhesion molecule NCAM promotes ovarian cancer progression via FGFR signalling

Author

Zecchini, S, Bombardelli, L, Decio, A, Bianchi, M, Mazzarol, G, Sanguineti, F, Aletti, G, Maddaluno, L, Berezin, V, Bock, E, Casadio, C, Viale, G, Colombo, N, Giavazzi, R, Cavallaro, U, COLOMBO, NICOLETTA, Cavallaro, U., Zecchini, S, Bombardelli, L, Decio, A, Bianchi, M, Mazzarol, G, Sanguineti, F, Aletti, G, Maddaluno, L, Berezin, V, Bock, E, Casadio, C, Viale, G, Colombo, N, Giavazzi, R, Cavallaro, U, COLOMBO, NICOLETTA, and Cavallaro, U.

Abstract

Epithelial ovarian carcinoma (EOC) is an aggressive neoplasm, which mainly disseminates to organs of the peritoneal cavity, an event mediated by molecular mechanisms that remain elusive. Here, we investigated the expression and functional role of neural cell adhesion molecule (NCAM), a cell surface glycoprotein involved in brain development and plasticity, in EOC. NCAM is absent from normal ovarian epithelium but becomes highly expressed in a subset of human EOC, in which NCAM expression is associated with high tumour grade, suggesting a causal role in cancer aggressiveness. We demonstrate that NCAM stimulates EOC cell migration and invasion in vitro and promotes metastatic dissemination in mice. This pro-malignant function of NCAM is mediated by its interaction with fibroblast growth factor receptor (FGFR). Indeed, not only FGFR signalling is required for NCAM-induced EOC cell motility, but targeting the NCAM/FGFR interplay with a monoclonal antibody abolishes the metastatic dissemination of EOC in mice. Our results point to NCAM-mediated stimulation of FGFR as a novel mechanism underlying EOC malignancy and indicate that this interplay may represent a valuable therapeutic target. © 2011 EMBO Molecular Medicine.

Published
2011

12. MHD activity in FTU plasmas with reversed magnetic shear

Author

Buratti, P, Micozzi, F, Tudisco, P, Acitelli, O, Angelini, L, Apicella, B, Apruzzese, M, Barbato, G, Bertocchi, E, Bracco, A, Bruschi, G, Buceti, A, Cardinali, G, Centioli, A, Cesario, C, Ciattaglia, R, Ciotti, S, Cirant, M, Cocilovo, S, Crisanti, V, De Angelis, F, De Marco, R, Esposito, F, Frigione, B, Gabellieri, D, Gatti, L, Giovannozzi, G, Gourlan, E, Granucci, C, Grolli, G, Imparato, M, Kroegler, A, Leigheb, H, Lovisetto, M, Maddaluno, L, Maffia, G, Mancuso, G, Marinucci, A, Mazzitelli, M, Mirizzi, G, Orsitto, F, Pacella, F, Panaccione, D, Panella, L, Pericoli Ridolfini, M, Pieroni, V, Podda, L, Righetti, S, Romanelli, F, Santini, F, Sassi, F, Segre, M, Simonetto, S, Sozzi, A, Sternini, C, Tuccillo, S, Valente, A, Vitale, F, Vlad, V, Zanza, G, and Zerbini, V

Subjects
Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin)
Published
1997

13. A numerical study on tunnel-building interaction in liquefiable soil

Author

L. Maddaluno, C. Stanzione, V. Nappa, E. Bilotta, Francesco Silvestri, Nicola Moraci, Maddaluno, L., Stanzione, C., Nappa, V., and Bilotta, E.

Abstract

This paper shows the results of the preliminary numerical analyses carried out for the project STILUS within the framework of the European funded network SERA (Seismology and Earthquake Engineering Research Infrastructure Alliance for Europe). The aim of the project is to investigate the problem of tunnel-structure interaction in liquefiable soil through a series of centrifuge tests and to assess an effective mitigation technique. A preliminary numerical study was carried out in Plaxis 2D software. The soil was characterized by UBCSAND model imple- mented in the Plaxis code. The input parameters for the models are evaluated on the basis of laboratory element tests. Numerical analyses were also performed to evaluate the efficacy of drains as mitigation techniques. Drains were installed in the models, in order to analyse their ef- fectiveness in reducing the pore pressure build up and then the tunnel uplift and building move- ments as a function of their spacing, length and position.

Published
2019

14. The adhesion molecule NCAM promotes ovarian cancer progression via FGFR signalling

Author

Vladimir Berezin, Elisabeth Bock, Giuseppe Viale, Luigi Maddaluno, Raffaella Giavazzi, Lorenzo Bombardelli, Marco Bianchi, Giovanni Aletti, Chiara Casadio, Silvia Zecchini, Ugo Cavallaro, Giovanni Mazzarol, Alessandra Decio, Nicoletta Colombo, Fabio Sanguineti, Zecchini, S, Bombardelli, L, Decio, A, Bianchi, M, Mazzarol, G, Sanguineti, F, Aletti, G, Maddaluno, L, Berezin, V, Bock, E, Casadio, C, Viale, G, Colombo, N, Giavazzi, R, and Cavallaro, U

Subjects
endocrine system diseases, MED/40 - GINECOLOGIA E OSTETRICIA, Cell, Biology, Fibroblast growth factor, Mice, neural cell adhesion molecule, Cell Movement, Ovarian carcinoma, medicine, Animals, Humans, Neoplasm Invasiveness, Receptor, Fibroblast Growth Factor, Type 1, signalling, Neoplasm Metastasis, Neural Cell Adhesion Molecules, Neoplasm Invasivene, Ovarian Neoplasms, Animal, Ovarian Neoplasm, Carcinoma, Cell migration, medicine.disease, Immunohistochemistry, female genital diseases and pregnancy complications, Cell biology, ovarian carcinoma, Disease Models, Animal, medicine.anatomical_structure, nervous system, Fibroblast growth factor receptor, fibroblast growth factor receptor, tumour progression, Molecular Medicine, Female, Neural cell adhesion molecule, Signal transduction, Ovarian cancer, Human, Research Article, Signal Transduction
Abstract

Epithelial ovarian carcinoma (EOC) is an aggressive neoplasm, which mainly disseminates to organs of the peritoneal cavity, an event mediated by molecular mechanisms that remain elusive. Here, we investigated the expression and functional role of neural cell adhesion molecule (NCAM), a cell surface glycoprotein involved in brain development and plasticity, in EOC. NCAM is absent from normal ovarian epithelium but becomes highly expressed in a subset of human EOC, in which NCAM expression is associated with high tumour grade, suggesting a causal role in cancer aggressiveness. We demonstrate that NCAM stimulates EOC cell migration and invasion in vitro and promotes metastatic dissemination in mice. This pro-malignant function of NCAM is mediated by its interaction with fibroblast growth factor receptor (FGFR). Indeed, not only FGFR signalling is required for NCAM-induced EOC cell motility, but targeting the NCAM/FGFR interplay with a monoclonal antibody abolishes the metastatic dissemination of EOC in mice. Our results point to NCAM-mediated stimulation of FGFR as a novel mechanism underlying EOC malignancy and indicate that this interplay may represent a valuable therapeutic target. © 2011 EMBO Molecular Medicine.

Published
2011

15. Effects of tellurite on growth of Saccharomyces cerevisiae

Author

Domenica Rita Massardo, Pietro Alifano, Paola Pontieri, Loredana Maddaluno, Luigi Del Giudice, Mario De Stefano, Massardo, Dr, Pontieri, P, Maddaluno, L, De Stefano, M, Alifano, Pietro, Del Giudice, L., Massardo, D. R, DE STEFANO, Mario, Alifano, P, and AND L., DEL GIUDICE

Subjects
Saccharomyces cerevisiae, Mitochondrion, General Biochemistry, Genetics and Molecular Biology, Biomaterials, Cell wall, Tellurite, Microscopy, Electron, Transmission, tellurium, mitochondrion, biology, Chemistry, Metals and Alloys, Plant physiology, biology.organism_classification, Carbon, Yeast, Mitochondria, Transmission electronic microscopy, Biochemistry, Cytoplasm, Transmission electron microscopy, Fermentation, Biophysics, Metalloid, Tellurium, General Agricultural and Biological Sciences, Oxidation-Reduction
Abstract

The effects of potassium tellurite on growth and survival of rho + and rho0 Saccharomyces cerevisiae strains were investigated. Both rho+ and rho0 strains grew on a fermentable carbon source with up to 1.2 mM K2TeO3, while rho+ yeast cells grown on a non-fermentable carbon source were inhibited at tellurite levels as low as 50 μM suggesting that this metalloid specifically inhibited mitochondrial functions. Growth of rho+ yeast cells in the presence of increasing amount of tellurite resulted in dose-dependent blackening of the culture, a phenomenon not observed with rho0 cultures. Transmission electron microscopy of S. cerevisiae rho+ cells grown in the presence of tellurite showed that blackening was likely due to elemental tellurium (Te0) that formed large deposits along the cell wall and small precipitates in both the cytoplasm and mitochondria. © 2009 Springer Science+Business Media, LLC.

Published
2009

16. Acute and chronic effects of a light-activated FGF receptor in keratinocytes in vitro and in mice.

Author

Rauschendorfer T, Gurri S, Heggli I, Maddaluno L, Meyer M, Inglés-Prieto Á, Janovjak H, and Werner S

Subjects
Animals, Female, Fibroblast Growth Factors metabolism, Fibroblast Growth Factors physiology, HEK293 Cells, Humans, Keratinocytes physiology, Ligands, Light, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Receptor, Fibroblast Growth Factor, Type 2 metabolism, Receptors, Fibroblast Growth Factor genetics, Receptors, Fibroblast Growth Factor physiology, Signal Transduction, Keratinocytes metabolism, Receptor, Fibroblast Growth Factor, Type 2 genetics, Receptors, Fibroblast Growth Factor metabolism
Abstract

FGFs and their high-affinity receptors (FGFRs) play key roles in development, tissue repair, and disease. Because FGFRs bind overlapping sets of ligands, their individual functions cannot be determined using ligand stimulation. Here, we generated a light-activated FGFR2 variant (OptoR2) to selectively activate signaling by the major FGFR in keratinocytes. Illumination of OptoR2-expressing HEK 293T cells activated FGFR signaling with remarkable temporal precision and promoted cell migration and proliferation. In murine and human keratinocytes, OptoR2 activation rapidly induced the classical FGFR signaling pathways and expression of FGF target genes. Surprisingly, multi-level counter-regulation occurred in keratinocytes in vitro and in transgenic mice in vivo, including OptoR2 down-regulation and loss of responsiveness to light activation. These results demonstrate unexpected cell type-specific limitations of optogenetic FGFRs in long-term in vitro and in vivo settings and highlight the complex consequences of transferring optogenetic cell signaling tools into their relevant cellular contexts., (© 2021 Rauschendorfer et al.)

Published
2021
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17. Antagonism of interferon signaling by fibroblast growth factors promotes viral replication.

Author

Maddaluno L, Urwyler C, Rauschendorfer T, Meyer M, Stefanova D, Spörri R, Wietecha M, Ferrarese L, Stoycheva D, Bender D, Li N, Strittmatter G, Nasirujjaman K, Beer HD, Staeheli P, Hildt E, Oxenius A, and Werner S

Subjects
Animals, Fibroblast Growth Factors, Humans, Interferons, Mice, Receptors, Fibroblast Growth Factor, Signal Transduction, Virus Replication, Zika Virus, Zika Virus Infection
Abstract

Fibroblast growth factors (FGFs) play key roles in the pathogenesis of different human diseases, but the cross-talk between FGFs and other cytokines remains largely unexplored. We identified an unexpected antagonistic effect of FGFs on the interferon (IFN) signaling pathway. Genetic or pharmacological inhibition of FGF receptor signaling in keratinocytes promoted the expression of interferon-stimulated genes (ISG) and proteins in vitro and in vivo. Conversely, FGF7 or FGF10 treatment of keratinocytes suppressed ISG expression under homeostatic conditions and in response to IFN or poly(I:C) treatment. FGF-mediated ISG suppression was independent of IFN receptors, occurred at the transcriptional level, and required FGF receptor kinase and proteasomal activity. It is not restricted to keratinocytes and functionally relevant, since FGFs promoted the replication of herpes simplex virus I (HSV-1), lymphocytic choriomeningitis virus, and Zika virus. Most importantly, inhibition of FGFR signaling blocked HSV-1 replication in cultured human keratinocytes and in mice. These results suggest the use of FGFR kinase inhibitors for the treatment of viral infections., (© 2020 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2020
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18. Fibroblast growth factors: key players in regeneration and tissue repair.

Author

Maddaluno L, Urwyler C, and Werner S

Subjects
Animals, Humans, Models, Biological, Organ Specificity, Signal Transduction, Fibroblast Growth Factors metabolism, Regeneration physiology, Wound Healing
Abstract

Tissue injury initiates a complex repair process, which in some organisms can lead to the complete regeneration of a tissue. In mammals, however, the repair of most organs is imperfect and results in scar formation. Both regeneration and repair are orchestrated by a highly coordinated interplay of different growth factors and cytokines. Among the key players are the fibroblast growth factors (FGFs), which control the migration, proliferation, differentiation and survival of different cell types. In addition, FGFs influence the expression of other factors involved in the regenerative response. Here, we summarize current knowledge on the roles of endogenous FGFs in regeneration and repair in different organisms and in different tissues and organs. Gaining a better understanding of these FGF activities is important for appropriate modulation of FGF signaling after injury to prevent impaired healing and to promote organ regeneration in humans., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2017. Published by The Company of Biologists Ltd.)

Published
2017
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19. KLF4 is a key determinant in the development and progression of cerebral cavernous malformations.

Author

Cuttano R, Rudini N, Bravi L, Corada M, Giampietro C, Papa E, Morini MF, Maddaluno L, Baeyens N, Adams RH, Jain MK, Owens GK, Schwartz M, Lampugnani MG, and Dejana E

Subjects
Animals, Bone Morphogenetic Protein 6 antagonists & inhibitors, Bone Morphogenetic Protein 6 genetics, Bone Morphogenetic Protein 6 metabolism, Cell Proliferation, Disease Models, Animal, Disease Progression, Endothelial Cells cytology, Endothelial Cells metabolism, HEK293 Cells, Hemangioma, Cavernous, Central Nervous System metabolism, Humans, KRIT1 Protein, Kruppel-Like Factor 4, Kruppel-Like Transcription Factors antagonists & inhibitors, Kruppel-Like Transcription Factors genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Microtubule-Associated Proteins antagonists & inhibitors, Microtubule-Associated Proteins genetics, Microtubule-Associated Proteins metabolism, Mitogen-Activated Protein Kinase 7 metabolism, Mutation, Proto-Oncogene Proteins antagonists & inhibitors, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins metabolism, RNA Interference, Signal Transduction, Smad1 Protein metabolism, Transforming Growth Factor beta metabolism, Hemangioma, Cavernous, Central Nervous System genetics, Hemangioma, Cavernous, Central Nervous System pathology, Kruppel-Like Transcription Factors metabolism
Abstract

Cerebral cavernous malformations (CCMs) are vascular malformations located within the central nervous system often resulting in cerebral hemorrhage. Pharmacological treatment is needed, since current therapy is limited to neurosurgery. Familial CCM is caused by loss-of-function mutations in any of Ccm1, Ccm2, and Ccm3 genes. CCM cavernomas are lined by endothelial cells (ECs) undergoing endothelial-to-mesenchymal transition (EndMT). This switch in phenotype is due to the activation of the transforming growth factor beta/bone morphogenetic protein (TGFβ/BMP) signaling. However, the mechanism linking Ccm gene inactivation and TGFβ/BMP-dependent EndMT remains undefined. Here, we report that Ccm1 ablation leads to the activation of a MEKK3-MEK5-ERK5-MEF2 signaling axis that induces a strong increase in Kruppel-like factor 4 (KLF4) in ECs in vivo. KLF4 transcriptional activity is responsible for the EndMT occurring in CCM1-null ECs. KLF4 promotes TGFβ/BMP signaling through the production of BMP6. Importantly, in endothelial-specific Ccm1 and Klf4 double knockout mice, we observe a strong reduction in the development of CCM and mouse mortality. Our data unveil KLF4 as a therapeutic target for CCM., (© 2015 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2016
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20. Accumulation and activation of epidermal γδ T cells in a mouse model of chronic dermatitis is not required for the inflammatory phenotype.

Author

Sulcova J, Maddaluno L, Meyer M, and Werner S

Subjects
Animals, Carrier Proteins genetics, Carrier Proteins immunology, Cell Proliferation, Chronic Disease, Dermatitis genetics, Dermatitis pathology, Disease Models, Animal, Epidermis immunology, Epidermis pathology, Gene Expression Regulation, Histocompatibility Antigens Class I genetics, Histocompatibility Antigens Class I immunology, Immunoglobulins genetics, Immunoglobulins immunology, Interleukin-2 genetics, Interleukin-2 immunology, Interleukin-7 genetics, Interleukin-7 immunology, Keratinocytes pathology, Lymphocyte Activation, Lymphocyte Depletion, Membrane Proteins, Mice, Mice, Transgenic, Minor Histocompatibility Antigens genetics, Minor Histocompatibility Antigens immunology, Nerve Tissue Proteins genetics, Nerve Tissue Proteins immunology, Nuclear Matrix-Associated Proteins genetics, Nuclear Matrix-Associated Proteins immunology, Nucleocytoplasmic Transport Proteins genetics, Nucleocytoplasmic Transport Proteins immunology, Receptor, Fibroblast Growth Factor, Type 1 genetics, Receptor, Fibroblast Growth Factor, Type 1 immunology, Receptor, Fibroblast Growth Factor, Type 2 genetics, Receptor, Fibroblast Growth Factor, Type 2 immunology, Receptors, Antigen, T-Cell, gamma-delta genetics, Receptors, Antigen, T-Cell, gamma-delta immunology, Signal Transduction, T-Lymphocyte Subsets pathology, Dermatitis immunology, Keratinocytes immunology, Receptor, Fibroblast Growth Factor, Type 1 deficiency, Receptor, Fibroblast Growth Factor, Type 2 deficiency, Receptors, Antigen, T-Cell, gamma-delta deficiency, T-Lymphocyte Subsets immunology
Abstract

Chronic skin inflammation resulting from a defective epidermal barrier is a hallmark of atopic dermatitis (AD). We previously demonstrated that mice lacking FGF receptors 1 and 2 in keratinocytes (K5-R1/R2 mice) develop an AD-like chronic dermatitis as a result of an impaired epidermal barrier. Here, we show that γδ T cells, which rapidly respond to various insults, accumulate in the epidermis of K5-R1/R2 mice before the development of histological abnormalities. Their number and activation further increase as the phenotype progresses, most likely as a consequence of increased expression of Il-2 and Il-7 and the stress-induced proteins Rae-1, H60c, Mult1, PlexinB2, and Skint1. To determine the role of γδ T cells in the skin phenotype, we generated quadruple mutant K5-R1/-R2 mice lacking γδ T cells. Surprisingly, loss of γδ T cells did not or only marginally affect keratinocyte proliferation, epidermal thickness, epidermal barrier function, and accumulation and activation of different immune cells in the skin of K5-R1/R2 mice, possibly due to partial compensation by αβ T cells. These results demonstrate that γδ T cells do not contribute to the development or maintenance of chronic inflammation in response to a defect in the epidermal barrier., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2015
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21. Sulindac metabolites decrease cerebrovascular malformations in CCM3-knockout mice.

Author

Bravi L, Rudini N, Cuttano R, Giampietro C, Maddaluno L, Ferrarini L, Adams RH, Corada M, Boulday G, Tournier-Lasserve E, Dejana E, and Lampugnani MG

Subjects
Animals, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Apoptosis Regulatory Proteins, Central Nervous System Neoplasms genetics, Central Nervous System Neoplasms metabolism, Disease Models, Animal, Endothelial Cells metabolism, Gene Expression Regulation, Neoplastic drug effects, Hemangioma, Cavernous, Central Nervous System genetics, Hemangioma, Cavernous, Central Nervous System metabolism, Immunohistochemistry, Intracellular Signaling Peptides and Proteins genetics, Intracellular Signaling Peptides and Proteins metabolism, Mice, Knockout, Reverse Transcriptase Polymerase Chain Reaction, Signal Transduction drug effects, Signal Transduction genetics, Sulindac pharmacology, Transforming Growth Factor beta metabolism, beta Catenin genetics, beta Catenin metabolism, Central Nervous System Neoplasms drug therapy, Hemangioma, Cavernous, Central Nervous System drug therapy, Intracellular Signaling Peptides and Proteins deficiency, Sulindac analogs & derivatives
Abstract

Cerebral cavernous malformation (CCM) is a disease of the central nervous system causing hemorrhage-prone multiple lumen vascular malformations and very severe neurological consequences. At present, the only recommended treatment of CCM is surgical. Because surgery is often not applicable, pharmacological treatment would be highly desirable. We describe here a murine model of the disease that develops after endothelial-cell-selective ablation of the CCM3 gene. We report an early, cell-autonomous, Wnt-receptor-independent stimulation of β-catenin transcription activity in CCM3-deficient endothelial cells both in vitro and in vivo and a triggering of a β-catenin-driven transcription program that leads to endothelial-to-mesenchymal transition. TGF-β/BMP signaling is then required for the progression of the disease. We also found that the anti-inflammatory drugs sulindac sulfide and sulindac sulfone, which attenuate β-catenin transcription activity, reduce vascular malformations in endothelial CCM3-deficient mice. This study opens previously unidentified perspectives for an effective pharmacological therapy of intracranial vascular cavernomas.

Published
2015
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22. Endothelial deficiency of L1 reduces tumor angiogenesis and promotes vessel normalization.

Author

Magrini E, Villa A, Angiolini F, Doni A, Mazzarol G, Rudini N, Maddaluno L, Komuta M, Topal B, Prenen H, Schachner M, Confalonieri S, Dejana E, Bianchi F, Mazzone M, and Cavallaro U

Subjects
Animals, Blood Vessels, Capillary Permeability, Carcinoma metabolism, Cell Movement, Cell Proliferation, Female, Hemangioma metabolism, Humans, Interleukin-6 metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Nude, Mice, Transgenic, Neoplasm Metastasis, Neural Cell Adhesion Molecule L1 genetics, Pancreatic Neoplasms metabolism, Permeability, Phenotype, RNA Interference, Receptor, TIE-2 genetics, STAT3 Transcription Factor metabolism, Endothelial Cells cytology, Endothelium, Vascular pathology, Neoplasms blood supply, Neovascularization, Pathologic, Neural Cell Adhesion Molecule L1 physiology
Abstract

While tumor blood vessels share many characteristics with normal vasculature, they also exhibit morphological and functional aberrancies. For example, the neural adhesion molecule L1, which mediates neurite outgrowth, fasciculation, and pathfinding, is expressed on tumor vasculature. Here, using an orthotopic mouse model of pancreatic carcinoma, we evaluated L1 functionality in cancer vessels. Tumor-bearing mice specifically lacking L1 in endothelial cells or treated with anti-L1 antibodies exhibited decreased angiogenesis and improved vascular stabilization, leading to reduced tumor growth and metastasis. In line with these dramatic effects of L1 on tumor vasculature, the ectopic expression of L1 in cultured endothelial cells (ECs) promoted phenotypical and functional alterations, including proliferation, migration, tubulogenesis, enhanced vascular permeability, and endothelial-to-mesenchymal transition. L1 induced global changes in the EC transcriptome, altering several regulatory networks that underlie endothelial pathophysiology, including JAK/STAT-mediated pathways. In particular, L1 induced IL-6-mediated STAT3 phosphorylation, and inhibition of the IL-6/JAK/STAT signaling axis prevented L1-induced EC proliferation and migration. Evaluation of patient samples revealed that, compared with that in noncancerous tissue, L1 expression is specifically enhanced in blood vessels of human pancreatic carcinomas and in vessels of other tumor types. Together, these data indicate that endothelial L1 orchestrates multiple cancer vessel functions and represents a potential target for tumor vascular-specific therapies.

Published
2014
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23. Wnt activation of immortalized brain endothelial cells as a tool for generating a standardized model of the blood brain barrier in vitro.

Author

Paolinelli R, Corada M, Ferrarini L, Devraj K, Artus C, Czupalla CJ, Rudini N, Maddaluno L, Papa E, Engelhardt B, Couraud PO, Liebner S, and Dejana E

Subjects
Animals, Mice, Microscopy, Fluorescence, Reverse Transcriptase Polymerase Chain Reaction, beta Catenin metabolism, Blood-Brain Barrier metabolism, Brain cytology, Brain metabolism, Endothelial Cells metabolism, Wnt Proteins metabolism
Abstract

Reproducing the characteristics and the functional responses of the blood-brain barrier (BBB) in vitro represents an important task for the research community, and would be a critical biotechnological breakthrough. Pharmaceutical and biotechnology industries provide strong demand for inexpensive and easy-to-handle in vitro BBB models to screen novel drug candidates. Recently, it was shown that canonical Wnt signaling is responsible for the induction of the BBB properties in the neonatal brain microvasculature in vivo. In the present study, following on from earlier observations, we have developed a novel model of the BBB in vitro that may be suitable for large scale screening assays. This model is based on immortalized endothelial cell lines derived from murine and human brain, with no need for co-culture with astrocytes. To maintain the BBB endothelial cell properties, the cell lines are cultured in the presence of Wnt3a or drugs that stabilize β-catenin, or they are infected with a transcriptionally active form of β-catenin. Upon these treatments, the cell lines maintain expression of BBB-specific markers, which results in elevated transendothelial electrical resistance and reduced cell permeability. Importantly, these properties are retained for several passages in culture, and they can be reproduced and maintained in different laboratories over time. We conclude that the brain-derived endothelial cell lines that we have investigated gain their specialized characteristics upon activation of the canonical Wnt pathway. This model may be thus suitable to test the BBB permeability to chemicals or large molecular weight proteins, transmigration of inflammatory cells, treatments with cytokines, and genetic manipulation.

Published
2013
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24. Phosphorylation of VE-cadherin is modulated by haemodynamic forces and contributes to the regulation of vascular permeability in vivo.

Author

Orsenigo F, Giampietro C, Ferrari A, Corada M, Galaup A, Sigismund S, Ristagno G, Maddaluno L, Koh GY, Franco D, Kurtcuoglu V, Poulikakos D, Baluk P, McDonald D, Grazia Lampugnani M, and Dejana E

Subjects
Amino Acid Sequence, Animals, Antibody Specificity drug effects, Antigens, CD immunology, Arteries drug effects, Arteries physiology, Bradykinin pharmacology, Cadherins immunology, Endocytosis drug effects, Enzyme Activation drug effects, Human Umbilical Vein Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells metabolism, Humans, Inflammation Mediators metabolism, Mice, Mice, Inbred C57BL, Molecular Sequence Data, Phosphorylation drug effects, Stress, Mechanical, Ubiquitination drug effects, Veins drug effects, Veins physiology, src-Family Kinases metabolism, Antigens, CD metabolism, Cadherins metabolism, Capillary Permeability drug effects, Hemodynamics drug effects
Abstract

Endothelial adherens junctions maintain vascular integrity. Arteries and veins differ in their permeability but whether organization and strength of their adherens junctions vary has not been demonstrated in vivo. Here we report that vascular endothelial cadherin, an endothelial specific adhesion protein located at adherens junctions, is phosphorylated in Y658 and Y685 in vivo in veins but not in arteries under resting conditions. This difference is due to shear stress-induced junctional Src activation in veins. Phosphorylated vascular endothelial-cadherin is internalized and ubiquitinated in response to permeability-increasing agents such as bradykinin and histamine. Inhibition of Src blocks vascular endothelial cadherin phosphorylation and bradykinin-induced permeability. Point mutation of Y658F and Y685F prevents vascular endothelial cadherin internalization, ubiquitination and an increase in permeability by bradykinin in vitro. Thus, phosphorylation of vascular endothelial cadherin contributes to a dynamic state of adherens junctions, but is not sufficient to increase vascular permeability in the absence of inflammatory agents.

Published
2012
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25. The signaling adaptor Eps8 is an essential actin capping protein for dendritic cell migration.

Author

Frittoli E, Matteoli G, Palamidessi A, Mazzini E, Maddaluno L, Disanza A, Yang C, Svitkina T, Rescigno M, and Scita G

Subjects
Adaptor Proteins, Signal Transducing deficiency, Adaptor Proteins, Signal Transducing genetics, Animals, Antigen Presentation, Cell Movement immunology, Cell Proliferation, Cells, Cultured, Cytoskeletal Proteins deficiency, Cytoskeletal Proteins genetics, Dermatitis, Contact immunology, Flow Cytometry, Mice, Mice, Inbred C57BL, Mice, Knockout, T-Lymphocytes immunology, Actin Capping Proteins immunology, Adaptor Proteins, Signal Transducing immunology, Cytoskeletal Proteins immunology, Dendritic Cells immunology, Signal Transduction
Abstract

Dendritic cells (DCs) flexibly adapt to different microenvironments by using diverse migration strategies that are ultimately dependent on the dynamics and structural organization of the actin cytoskeleton. Here, we have shown that DCs require the actin capping activity of the signaling adaptor Eps8 to polarize and to form elongated migratory protrusions. DCs from Eps8-deficient mice are impaired in directional and chemotactic migration in 3D in vitro and are delayed in reaching the draining lymph node (DLN) in vivo after inflammatory challenge. Hence, Eps8-deficient mice are unable to mount a contact hypersensitivity response. We have also shown that the DC migratory defect is cell autonomous and that Eps8 is required for the proper architectural organization of the actin meshwork and dynamics of cell protrusions. Yet, Eps8 is not necessary for antigen uptake, processing, and presentation. Thus, we have identified Eps8 as a unique actin capping protein specifically required for DC migration., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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26. The adhesion molecule NCAM promotes ovarian cancer progression via FGFR signalling.

Author

Zecchini S, Bombardelli L, Decio A, Bianchi M, Mazzarol G, Sanguineti F, Aletti G, Maddaluno L, Berezin V, Bock E, Casadio C, Viale G, Colombo N, Giavazzi R, and Cavallaro U

Subjects
Animals, Carcinoma secondary, Cell Movement, Disease Models, Animal, Female, Humans, Immunohistochemistry, Mice, Neoplasm Invasiveness, Neoplasm Metastasis pathology, Ovarian Neoplasms secondary, Carcinoma pathology, Neural Cell Adhesion Molecules metabolism, Ovarian Neoplasms pathology, Receptor, Fibroblast Growth Factor, Type 1 metabolism, Signal Transduction
Abstract

Epithelial ovarian carcinoma (EOC) is an aggressive neoplasm, which mainly disseminates to organs of the peritoneal cavity, an event mediated by molecular mechanisms that remain elusive. Here, we investigated the expression and functional role of neural cell adhesion molecule (NCAM), a cell surface glycoprotein involved in brain development and plasticity, in EOC. NCAM is absent from normal ovarian epithelium but becomes highly expressed in a subset of human EOC, in which NCAM expression is associated with high tumour grade, suggesting a causal role in cancer aggressiveness. We demonstrate that NCAM stimulates EOC cell migration and invasion in vitro and promotes metastatic dissemination in mice. This pro-malignant function of NCAM is mediated by its interaction with fibroblast growth factor receptor (FGFR). Indeed, not only FGFR signalling is required for NCAM-induced EOC cell motility, but targeting the NCAM/FGFR interplay with a monoclonal antibody abolishes the metastatic dissemination of EOC in mice. Our results point to NCAM-mediated stimulation of FGFR as a novel mechanism underlying EOC malignancy and indicate that this interplay may represent a valuable therapeutic target., (Copyright © 2011 EMBO Molecular Medicine.)

Published
2011
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27. CCM1 regulates vascular-lumen organization by inducing endothelial polarity.

Author

Lampugnani MG, Orsenigo F, Rudini N, Maddaluno L, Boulday G, Chapon F, and Dejana E

Subjects
Adherens Junctions metabolism, Animals, Antigens, CD genetics, Antigens, CD metabolism, Brain Neoplasms pathology, Cadherins genetics, Cadherins metabolism, Cell Line, Cell Polarity genetics, Endothelial Cells pathology, Genetic Predisposition to Disease, Hemangioma, Cavernous, Central Nervous System pathology, Humans, KRIT1 Protein, Mice, Mice, Inbred C57BL, Microtubule-Associated Proteins genetics, Multiprotein Complexes metabolism, Polymorphism, Genetic, Protein Binding genetics, Proto-Oncogene Proteins genetics, RNA, Small Interfering genetics, Signal Transduction, rap1 GTP-Binding Proteins genetics, rap1 GTP-Binding Proteins metabolism, Brain Neoplasms genetics, Endothelial Cells metabolism, Hemangioma, Cavernous, Central Nervous System genetics, Microtubule-Associated Proteins metabolism, Neovascularization, Physiologic, Proto-Oncogene Proteins metabolism
Abstract

Little is known about the molecular mechanisms that regulate the organization of vascular lumen. In this paper we show that lumen formation correlates with endothelial polarization. Adherens junctions (AJs) and VE-cadherin (VEC, encoded by CDH5) are required for endothelial apicobasal polarity in vitro and during embryonic development. Silencing of CDH5 gene expression leads to abrogation of endothelial polarity accompanied by strong alterations in lumenal structure. VEC co-distributes with members of the Par polarity complex (Par3 and PKCzeta) and is needed for activation of PKCzeta. CCM1 is encoded by the CCM1 gene, which is mutated in 60% of patients affected by cerebral cavernous malformation (CCM). The protein interacts with VEC and directs AJ organization and AJ association with the polarity complex, both in cell-culture models and in human CCM1 lesions. Both VEC and CCM1 control Rap1 concentration at cell-cell junctions. We propose that VEC, CCM1 and Rap1 form a signaling complex. In the absence of any of these proteins, AJs are dismantled, cell polarity is lost and vascular lumenal structure is severely altered.

Published
2010
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28. Inactivation of junctional adhesion molecule-A enhances antitumoral immune response by promoting dendritic cell and T lymphocyte infiltration.

Author

Murakami M, Francavilla C, Torselli I, Corada M, Maddaluno L, Sica A, Matteoli G, Iliev ID, Mantovani A, Rescigno M, Cavallaro U, and Dejana E

Subjects
Animals, Carcinoma, Islet Cell genetics, Cell Adhesion Molecules genetics, Cell Adhesion Molecules immunology, Female, Male, Mice, Mice, Knockout, Pancreatic Neoplasms genetics, Receptors, Cell Surface genetics, Receptors, Cell Surface immunology, CD4-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Carcinoma, Islet Cell immunology, Cell Adhesion Molecules deficiency, Dendritic Cells immunology, Lymphocytes, Tumor-Infiltrating immunology, Pancreatic Neoplasms immunology, Receptors, Cell Surface deficiency
Abstract

Junctional adhesion molecule-A (JAM-A)-null dendritic cells (DCs) are more motile and effective than their wild-type counterpart in promoting contact hypersensitivity reaction. Here, we show that the growth and aggressiveness of pancreatic islet cell carcinoma induced by SV40 T antigen expression in beta cells (Rip1Tag2 mice) are significantly reduced in JAM-A-null mice. Because these tumor cells do not express JAM-A, we focused on changes in stroma reactivity. In the absence of JAM-A, tumors showed a small but significant reduction in angiogenesis and a marked increase in the immune reaction with enhanced infiltration of DCs (CD11c+ and MHC-II+) and CD4+ and CD8+ lymphocytes. In contrast, phagocyte number was not affected. DC capacity to produce cytokines was not significantly altered, but transmigration through JAM-A-null endothelial cells was increased as compared with JAM-A-positive endothelium. On adoptive transfer, JAM-A(-/-) DCs were recruited to tumors at slightly but significantly higher rate than JAM-A(+/+) DCs. Ablation of CD4+ and CD8+ cells with specific antibodies abrogated the inhibitory effect of JAM-A deletion on tumor growth and angiogenesis. These findings support the idea that, in the Rip1Tag2 tumor model, abrogation of JAM-A reduces cancer development by increasing antitumor immune response.

Published
2010
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29. Effects of tellurite on growth of Saccharomyces cerevisiae.

Author

Massardo DR, Pontieri P, Maddaluno L, De Stefano M, Alifano P, and Del Giudice L

Subjects
Carbon metabolism, Fermentation drug effects, Microscopy, Electron, Transmission, Mitochondria metabolism, Oxidation-Reduction, Saccharomyces cerevisiae cytology, Saccharomyces cerevisiae growth & development, Mitochondria drug effects, Saccharomyces cerevisiae drug effects, Tellurium metabolism, Tellurium pharmacology
Abstract

The effects of potassium tellurite on growth and survival of rho(+) and rho(0) Saccharomyces cerevisiae strains were investigated. Both rho(+) and rho(0) strains grew on a fermentable carbon source with up to 1.2 mM K(2)TeO(3), while rho(+) yeast cells grown on a non-fermentable carbon source were inhibited at tellurite levels as low as 50 muM suggesting that this metalloid specifically inhibited mitochondrial functions. Growth of rho(+) yeast cells in the presence of increasing amount of tellurite resulted in dose-dependent blackening of the culture, a phenomenon not observed with rho(0) cultures. Transmission electron microscopy of S. cerevisiae rho(+) cells grown in the presence of tellurite showed that blackening was likely due to elemental tellurium (Te(0)) that formed large deposits along the cell wall and small precipitates in both the cytoplasm and mitochondria.

Published
2009
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30. The functional role of cell adhesion molecules in tumor angiogenesis.

Author

Francavilla C, Maddaluno L, and Cavallaro U

Subjects
Humans, Cell Adhesion physiology, Cell Adhesion Molecules physiology, Neoplasms blood supply, Neovascularization, Pathologic metabolism
Abstract

Cell adhesion molecules (CAMs) are cell surface glycoproteins that mediate the physical interactions between adjacent cells and between cells and the surrounding extracellular matrix. CAMs belong to different protein families, depending on their structural and functional properties. Furthermore, the expression of certain CAMs under physiological conditions is restricted to specific cell types. Besides playing a key homeostatic role in maintaining the architecture of quiescent tissues, CAMs have also to adapt to the microenvironmental changes that occur during certain physiological and pathological processes. This is best exemplified by cancer vascularization, where the expression and function of vascular CAMs are dynamically regulated in response to tissue alterations induced by tumor growth as well as by changes in the surrounding stroma. This enables endothelial cells (ECs) to leave the quiescent state and re-enter the angiogenic cascade. The latter is a multistep process carried out by different types of specialized ECs. This review describes the actual or supposed function of the various CAM subsets in the sequential series of events that underlie vascular changes during tumor angiogenesis. Notably, elucidating the mechanism of action of endothelial CAMs in cancer vasculature is expected to open new therapeutic avenues aimed at interfering with tumor growth and dissemination.

Published
2009
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31. The adhesion molecule L1 regulates transendothelial migration and trafficking of dendritic cells.

Author

Maddaluno L, Verbrugge SE, Martinoli C, Matteoli G, Chiavelli A, Zeng Y, Williams ED, Rescigno M, and Cavallaro U

Subjects
Animals, Blood Vessels drug effects, Blood Vessels metabolism, Blood Vessels pathology, Cell Adhesion drug effects, Cell Communication drug effects, Dendritic Cells drug effects, Dendritic Cells metabolism, Dermatitis, Contact immunology, Endothelial Cells drug effects, Endothelial Cells metabolism, Endothelium drug effects, Endothelium metabolism, Female, Humans, Langerhans Cells cytology, Langerhans Cells drug effects, Langerhans Cells metabolism, Lymph Nodes cytology, Lymph Nodes drug effects, Male, Mice, Mice, Knockout, Tumor Necrosis Factor-alpha pharmacology, Cell Movement drug effects, Dendritic Cells cytology, Endothelial Cells cytology, Neural Cell Adhesion Molecule L1 metabolism
Abstract

The adhesion molecule L1, which is extensively characterized in the nervous system, is also expressed in dendritic cells (DCs), but its function there has remained elusive. To address this issue, we ablated L1 expression in DCs of conditional knockout mice. L1-deficient DCs were impaired in adhesion to and transmigration through monolayers of either lymphatic or blood vessel endothelial cells, implicating L1 in transendothelial migration of DCs. In agreement with these findings, L1 was expressed in cutaneous DCs that migrated to draining lymph nodes, and its ablation reduced DC trafficking in vivo. Within the skin, L1 was found in Langerhans cells but not in dermal DCs, and L1 deficiency impaired Langerhans cell migration. Under inflammatory conditions, L1 also became expressed in vascular endothelium and enhanced transmigration of DCs, likely through L1 homophilic interactions. Our results implicate L1 in the regulation of DC trafficking and shed light on novel mechanisms underlying transendothelial migration of DCs. These observations might offer novel therapeutic perspectives for the treatment of certain immunological disorders.

Published
2009
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32. [Endo-arthroscopically assisted surgery of selected orthopaedic conditions: technique and results].

Author

Sadile F, Cigala F, Lambiase A, Maddaluno L, and Cigala M

Subjects
Adolescent, Aged, Female, Humans, Male, Middle Aged, Arthroscopy, Bone Diseases surgery, Joint Diseases surgery
Abstract

The minimally invasive and arthroscopically assisted surgery is a new therapeutic resource in the surgical treatment of degenerative and prosthetic orthopaedic pathology; in the field of neoplastic one it is just dawning. In this work the AA. report the technique and results of the arthroscopically assisted percutaneous arthrodesis of the ankle and of the arthroscopically assisted percutaneous curettage of epiphyseal chondroblastoma (E.C.) and osteoid osteoma (O.O.) of skeleton. From 1992 to 2002 they treated 12 selected cases: 4 affected by E.C., 3 located at proximal tibia and 1 at proximal humerus, in patients aged from 13 to 16 years and evaluated at a follow-up ranging from 7 to 3 years, with a 75% of good results; 4 affected by osteoid osteoma of proximal femur (2) and tibia (2), in patients aged from 13 to 18 years, evaluated at a follow-up ranging from 12 to 3 years with very good results (75%); 4 cases of ankle'painful stiffness, with 1 case of severe weightbearing instability, in patients aged from 17 to 75 years, evaluated at final bone fusion, radiographically observed at a average of 3.2-month follow-up from operation. All cases were treated by MIS criteria under accurate radiographic and CT-3D pre-operative planning, endoscopic (trans-osseous tunnels) and/or arthroscopic (ankle arthrodesis) continuous assistance under fluoroscopy. Two cases received cortico-cancellous bone autografts. All neoplastic cases had histologic confirmation by excision biopsy. They report 2 cases of failure, 1 in the E.C. series (25%) and 1 among the O.O. (25%), respectively at 6 and 12 months from the operation. In conclusion the authors report good results in 75% of cases together with very good aestheticism, well accepted by patients, and with articular function not minimally altered by the technique.

Published
2006

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