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207 results on '"Columbaro, M."'

1. Two Beats One: Osteosarcoma Therapy with Light-Activated and Chemo-Releasing Keratin Nanoformulation in a Preclinical Mouse Model

Author

Martella, E, Dozza, B, Ferroni, C, Obeyok, CO, Guerrini, A, Tedesco, D, Manet, I, Sotgiu, G, Columbaro, M, Ballestri, M, Martini, L, Fini, M, Lucarelli, E, Varchi, G, Duchi, S, Martella, E, Dozza, B, Ferroni, C, Obeyok, CO, Guerrini, A, Tedesco, D, Manet, I, Sotgiu, G, Columbaro, M, Ballestri, M, Martini, L, Fini, M, Lucarelli, E, Varchi, G, and Duchi, S

Abstract

Osteosarcoma treatment is moving towards more effective combination therapies. Nevertheless, these approaches present distinctive challenges that can complicate the clinical translation, such as increased toxicity and multi-drug resistance. Drug co-encapsulation within a nanoparticle formulation can overcome these challenges and improve the therapeutic index. We previously synthetized keratin nanoparticles functionalized with Chlorin-e6 (Ce6) and paclitaxel (PTX) to combine photo (PDT) and chemotherapy (PTX) regimens, and the inhibition of osteosarcoma cells growth in vitro was demonstrated. In the current study, we generated an orthotopic osteosarcoma murine model for the preclinical evaluation of our combination therapy. To achieve maximum reproducibility, we systematically established key parameters, such as the number of cells to generate the tumor, the nanoparticles dose, the design of the light-delivery device, the treatment schedule, and the irradiation settings. A 60% engrafting rate was obtained using 10 million OS cells inoculated intratibial, with the tumor model recapitulating the histological hallmarks of the human counterpart. By scheduling the treatment as two cycles of injections, a 32% tumor reduction was obtained with PTX mono-therapy and a 78% reduction with the combined PTX-PDT therapy. Our findings provide the in vivo proof of concept for the subsequent clinical development of a combination therapy to fight osteosarcoma.

Published
2022

3. BAG3-related myofibrillar myopathy: a further observation with cardiomyopathy at onset in pediatric age

Author

Scarpini G., Valentino M. L., Giannotta M., Ragni L., Torella A., Columbaro M., Nigro V., Pini A., Scarpini, Gaia, Valentino, Maria Lucia, Giannotta, Melania, Ragni, Luca, Torella, Annalaura, Columbaro, Marta, Nigro, Vincenzo, Pini, Antonella, Scarpini G., Valentino M.L., Giannotta M., Ragni L., Torella A., Columbaro M., Nigro V., and Pini A.

Subjects
Male, Apoptosis Regulatory Protein, Adolescent, BAG3, Case Report, pediatric neuromuscular disorder, myofibrillar myopathy, Mutation, Child, cardiomyopathy, Adaptor Proteins, Signal Transducing, Human, Cardiomyopathie, Myopathies, Structural, Congenital
Abstract

Myofibrillar myopathies are a heterogeneous group of neuromuscular disorders characterized by degeneration of Z-disk, causing the disintegration of myofibrils. They may be caused by mutations in different genes, among these, the BAG3 gene (Bcl-2 associed-athanogene-3) encodes a multidomain protein that plays an important role in many cellular processes. We report the case of a 16-year-old male who at 4 years of age presented with a hypertrophic obstructive cardiomyopathy, then developed axonal sensory motor polyneuropathy, muscle weakness, rigid spine, severe kyphoscoliosis and respiratory failure. Muscle biopsy showed the typical hallmark of myofibrillar myopathy with abnormal cytoplasmic expression of multiple proteins. Ade novo heterozygous common mutation in the BAG3 gene with a c.626C > T (p.Pro209Leu) was discovered on NGS genetic analysis. Mutations in the BAG3 gene are causes of a severe and progressive condition and natural history data are important to be collected. An early diagnosis is critical for prognostic implications in cardiomyopathy and respiratory failure treatment.

Published
2021

5. Mesenchymal stromal cells mediated delivery of photoactive nanoparticles inhibits osteosarcoma growth in vitro and in a murine in vivo ectopic model

Author

Lenna, S, Bellotti, C, Duchi, S, Martella, E, Columbaro, M, Dozza, B, Ballestri, M, Guerrini, A, Sotgiu, G, Frisoni, T, Cevolani, L, Varchi, G, Ferrari, M, Donati, DM, Lucarelli, E, Lenna, S, Bellotti, C, Duchi, S, Martella, E, Columbaro, M, Dozza, B, Ballestri, M, Guerrini, A, Sotgiu, G, Frisoni, T, Cevolani, L, Varchi, G, Ferrari, M, Donati, DM, and Lucarelli, E

Abstract

BACKGROUND: Osteosarcoma (OS) is an aggressive malignant neoplasm that still suffers from poor prognosis in the case of distal metastases or occurrence of multi-drug resistance. It is therefore crucial to find novel therapeutic options able to go beyond these limitations and improve patients' survival. The objective of this study is to exploit the intrinsic properties of mesenchymal stromal cells (MSCs) to migrate and infiltrate the tumor stroma to specifically deliver therapeutic agents directly to cancer cells. In particular, we aimed to test the efficacy of the photoactivation of MSCs loaded with nanoparticles in vitro and in a murine in vivo ectopic osteosarcoma model. METHODS: AlPcS4@FNPs were produced by adding tetra-sulfonated aluminum phthalocyanine (AlPcS4) to an aqueous solution of positively charged poly-methyl methacrylate core-shell fluorescent nanoparticles (FNPs). The photodynamic therapy (PDT) effect is achieved by activation of the photosensitizer AlPcS4 in the near-infrared light with an LED source. Human MSCs were isolated from the bone marrow of five donors to account for inter-patients variability and used in this study after being evaluated for their clonogenicity, multipotency and immunophenotypic profile. MSC lines were then tested for the ability to internalize and retain the nanoparticles, along with their migratory properties in vitro. Photoactivation effect was evaluated both in a monolayer (2D) co-culture of AlPcS4@FNPs loaded MSCs with human OS cells (SaOS-2) and in tridimensional (3D) multicellular spheroids (AlPcS4@FNPs loaded MSCs with human OS cells, MG-63). Cell death was assessed by AnnexinV/PI and Live&Dead CalceinAM/EthD staining in 2D, while in the 3D co-culture, the cell killing effect was measured through ATP content, CalceinAM/EthD staining and TEM imaging. We also evaluated the effectiveness of AlPcS4@FNPs loaded MSCs as delivery systems and the ability of the photodynamic treatment to kill cancer cells in a subcutaneous mo

Published
2020

9. Functionalized Keratin as Nanotechnology-Based Drug Delivery System for the Pharmacological Treatment of Osteosarcoma

Author

Martella, E, Ferroni, C, Guerrini, A, Ballestri, M, Columbaro, M, Santi, S, Sotgiu, G, Serra, M, Donati, DM, Lucarelli, E, Varchi, G, Duchi, S, Martella, E, Ferroni, C, Guerrini, A, Ballestri, M, Columbaro, M, Santi, S, Sotgiu, G, Serra, M, Donati, DM, Lucarelli, E, Varchi, G, and Duchi, S

Abstract

Osteosarcoma therapy might be moving toward nanotechnology-based drug delivery systems to reduce the cytotoxicity of antineoplastic drugs and improve their pharmacokinetics. In this paper, we present, for the first time, an extensive chemical and in vitro characterization of dual-loaded photo- and chemo-active keratin nanoparticles as a novel drug delivery system to treat osteosarcoma. The nanoparticles are prepared from high molecular weight and hydrosoluble keratin, suitably functionalized with the photosensitizer Chlorin-e6 (Ce6) and then loaded with the chemotherapeutic drug Paclitaxel (PTX). This multi-modal PTX-Ce6@Ker nanoformulation is prepared by both drug-induced aggregation and desolvation methods, and a comprehensive physicochemical characterization is performed. PTX-Ce6@Ker efficacy is tested on osteosarcoma tumor cell lines, including chemo-resistant cells, using 2D and 3D model systems. The single and combined contributions of PTX and Ce6 is evaluated, and results show that PTX retains its activity while being vehiculated through keratin. Moreover, PTX and Ce6 act in an additive manner, demonstrating that the combination of the cytostatic blockage of PTX and the oxidative damage of ROS upon light irradiation have a far superior effect compared to singularly administered PTX or Ce6. Our findings provide the proof of principle for the development of a novel, nanotechnology-based drug delivery system for the treatment of osteosarcoma.

Published
2018

11. Inhibition of metalloproteinase activity in FANCA is linked to altered oxygen metabolism

Author

Ravera S, Capanni C, Tognotti D, Bottega R, Columbaro M, Dufour C, Cappelli E, and Degan P.

Subjects
COMPLEX I DEFECTS, DNA Repair, MATRIX METALLOPROTEINASES, Muscle Proteins, RESTRICTIVE DERMOPATHY, Antioxidants, DNA-Binding Proteins, Mitochondrial Proteins, Oxygen, Fanconi Anemia, Bone Marrow, Chromosomal Instability, Metalloproteases, Humans, Vimentin, Female, COMPLEMENTATION GROUP-A, Muscle, Skeletal
Abstract

Bone marrow (BM) failure, increased risk of myelodysplastic syndrome, acute leukaemia and solid tumors, endocrinopathies and congenital abnormalities are the major clinical problems in Fanconi Anemia patients (FA). Chromosome instability and DNA repair defects are the cellular characteristics used for the clinical diagnosis. However, these biological defects are not sufficient to explain all the clinical phenotype of FA patie nts. The known defects are structural alteration in cell cytoskeleton , altered structural organization for intermediate filaments, nuclear lamina and mitochondria. These are associated with different expression and/or maturation of the structural proteins vimentin, mitofilin and lamin A/C. suggesting the involvement of metalloproteinases (MPs). Matrix metalloproteinases (MMP) are involved in normal physiological processes such as human skeletal tissue development, maturation and hematopoietic reconstitution after bone marrow suppression. Current observations upon the eventual role of MPs in FA cells are largely inconclusive. We evaluated the overall MPs activity in FA complementation group A (FANCA) cells by exposing them to the antioxidants N-acetyl cysteine (NAC) and resveratrol (RV). This work supports the hypothesis that treatment of Fanconi patients with antioxidants may be important in FA therapy. J. Cell. Physiol. © 2014 Wiley Periodicals, Inc.

Published
2015

12. The empowerment of translational research: lessons from laminopathies

Author

Benedetti, S., Bernasconi, P., Bertini, E., Biagini, E., Boriani, G., Capanni, C., Carboni, N., Cenacchi, G., Columbaro, M., D'Adamo, M., D'Amico, A., D'Apice, M., R, ., Fontana, M., Gambineri, A., Lattanzi, G., Liguori, R., Maraldi, N. M, Mazzanti, L., Mercuri, E., Mongini, T., Morandi, L. O., Neri, I., Nigro, G., Novelli, G., Ortolani, M., Pasquali, R., Pini, A., Petrini, S., Politano, L., Previtali, S., Pucci, L., Rapezzi, C., Ricci, G., Rodolico, Carmelo, Sbraccia, P., Scarano, E., Siciliano, G., Squarzoni, S., Toscano, Antonio, Vercelli, L., Ziacchi, M., Benedetti S, Bernasconi P, Bertini E, Biagini E, Boriani G, Capanni C, Carboni N, Cenacchi G, Columbaro M, D'Adamo M, D'Amico A, D'Apice MR, Fontana M, Gambineri A, Lattanzi G, Liguori R, Maraldi NM, Mazzanti L, Mercuri E, Mongini T, Morandi LO, Neri I, Nigro G, Novelli G, Ortolani M, Pasquali R, Pini A, Petrini S, Politano L, Previtali S, Pucci L, Rapezzi C, Ricci G, Rodolico C, Sbraccia P, Scarano E, Siciliano G, Squarzoni S, Toscano A, Vercelli L, and Ziacchi M

Subjects
Settore MED/09 - Medicina Interna, Lipodystrophy, lcsh:Medicine, Familial Partial Lipodystrophy Type 2, Hutchinson-Gilford Progeria Syndrome, Translational Research, Biomedical, Progeria, Medicine, Genetics(clinical), Pharmacology (medical), Interdisciplinary communication, Muscular Dystrophy, Emery–Dreifuss muscular dystrophy, Muscular dystrophy, Empowerment, Translational Medical Research, Letter to the Editor, Genetics (clinical), interdisciplinary approach to disease, media_common, Medicine(all), integumentary system, Emery-Dreifuss, General Medicine, Laminopathies, Emery-Dreifuss Muscular Dystrophy, Dilated Cardiomyopathy with Conduction Defects, Mandibuloacral Dysplasia, Rare Diseases, Networking activity, interdisciplinary approach to diseases, Lamins, Muscular Dystrophy, Emery-Dreifuss, RARE DISEASES, Laminopathie, Genetic Diseases, Dilated Cardiomyopathy with Conduction Defect, Hutchinson Gilford Progeria Syndrome, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, Nuclear Envelope, media_common.quotation_subject, Translational research, NO, Genetic Diseases, Inborn, Humans, Interdisciplinary Communication, Settore MED/39 - NEUROPSICHIATRIA INFANTILE, business.industry, lcsh:R, nutritional and metabolic diseases, medicine.disease, Mandibuloacral dysplasia, Inborn, Settore MED/03 - Genetica Medica, Family medicine, business
Abstract

The need for a collaborative approach to complex inherited diseases collectively referred to as laminopathies, encouraged Italian researchers, geneticists, physicians and patients to join in the Italian Network for Laminopathies, in 2009. Here, we highlight the advantages and added value of such a multidisciplinary effort to understand pathogenesis, clinical aspects and try to find a cure for Emery-Dreifuss muscular dystrophy, Mandibuloacral dysplasia, Hutchinson-Gilford Progeria and forms of lamin-linked cardiomyopathy, neuropathy and lipodystrophy.

Published
2012

13. Ultrastructural defects of collagen VI filaments in an Ullrich syndrome patient with loss of the alpha3(VI) N10-N7 domains

Author

Squarzoni S, Sabatelli P, Bergamin N, Guicheney P, Demir E, Merlini L, Lattanzi G, Ognibene A, Capanni C, Mattioli E, Columbaro M, Bonaldo P, MARALDI, NADIR, Squarzoni S, Sabatelli P, Bergamin N, Guicheney P, Demir E, Merlini L, Lattanzi G, Ognibene A, Capanni C, Mattioli E, Columbaro M, Bonaldo P, and Maraldi NM.

Subjects
Muscular dystrophy, Extracellular matrix, Electron microscopy, Collagen Type VI, Fibroblasts, Protein Structure, Tertiary, Muscular Dystrophies, Limb-Girdle, Mutation, Humans, Protein Isoforms, Muscle, Skeletal, Cells, Cultured, Skin
Abstract

Ultrastructural alterations of collagen VI in cultured fibroblasts and reduced collagen VI immunostaining in the papillary dermis and endomysium were detected in a patient with a mild form of Ullrich congenital muscular dystrophy caused by a COL6A3 gene mutation. The patient had been previously demonstrated to express an alpha3(VI) chain shorter than normal due to skipping of the mutated exon. We show that collagen VI filaments are not organized in a normal network in the extracellular matrix secreted by patient's cultured fibroblasts. Moreover, we demonstrate that in this patient the alpha3(VI) chain is produced in lower amounts and it is almost exclusively represented by the shorter, alternatively spliced N6-C5 isoform. These results suggest that different alpha3(VI) chain isoforms, containing also domains of the N10-N7 region, are required for assembling a proper collagen VI network in the extracellular matrix.

Published
2005

14. Lamin A/C sustains PcG protein architecture, maintaining transcriptional repression at target genes

Author

Cesarini, E., Mozzetta, C., Marullo, F., Gregoretti, F., Gargiulo, A., Columbaro, M., Cortesi, A., Antonelli, L., Di Pelino, S., Squarzoni, S., Palacios, Daniela, Zippo, A., Bodega, B., Oliva, G., Lanzuolo, C., Palacios D. (ORCID:0000-0002-2207-2369), Cesarini, E., Mozzetta, C., Marullo, F., Gregoretti, F., Gargiulo, A., Columbaro, M., Cortesi, A., Antonelli, L., Di Pelino, S., Squarzoni, S., Palacios, Daniela, Zippo, A., Bodega, B., Oliva, G., Lanzuolo, C., and Palacios D. (ORCID:0000-0002-2207-2369)

Abstract

Beyond its role in providing structure to the nuclear envelope, lamin A/C is involved in transcriptional regulation. However, its cross talk with epigenetic factors-and how this cross talk influences physiological processes-is still unexplored. Key epigenetic regulators of development and differentiation are the Polycomb group (PcG) of proteins, organized in the nucleus as microscopically visible foci. Here, we show that lamin A/C is evolutionarily required for correct PcG protein nuclear compartmentalization. Confocal microscopy supported by new algorithms for image analysis reveals that lamin A/C knock-down leads to PcG protein foci disassembly and PcG protein dispersion. This causes detachment from chromatin and defects in PcG protein-mediated higher-order structures, thereby leading to impaired PcG protein repressive functions. Using myogenic differentiation as a model, we found that reduced levels of lamin A/C at the onset of differentiation led to an anticipation of the myogenic program because of an alteration of PcG protein-mediated transcriptional repression. Collectively, our results indicate that lamin A/C can modulate transcription through the regulation of PcG protein epigenetic factors.

Published
2015

18. Dysferlin in a hyperCKaemic patient with caveolin 3 mutation and in C2C12 cells after p38 MAP kinase inhibition

Author

Capanni C, Sabatelli P, Mattioli E, Ognibene A, Columbaro M, Lattanzi G, Merlini L, Minetti C, Maraldi NM, and Squarzoni S.

Abstract

Dysferlin is a plasma membrane protein of skeletal muscle whose deficiency causes Miyoshi myopathy, limb girdle muscular dystrophy 2B and distal anterior compartment myopathy. Recent studies have reported that dysferlin is implicated in membrane repair mechanism and coimmunoprecipitates with caveolin 3 in human skeletal muscle. Caveolin 3 is a principal structural protein of caveolae membrane domains in striated muscle cells and cardiac myocytes. Mutations of caveolin 3 gene (CAV3) cause different diseases and where caveolin 3 expression is defective, dysferlin localization is abnormal. We describe the alteration of dysferlin expression and localization in skeletal muscle from a patient with raised serum creatine kinase (hyperCKaemia), whose reduction of caveolin 3 is caused by a CAV3 P28L mutation. Moreover, we performed a study on dysferlin interaction with caveolin 3 in C2C12 cells. We show the association of dysferlin to cellular membrane of C2C12 myotubes and the low affinity link between dysferlin and caveolin 3 by immunoprecipitation techniques. We also reproduced caveolinopathy conditions in C2C12 cells by a selective p38 MAP kinase inhibition with SB203580, which blocks the expression of caveolin 3. In this model, myoblasts do not fuse into myotubes and we found that dysferlin expression is reduced. These results underline the importance of dysferlin-caveolin 3 relationship for skeletal muscle integrity and propose a cellular model to clarify the dysferlin alteration mechanisms in caveolinopathies.

Published
2003

21. Novel COL6A1 splicing mutation in a family affected by mild Bethlem myopathy

Author

Vanegas O.C., Zhu Zhang R., Sabatelli P., Lattanzi G., Bencivenga P., Giusti B., Columbaro M., Li Chu M., Merlini L., and Pepe G.

Abstract

Bethlem myopathy is an early-onset benign myopathy characterized by proximal muscular weakness and multiple flexion contractures. It is a dominantly inherited disorder associated with mutations in the three COL6 genes encoding type VI collagen. We detected a g-->a substitution at +1 position of COL6A1 intron 3 in a four-generation Italian family affected by a mild form of Bethlem myopathy. The mutation results in the activation of a cryptic splice donor site at the 3' end of exon 3, leading to the loss of 66 nucleotides and an "in-frame" deletion of 22 amino acids in the NH2-domain. Molecular analysis on fibroblasts of the propositus showed that the mutated mRNA was present and stable, but the mutated protein could not be detected. Western blot and immunofluorescence analyses showed a decreased level of collagen VI synthesis and deposition in fibroblasts of the propositus. Together, the results suggest that the mutated protein was highly unstable and rapidly degraded, and that the mild phenotype was caused by a reduced amount of normal collagen VI microfibrils. In addition, we demonstrated that lymphocytes can be used for the first mutation screening analysis of patients with Bethlem myopathy.

Published
2002

22. The empowerment of translational research: lessons from laminopathies

Author

Benedetti, Sara, Bernasconi, P, Bertini, Enrico Silvio, Biagini, E, Boriani, G, Capanni, C, Carboni, Nicoletta, Cenacchi, G, Columbaro, M, D'Adamo, M, D'Amico, Adele, D'Apice, Mr, Fontana, M, Gambineri, A, Lattanzi, G, Liguori, R, Maraldi, Nm, Mazzanti, L, Mercuri, Eugenio Maria, Mongini, T, Morandi, Laura, Neri, I, Nigro, G, Novelli, Giada, Ortolani, M, Pasquali, R, Pini, A, Petrini, S, Politano, L, Previtali, S, Pucci, L, Rapezzi, C, Ricci, Giuseppe, Rodolico, C, Sbraccia, P, Scarano, Emanuele, Siciliano, Giacinto, Squarzoni, S, Toscano, A, Vercelli, L, Ziacchi, M., Mercuri, Eugenio Maria (ORCID:0000-0002-9851-5365), Scarano, Emanuele (ORCID:0000-0003-2570-1121), Benedetti, Sara, Bernasconi, P, Bertini, Enrico Silvio, Biagini, E, Boriani, G, Capanni, C, Carboni, Nicoletta, Cenacchi, G, Columbaro, M, D'Adamo, M, D'Amico, Adele, D'Apice, Mr, Fontana, M, Gambineri, A, Lattanzi, G, Liguori, R, Maraldi, Nm, Mazzanti, L, Mercuri, Eugenio Maria, Mongini, T, Morandi, Laura, Neri, I, Nigro, G, Novelli, Giada, Ortolani, M, Pasquali, R, Pini, A, Petrini, S, Politano, L, Previtali, S, Pucci, L, Rapezzi, C, Ricci, Giuseppe, Rodolico, C, Sbraccia, P, Scarano, Emanuele, Siciliano, Giacinto, Squarzoni, S, Toscano, A, Vercelli, L, Ziacchi, M., Mercuri, Eugenio Maria (ORCID:0000-0002-9851-5365), and Scarano, Emanuele (ORCID:0000-0003-2570-1121)

Abstract

The need for a collaborative approach to complex inherited diseases collectively referred to as laminopathies, encouraged Italian researchers, geneticists, physicians and patients to join in the Italian Network for Laminopathies, in 2009. Here, we highlight the advantages and added value of such a multidisciplinary effort to understand pathogenesis, clinical aspects and try to find a cure for Emery-Dreifuss muscular dystrophy, Mandibuloacral dysplasia, Hutchinson-Gilford Progeria and forms of lamin-linked cardiomyopathy, neuropathy and lipodystrophy.

Published
2012

35. Extracellular matrix and nuclear abnormalities in skeletal muscle of a patient with Walker-Warburg syndrome caused by POMT1 mutation.

Author

Sabatelli, P., Columbaro, M., Mura, I., Capanni, C., Lattanzi, G., Maraldi, N.M., Beltran Valero de Bernabe, D., Bokhoven, J.H.L.M. van, Squarzoni, S., Merlini, L., Sabatelli, P., Columbaro, M., Mura, I., Capanni, C., Lattanzi, G., Maraldi, N.M., Beltran Valero de Bernabe, D., Bokhoven, J.H.L.M. van, Squarzoni, S., and Merlini, L.

Abstract

Item does not contain fulltext, Walker-Warburg syndrome (WWS) is an autosomal recessive disorder characterized by congenital muscular dystrophy, structural eye abnormalities and severe brain malformations. We performed an immunohistochemical and electron microscopy study of a muscle biopsy from a patient affected by WWS carrying a homozygous frameshift mutation in O-mannosyltransferase 1 gene (POMT1). alpha-Dystroglycan glycosylated epitope was not detected in muscle fibers and intramuscular peripheral nerves. Laminin alpha2 chain and perlecan were reduced in muscle fibers and well preserved in intramuscular peripheral nerves. The basal lamina in several muscle fibers showed discontinuities and detachment from the plasmalemma. Most nuclei, including myonuclei and satellite cell nuclei, showed detachment or complete absence of peripheral heterochromatin from the nuclear envelope. Apoptotic changes were detected in 3% of muscle fibers. The particular combination of basal lamina and nuclear changes may suggest that a complex pathogenetic mechanism, affecting several subcellular compartments, underlies the degenerative process in WWS muscle.

Published
2003

38. Site-dependent differences in both prelamin A and adipogenic genes in subcutaneous adipose tissue of patients with type 2 familial partial lipodystrophy

Author

Araujo-Vilar, D, primary, Lattanzi, G, additional, Gonzalez-Mendez, B, additional, Costa-Freitas, A T, additional, Prieto, D, additional, Columbaro, M, additional, Mattioli, E, additional, Victoria, B, additional, Martinez-Sanchez, N, additional, Ramazanova, A, additional, Fraga, M, additional, Beiras, A, additional, Forteza, J, additional, Dominguez-Gerpe, L, additional, Calvo, C, additional, and Lado-Abeal, J, additional

Published
2008
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44. ATP DEPLETION INHIBITS THYMOCYTE APOPTOSIS

Author

Stefanelli, C., primary, Robuffo, I., additional, Bonavita, F., additional, Stanic', I., additional, Columbaro, M., additional, Farruggia, G., additional, Pignatti, C., additional, Rossoni, C., additional, Caldarera, C. M., additional, and Falcieri, E., additional

Published
1996
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45. Announcement of the Editor-in-Chief.

Author

Columbaro, M., Capanni, C., Mattioli, E., Novelli, G., Parnaik, V. K., Squarzoni, S., Maraldi, N. M., Lattanzi, G., Mayer, M. P., and Bukau, B.

Subjects
*CYTOLOGICAL research, *PROGERIA, *NANOPARTICLES, *G proteins, *MOLECULAR chaperones
Abstract

As decided in July 2005 we continue to publish once a year (in July) the names of the authors and the titles of the two most read (by Internet) Research Papers and Reviews published in Cell. Mol. Life Sci. the previous year. Thus we have the pleasure to provide you with the results of 2005. M. Columbaro a, C. Capanni b, E. Mattioli a, G. Novelli c, V. K. Parnaik d, S. Squarzoni b, N. M. Maraldi a, b and G. Lattanzi b E. Garcia-Garcia a, S. Gil b, K. Andrieux a, D. Desmaële c, V. Nicolas d, F. Taran e, D. Georgin e, J. P. Andreux b, F. Roux f and P. Couvreur a C. R. McCudden, M. D. Hains, R. J. Kimple, D. P. Siderovski and F. S. Willard M. P. Mayer and B. Bukau [ABSTRACT FROM AUTHOR]

Published
2006
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