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1. Supplementary Data from Lenalidomide Restrains Motility and Overangiogenic Potential of Bone Marrow Endothelial Cells in Patients with Active Multiple Myeloma

Author

Angelo Vacca, Domenico Ribatti, Franco Dammacco, Giovanni Quarta, Silvana Capalbo, Nicola Cascavilla, Antonio Basile, Antonella Caivano, Simona Berardi, Paolo Ditonno, Girolamo Ranieri, Attilio Guarini, Giulia Di Pietro, Andrea Urbani, Michele Maffia, Luisa Pieroni, Emanuela de Luca, Michele Moschetta, Roberto Ria, Addolorata M.L. Coluccia, Arianna Ferrucci, and Annunziata De Luisi

Abstract

Supplementary Figures S1-S4; Supplementary Table S1.

Published
2023

3. Mitochondrial Respiratory Complexes as Targets of Drugs: The PPAR Agonist Example

Author

Patrizia Bottoni, Alessandro Pontoglio, Salvatore Scarà, Luisa Pieroni, Andrea Urbani, and Roberto Scatena

Subjects
Proteomics, Electron Transport Complex I, Peroxisome Proliferator-Activated Receptors, Hypoglycemic Agents, General Medicine, Ligands, mitochondria, complex I (NADH: ubiquinone oxidoreductase), reactive oxygen species (ROS), drug toxicity, therapeutic drug monitoring, cancer, Mitochondria
Abstract

Mitochondrial bioenergetics are progressively acquiring significant pathophysiological roles. Specifically, mitochondria in general and Electron Respiratory Chain in particular are gaining importance as unintentional targets of different drugs. The so-called PPAR ligands are a class of drugs which not only link and activate Peroxisome Proliferator-Activated Receptors but also show a myriad of extrareceptorial activities as well. In particular, they were shown to inhibit NADH coenzyme Q reductase. However, the molecular picture of this intriguing bioenergetic derangement has not yet been well defined. Using high resolution respirometry, both in permeabilized and intact HepG2 cells, and a proteomic approach, the mitochondrial bioenergetic damage induced by various PPAR ligands was evaluated. Results show a derangement of mitochondrial oxidative metabolism more complex than one related to a simple perturbation of complex I. In fact, a partial inhibition of mitochondrial NADH oxidation seems to be associated not only with hampered ATP synthesis but also with a significant reduction in respiratory control ratio, spare respiratory capacity, coupling efficiency and, last but not least, serious oxidative stress and structural damage to mitochondria.

Published
2022

4. Repurposing of Trimetazidine for Amyotrophic Lateral Sclerosis: a study in SOD1 G93A mice

Author

Michela Gloriani, Luisa Pieroni, Cristiana Valle, Cyril Quessada, Silvia Scaricamazza, Elisabetta Ferraro, Giacomo Giacovazzo, Gabriella Dobrowolny, Hao Wang, Valentina Nesci, Antonio Musarò, Niccolò Candelise, Cinzia Volonté, Illari Salvatori, Shyuan T. Ngo, Jean-Philippe Loeffler, Alberto Ferri, Frédérique René, Tesfaye Wolde Tefera, Susanna Amadio, Aniello Primiano, Andrea Urbani, Elisa Lepore, Alessio Torcinaro, Frederik J. Steyn, and Roberto Coccurello

Subjects
Pharmacology, Hypermetabolism, SOD1G93A mice, Trimetazidine, amyotrophic lateral sclerosis, hypermetabolism, mitochondria, neurodegeneration, business.industry, Neurodegeneration, Amyotrophic Lateral Sclerosis, Skeletal muscle, trimetazidine, Motor neuron, Spinal cord, medicine.disease, Mitochondria, medicine.anatomical_structure, medicine, Amyotrophic lateral sclerosis, business, Neuroinflammation, medicine.drug
Abstract

Background and purpose: Amyotrophic lateral sclerosis (ALS), a neurodegenerative disease characterized by the degeneration of upper and lower motor neurons, progressive wasting and paralysis of voluntary muscles is currently incurable despite intense research and numerous unsuccessful clinical trials. Although considered as a pure motor neuron disease, increasing evidence indicates that the sole protection of motor neurons by a single target drug is not sufficient to improve the pathological phenotype. We therefore evaluated the therapeutic potential of the multi-target drug, trimetazidine, in SOD1G93A mice. Experimental approach: Trimetazidine is an anti-ischemic drug used for the treatment of coronary artery disease. As a metabolic modulator, Trimetazidine improves glucose metabolism. Furthermore, Trimetazidine enhances mitochondrial metabolism and promotes nerve regeneration, exerting an anti-inflammatory and antioxidant effect. Here, we orally treated SOD1G93A mice with Trimetazidine, solubilized in drinking water at a dose of 20 mg/kg, from disease onset. We assessed the impact of Trimetazidine on disease progression by studying metabolic parameters, grip strength, and histological alterations in skeletal muscle, peripheral nerve and spinal cord. Key results: Trimetazidine administration delays motor function decline, improves muscle performance and metabolism, and significantly extends overall survival of SOD1G93A mice (increased median survival of 16 days and 12.5 days for male and female respectively). Moreover, Trimetazidine prevents the dismantlement of neuromuscular junctions, attenuates motor neuron loss and reduces neuroinflammation in the spinal cord and in peripheral nerves. Conclusion and implications: In SOD1G93A mice, therapeutic effect of Trimetazidine is underpinned by its action on mitochondrial function in skeletal muscle and spinal cord. Keywords: Amyotrophic Lateral Sclerosis; Hypermetabolism; Mitochondria; Neurodegeneration; SOD1G93A mice; Trimetazidine.

Published
2022
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5. MYC regulates metabolism through vesicular transfer of glycolytic kinases

Author

Luisa Pieroni, Giuseppe Palmisano, Gianluca Sala, Martina Morini, Evon Poon, Arturo Sala, Louis Chesler, Alessandra Eva, Alexia Tsakaneli, Vincenzo De Laurenzi, Evgeny M. Makarov, Martin R. Larsen, Giuliana Cangemi, Sandra Bibbò, Emily Capone, Olesya Chayka, and Victor Corasolla Carregari

Subjects
Proteomics, Thyroid Hormones, QH301-705.5, Immunology, MYC, PKM2, Biology, Extracellular vesicles, General Biochemistry, Genetics and Molecular Biology, Mass Spectrometry, Extracellular Vesicles, neuroblastoma, Neuroblastoma, Cell Line, Tumor, Hexokinase, MYCN, medicine, Humans, Glycolysis, Gene Regulatory Networks, Biology (General), Phosphorylation, Child, neoplasms, Research Articles, Cell Proliferation, N-Myc Proto-Oncogene Protein, Kinase, General Neuroscience, CÉLULAS CULTIVADAS DE TUMOR, Research, Gene Amplification, Membrane Proteins, Metabolism, medicine.disease, Warburg effect, Gene Expression Regulation, Neoplastic, Cancer research, Carrier Proteins, extracellular vesicles, Pyruvate kinase
Abstract

Electronic supplementary material is available online at https://doi.org/10.6084/m9.figshare.c.5713034. Copyright © 2021 The Authors. Amplification of the proto-oncogene MYCN is a key molecular aberration in high-risk neuroblastoma and predictive of poor outcome in this childhood malignancy. We investigated the role of MYCN in regulating the protein cargo of extracellular vesicles (EVs) secreted by tumour cells that can be internalized by recipient cells with functional consequences. Using a switchable MYCN system coupled to mass spectrometry analysis, we found that MYCN regulates distinct sets of proteins in the EVs secreted by neuroblastoma cells. EVs produced by MYCN-expressing cells or isolated from neuroblastoma patients induced the Warburg effect, proliferation and c-MYC expression in target cells. Mechanistically, we linked the cancer-promoting activity of EVs to the glycolytic kinase pyruvate kinase M2 (PKM2) that was enriched in EVs secreted by MYC-expressing neuroblastoma cells. Importantly, the glycolytic enzymes PKM2 and hexokinase II were detected in the EVs circulating in the bloodstream of neuroblastoma patients, but not in those of non-cancer children. We conclude that MYC-activated cancers might spread oncogenic signals to remote body locations through EVs. Neuroblastoma UK to AS and FAPESP SPRINT Award (50356-4); FAPESP (2014/06863-3, 2018/18257-1, 2018/15549-1, 16/50356-4); CNPq “bolsa de produtividade”; Ricerca Finalizzata GR11-172. https://doi.org/10.6084/m9.figshare.c.5713034

Published
2021

6. Repurposing of Trimetazidine for amyotrophic lateral sclerosis: A study in SOD1

Author

Silvia, Scaricamazza, Illari, Salvatori, Susanna, Amadio, Valentina, Nesci, Alessio, Torcinaro, Giacomo, Giacovazzo, Aniello, Primiano, Michela, Gloriani, Niccolò, Candelise, Luisa, Pieroni, Jean-Philippe, Loeffler, Frederique, Renè, Cyril, Quessada, Tesfaye W, Tefera, Hao, Wang, Frederik J, Steyn, Shyuan T, Ngo, Gabriella, Dobrowolny, Elisa, Lepore, Andrea, Urbani, Antonio, Musarò, Cinzia, Volonté, Elisabetta, Ferraro, Roberto, Coccurello, Cristiana, Valle, and Alberto, Ferri

Subjects
Male, Disease Models, Animal, Mice, Superoxide Dismutase-1, Superoxide Dismutase, Amyotrophic Lateral Sclerosis, Drug Repositioning, Trimetazidine, Animals, Female, Mice, Transgenic, Neurodegenerative Diseases
Abstract

Amyotrophic lateral sclerosis (ALS), a neurodegenerative disease characterized by the degeneration of upper and lower motor neurons, progressive wasting and paralysis of voluntary muscles and is currently incurable. Although considered to be a pure motor neuron disease, increasing evidence indicates that the sole protection of motor neurons by a single targeted drug is not sufficient to improve the pathological phenotype. We therefore evaluated the therapeutic potential of the multi-target drug used to treatment of coronary artery disease, trimetazidine, in SOD1As a metabolic modulator, trimetazidine improves glucose metabolism. Furthermore, trimetazidine enhances mitochondrial metabolism and promotes nerve regeneration, exerting an anti-inflammatory and antioxidant effect. We orally treated SOD1Trimetazidine administration delays motor function decline, improves muscle performance and metabolism, and significantly extends overall survival of SOD1In SOD1

Published
2021

7. The RNA helicase DDX5 cooperates with EHMT2 to sustain alveolar rhabdomyosarcoma growth

Author

Alberto Gualtieri, Valeria Bianconi, Alessandra Renzini, Luisa Pieroni, Valerio Licursi, and Chiara Mozzetta

Subjects
CP: Cancer, CP: Molecular biology, DDX5, EHMT2, PAX3-FOXO1, rhabdomyosarcoma, tumor growth, Oncogene Proteins, Fusion, Histone-Lysine N-Methyltransferase, General Biochemistry, Genetics and Molecular Biology, DEAD-box RNA Helicases, Gene Expression Regulation, Neoplastic, Cell Line, Tumor, Histocompatibility Antigens, Rhabdomyosarcoma, Humans, Paired Box Transcription Factors, Rhabdomyosarcoma, Embryonal, RNA Helicases, Rhabdomyosarcoma, Alveolar
Abstract

Rhabdomyosarcoma (RMS) is the most common soft-tissue sarcoma of childhood characterized by the inability to exit the proliferative myoblast-like stage. The alveolar fusion positive subtype (FP-RMS) is the most aggressive and is mainly caused by the expression of PAX3/7-FOXO1 oncoproteins, which are challenging pharmacological targets. Here, we show that the DEAD box RNA helicase 5 (DDX5) is overexpressed in alveolar RMS cells and that its depletion and pharmacological inhibition decrease FP-RMS viability and slow tumor growth in xenograft models. Mechanistically, we provide evidence that DDX5 functions upstream of the EHMT2/AKT survival signaling pathway, by directly interacting with EHMT2 mRNA, modulating its stability and consequent protein expression. We show that EHMT2 in turns regulates PAX3-FOXO1 activity in a methylation-dependent manner, thus sustaining FP-RMS myoblastic state. Together, our findings identify another survival-promoting loop in FP-RMS and highlight DDX5 as a potential therapeutic target to arrest RMS growth.

Published
2021

9. Proteomics of muscle microdialysates identifies potential circulating biomarkers in facioscapulohumeral muscular dystrophy

Author

Giuseppe Di Maio, Andrea Urbani, Giorgio Tasca, Enzo Ricci, Victor Corasolla Carregari, Luisa Pieroni, and Mauro Monforte

Subjects
Male, Proteomics, Pathology, Microdialysis, Mass Spectrometry, lcsh:Chemistry, Dialysis Solutions, Facioscapulohumeral muscular dystrophy, lcsh:QH301-705.5, Wasting, Spectroscopy, medicine.diagnostic_test, General Medicine, Middle Aged, Magnetic Resonance Imaging, Muscular Dystrophy, Facioscapulohumeral, Computer Science Applications, Settore MED/26 - NEUROLOGIA, medicine.anatomical_structure, Female, medicine.symptom, Adult, musculoskeletal diseases, medicine.medical_specialty, Adolescent, Article, Catalysis, Inorganic Chemistry, Young Adult, Downregulation and upregulation, DUX4, medicine, Humans, Physical and Theoretical Chemistry, Muscle, Skeletal, Molecular Biology, FSHD, Innate immune system, business.industry, Organic Chemistry, Skeletal muscle, Inflammatory response, Magnetic resonance imaging, medicine.disease, lcsh:Biology (General), lcsh:QD1-999, business, Biomarkers, Chromatography, Liquid
Abstract

Facioscapulohumeral muscular dystrophy (FSHD) is caused by a complex epigenetic mechanism finally leading to the misexpression of DUX4 in skeletal muscle. Detecting DUX4 and quantifying disease progression in FSHD is extremely challenging, thus increasing the need for surrogate biomarkers. We applied a shotgun proteomic approach with two different setups to analyze the protein repertoire of interstitial fluids obtained from 20 muscles in different disease stages classified by magnetic resonance imaging (MRI) and serum samples from 10 FSHD patients. A total of 1156 proteins were identified in the microdialysates by data independent acquisition, 130 of which only found in muscles in active disease stage. Proteomic profiles were able to distinguish FSHD patients from controls. Two innate immunity mediators (S100-A8 and A9) and Dermcidin were upregulated in muscles with active disease and selectively present in the sera of FSHD patients. Structural muscle and plasminogen pathway proteins were downregulated. Together with the upstream inhibition of myogenic factors, this suggests defective muscle regeneration and increased fibrosis in early/active FSHD. Our MRI targeted exploratory approach confirmed that inflammatory response has a prominent role, together with impaired muscle regeneration, before clear muscle wasting occurs. We also identified three proteins as tissue and possibly circulating biomarkers in FSHD.

Published
2021

10. Editorial: Mitochondrial Proteomics: Understanding Mitochondria Function and Dysfunction Through the Characterization of Their Proteome

Author

Alberto Ferri, Pablo M. Garcia-Roves, and Luisa Pieroni

Subjects
proteome, Neurodegeneration, neurodegeneration, Cell Biology, Mitochondrion, Biology, medicine.disease, Proteomics, Cell biology, mitochondria, Cell and Developmental Biology, Editorial, lcsh:Biology (General), Proteome, post-translational modifications, Posttranslational modification, medicine, lcsh:QH301-705.5, metabolism, Function (biology), Developmental Biology
Published
2020

11. Silencing of Ago-2 Interacting Protein SERBP1 Relieves KCC2 Repression by miR-92 in Neurons

Author

Christian Barbato, Paola Frisone, Laura Braccini, Simona D’Aguanno, Luisa Pieroni, Maria Teresa Ciotti, Caterina Catalanotto, Carlo Cogoni, and Francesca Ruberti

Subjects
SERBP1, Neurons, Ago2, Symporters, KCC2, RNA-binding protein, MicroRNA, RNA-induced silencing complex (RISC), General Medicine, microRNA, MicroRNAs, Tandem Mass Spectrometry, RNA-Induced Silencing Complex, RNA, Messenger, 3' Untranslated Regions, Chromatography, Liquid
Abstract

RNA-binding proteins (RBPs) play important roles in modulating miRNA-mediated mRNA target repression. Argonaute2 (Ago2) is an essential component of the RNA-induced silencing complex (RISC) that plays a central role in silencing mechanisms via small non-coding RNA molecules known as siRNAs and miRNAs. Small RNAs loaded into Argonaute proteins catalyze endoribonucleolytic cleavage of target RNAs or recruit factors responsible for translational silencing and mRNA target destabilization. In previous studies we have shown that KCC2, a neuronal Cl (−) extruding K (+) Cl (−) co-transporter 2, is regulated by miR-92 in neuronal cells. Searching for Ago2 partners by immunoprecipitation and LC-MS/MS analysis, we isolated among other proteins the Serpine mRNA binding protein 1 (SERBP1) from SH-SY5Y neuroblastoma cells. Exploring the role of SERBP1 in miRNA-mediated gene silencing in SH-SY5Y cells and primary hippocampal neurons, we demonstrated that SERBP1 silencing regulates KCC2 expression through the 3′ untranslated region (UTR). In addition, we found that SERBP1 as well as Ago2/miR-92 complex bind to KCC2 3′UTR. Finally, we demonstrated the attenuation of miR-92-mediated repression of KCC2 3′UTR by SERBP1 silencing. These findings advance our knowledge regarding the miR-92-mediated modulation of KCC2 translation in neuronal cells and highlight SERBP1 as a key component of this gene regulation.

Published
2022

12. Biallelic mutations in RNF220 cause laminopathies featuring leukodystrophy, ataxia and deafness

Author

Paola Francalanci, Federica Marini, Giovanna Zambruno, Eleonore Eymard-Pierre, Luisa Pieroni, Filippo M. Santorelli, Anna Livia Loizzo, Stefania Petrini, Luisa Chiapparini, Marco Tartaglia, Vincenzo Leuzzi, Federica Rachele Danti, Andrea Ciolfi, Marialetizia Motta, Antonella Sferra, Paola Fortugno, Gianluca Cestra, Enrico Bertini, Alfredo Brusco, Isabella Moroni, Francesca Cipressa, Chiara Aiello, Odile Boespflug Tanguy, and Claudia Compagnucci

Subjects
Male, leukodystrophy, Ataxia, Adolescent, Ubiquitin-Protein Ligases, Biology, Deafness, Fibrotic cardiomyopathy, Hepatopathy, Laminopathies, Leukodystrophy, Sensorineural-deafness, Amino Acid Sequence, Animals, COS Cells, Child, Chlorocebus aethiops, Drosophila, Female, HEK293 Cells, Humans, Mutation, Pedigree, Young Adult, Alleles, medicine, Missense mutation, Exome sequencing, RNF220, Genetics, laminopathies, sensorineural-deafness, ataxia, Neurodegeneration, fibrotic cardiomyopathy, hepatopathy, medicine.disease, Phenotype, Nuclear lamina, Neurology (clinical), medicine.symptom, Lamin
Abstract

Leukodystrophies are a heterogeneous group of rare inherited disorders that mostly involve the white matter of the CNS. These conditions are characterized by primary glial cell and myelin sheath pathology of variable aetiology, which causes secondary axonal degeneration, generally emerging with disease progression. Whole exome sequencing performed in five large consanguineous nuclear families allowed us to identify homozygosity for two recurrent missense variants affecting highly conserved residues of RNF220 as the causative event underlying a novel form of leukodystrophy with ataxia and sensorineural deafness. We report these two homozygous missense variants (p.R363Q and p.R365Q) in the ubiquitin E3 ligase RNF220 as the underlying cause of this novel form of leukodystrophy with ataxia and sensorineural deafness that includes fibrotic cardiomyopathy and hepatopathy as associated features in seven consanguineous families. Mass spectrometry analysis identified lamin B1 as the RNF220 binding protein and co-immunoprecipitation experiments demonstrated reduced binding of both RNF220 mutants to lamin B1. We demonstrate that RNF220 silencing in Drosophila melanogaster specifically affects proper localization of lamin Dm0, the fly lamin B1 orthologue, promotes its aggregation and causes a neurodegenerative phenotype, strongly supporting the functional link between RNF220 and lamin B1. Finally, we demonstrate that RNF220 plays a crucial role in the maintenance of nuclear morphology; mutations in primary skin fibroblasts determine nuclear abnormalities such as blebs, herniations and invaginations, which are typically observed in cells of patients affected by laminopathies. Overall, our data identify RNF220 as a gene implicated in leukodystrophy with ataxia and sensorineural deafness and document a critical role of RNF220 in the regulation of nuclear lamina. Our findings provide further evidence on the direct link between nuclear lamina dysfunction and neurodegeneration.

Published
2020

13. Behavioral, neuromorphological, and neurobiochemical effects induced by omega-3 fatty acids following basal forebrain cholinergic depletion in aged mice

Author

Eugenia Landolfo, Paola De Bartolo, Stefano Sacchetti, Stefano Farioli-Vecchioli, Marcello D'Amelio, Francesca R. D'Amato, Federica Marini, Luisa Pieroni, Annalisa Nobili, Laura Petrosini, Doriana Chirico, Debora Cutuli, and Maurizio Ronci

Subjects
0301 basic medicine, Aging, medicine.medical_specialty, Basal Forebrain, Cognitive Neuroscience, Cholinergic Agents, aging, cholinergic system, omega-3 fatty acids, memory deficits, diet, Alzheimer’s disease, Hippocampus, Hippocampal formation, lcsh:RC346-429, lcsh:RC321-571, Mice, 03 medical and health sciences, 0302 clinical medicine, Alzheimer Disease, Internal medicine, Fatty Acids, Omega-3, Omega-3 fatty acids, medicine, Animals, Cholinergic neuron, Cognitive decline, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, lcsh:Neurology. Diseases of the nervous system, Basal forebrain, business.industry, Research, Dentate gyrus, Cholinergic system, medicine.disease, Diet, Astrogliosis, 030104 developmental biology, Endocrinology, Neurology, Memory deficits, Cholinergic, Neurology (clinical), business, 030217 neurology & neurosurgery
Abstract

Background In recent years, mechanistic, epidemiologic, and interventional studies have indicated beneficial effects of omega-3 polyunsaturated fatty acids (n-3 PUFA) against brain aging and age-related cognitive decline, with the most consistent effects against Alzheimer’s disease (AD) confined especially in the early or prodromal stages of the pathology. In the present study, we investigated the action of n-3 PUFA supplementation on behavioral performances and hippocampal neurogenesis, volume, and astrogliosis in aged mice subjected to a selective depletion of basal forebrain cholinergic neurons. Such a lesion represents a valuable model to mimic one of the most reliable hallmarks of early AD neuropathology. Methods Aged mice first underwent mu-p75-saporin immunotoxin intraventricular lesions to obtain a massive cholinergic depletion and then were orally supplemented with n-3 PUFA or olive oil (as isocaloric control) for 8 weeks. Four weeks after the beginning of the dietary supplementation, anxiety levels as well as mnesic, social, and depressive-like behaviors were evaluated. Subsequently, hippocampal morphological and biochemical analyses and n-3 PUFA brain quantification were carried out. Results The n-3 PUFA treatment regulated the anxiety alterations and reverted the novelty recognition memory impairment induced by the cholinergic depletion in aged mice. Moreover, n-3 PUFA preserved hippocampal volume, enhanced neurogenesis in the dentate gyrus, and reduced astrogliosis in the hippocampus. Brain levels of n-3 PUFA were positively related to mnesic abilities. Conclusions The demonstration that n-3 PUFA are able to counteract behavioral deficits and hippocampal neurodegeneration in cholinergically depleted aged mice promotes their use as a low-cost, safe nutraceutical tool to improve life quality at old age, even in the presence of first stages of AD.

Published
2020

14. Gut-Brain Axis and Neurodegeneration: State-of-the-Art of Meta-Omics Sciences for Microbiota Characterization

Author

Domenico Britti, Bruno Tilocca, Luisa Pieroni, Viviana Greco, Luigi Bonizzi, Paola Roncada, and Alessio Soggiu

Subjects
Proteomics, meta-omics sciences, Gut–brain axis, Computational biology, Disease, Review, Biology, Gut flora, Catalysis, Inorganic Chemistry, lcsh:Chemistry, Metabolomics, medicine, Animals, Humans, Gut, Physical and Theoretical Chemistry, gut–brain axis, Molecular Biology, Settore BIO/10 - BIOCHIMICA, lcsh:QH301-705.5, Spectroscopy, Feedback, Physiological, gut microbiota, Microbiota, Organic Chemistry, Neurodegeneration, Brain, Neurodegenerative Diseases, General Medicine, Genomics, biology.organism_classification, medicine.disease, Computer Science Applications, Gastrointestinal Tract, lcsh:Biology (General), lcsh:QD1-999, Metagenomics, Metaproteomics, Enteric nervous system, Disease Susceptibility, Brain axis
Abstract

Recent advances in the field of meta-omics sciences and related bioinformatics tools have allowed a comprehensive investigation of human-associated microbiota and its contribution to achieving and maintaining the homeostatic balance. Bioactive compounds from the microbial community harboring the human gut are involved in a finely tuned network of interconnections with the host, orchestrating a wide variety of physiological processes. These includes the bi-directional crosstalk between the central nervous system, the enteric nervous system, and the gastrointestinal tract (i.e., gut–brain axis). The increasing accumulation of evidence suggest a pivotal role of the composition and activity of the gut microbiota in neurodegeneration. In the present review we aim to provide an overview of the state-of-the-art of meta-omics sciences including metagenomics for the study of microbial genomes and taxa strains, metatranscriptomics for gene expression, metaproteomics and metabolomics to identify and/or quantify microbial proteins and metabolites, respectively. The potential and limitations of each discipline were highlighted, as well as the advantages of an integrated approach (multi-omics) to predict microbial functions and molecular mechanisms related to human diseases. Particular emphasis is given to the latest results obtained with these approaches in an attempt to elucidate the link between the gut microbiota and the most common neurodegenerative diseases, such as multiple sclerosis (MS), Alzheimer’s disease (AD), Parkinson’s disease (PD), and amyotrophic lateral sclerosis (ALS).

Published
2020

15. MYCN Regulates Metabolism Through Vesicular Transfer of Glycolytic Kinases

Author

Martin R. Larsen, Victor Corasolla Carregari, Alessandra Eva, Alexia Tsakaneli, Olesya Chayka, Evon Poon, Arturo Sala, Louis Chesler, Luisa Pieroni, Giuseppe Palmisano, Martina Morini, Evgeni Makarov, and Giuliana Cangemi

Subjects
Kinase, Chemistry, Neuroblastoma, medicine, Cancer, Glycolysis, Metabolism, PKM2, medicine.disease, neoplasms, Warburg effect, Pyruvate kinase, Cell biology
Abstract

Amplification of the proto-oncogene MYCN is a key molecular aberration in high-risk neuroblastoma and predictive of poor outcome in this childhood malignancy. We investigated the role of MYCN in regulating the protein cargo of extracellular vesicles (EVs) secreted by tumour cells that can be internalized by recipient cells with functional consequences. Using a switchable MYCN system coupled to mass spectrometry analysis, we found that MYCN regulates distinct sets of proteins in the EVs secreted by neuroblastoma cells. EVs produced by MYCN expressing cells or isolated from neuroblastoma patients induced the Warburg effect, proliferation and c-MYC expression in target cells. Mechanistically, we linked the cancer promoting activity of extracellular vesicles to the glycolytic kinase pyruvate kinase M2 (PKM2) that was enriched in EVs secreted by MYCN expressing neuroblastoma cells. Importantly, the glycolytic enzymes PKM2 and Hexokinase II were detected in the EVs circulating in the blood stream of neuroblastoma patients, but not in those of non-cancer children. We conclude that MYC activated cancers might spread oncogenic signals to remote body locations through extracellular vesicles.

Published
2020

16. Enrichments of post-translational modifications in proteomic studies

Author

Alessandra Olianas, Claudia Martelli, Luisa Pieroni, Claudia Desiderio, Tiziana Cabras, Barbara Manconi, Maria Teresa Sanna, Massimo Castagnola, Irene Messana, Viviana Greco, and Federica Iavarone

Subjects
0303 health sciences, Glycosylation, 030302 biochemistry & molecular biology, Nitrosylation, Proteins, Filtration and Separation, Methylation, Proteomics, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, Sulfation, proteomics, chemistry, Biochemistry, Glycation, Acetylation, Humans, Phosphorylation, enrichment, post-translational modifications, Oxidation-Reduction, Protein Processing, Post-Translational, Settore BIO/10 - BIOCHIMICA, 030304 developmental biology
Abstract

More than 300 different protein post-translational modifications are currently known, but only a few have been extensively investigated because modified proteoforms are commonly present in sub-stoichiometry amount. For this reason, improvement of specific enrichment techniques is particularly useful for the proteomic characterization of post-translationally modified proteins. Enrichment proteomic strategies could help the researcher in the challenging issue to decipher the complex molecular cross-talk existing between the different factors influencing the cellular pathways. In this review the state of art of the platforms applied for the enrichment of specific and most common post-translational modifications, such as glycosylation and glycation, phosphorylation, sulfation, redox modifications (i.e. sulfydration and nitrosylation), methylation, acetylation, and ubiquitinylation, are described. Enrichments strategies applied to characterize less studied post-translational modifications are also briefly discussed.

Published
2020

17. Exploring the HeLa Dark Mitochondrial Proteome

Author

Federica Marini, Victor Corasolla Carregari, Viviana Greco, Maurizio Ronci, Federica Iavarone, Silvia Persichilli, Massimo Castagnola, Andrea Urbani, and Luisa Pieroni

Subjects
0301 basic medicine, proteome, Computational biology, Mitochondrion, sub-proteome, Cell and Developmental Biology, 03 medical and health sciences, 0302 clinical medicine, Organelle, Human proteome project, medicine, Data-independent acquisition, lcsh:QH301-705.5, Settore BIO/10 - BIOCHIMICA, mass spectrometry, Chemistry, Cell Biology, Brief Research Report, Trypsin, Phenotype, dark proteome, mitochondria, 030104 developmental biology, lcsh:Biology (General), 030220 oncology & carcinogenesis, Proteome, Function (biology), Developmental Biology, medicine.drug
Abstract

In the framework of the Human Proteome Project initiative, we aim to improve mapping and characterization of mitochondrial proteome. In this work we implemented an experimental workflow, combining classical biochemical enrichments and mass spectrometry, to pursue a much deeper definition of mitochondrial proteome and possibly mine mitochondrial uncharacterized dark proteins. We fractionated in two compartments mitochondria enriched from HeLa cells in order to annotate 4230 proteins in both fraction by means of a multiple-enzyme digestion (trypsin, chymotrypsin and Glu-C) followed by mass spectrometry analysis using a combination of Data Dependent Acquisition (DDA) and Data Independent Acquisition (DIA). We detected 22 mitochondrial dark proteins not annotated for their function and we provide their relative abundance inside the mitochondrial organelle. Considering this work as a pilot study we expect that the same approach, in different biological system, could represent an advancement in the characterization of the human mitochondrial proteome providing uncharted ground to explore the mitonuclear phenotypic relationships. All spectra have been deposited to ProteomeXchange with PXD014201 and PXD014200 identifier.

Published
2020

18. Putative biomarkers for malignant pleural mesothelioma suggested by proteomic analysis of cell secretome

Author

Alfonso Cristaudo, Maria Rosa Mazzoni, Viviana Greco, Rudy Foddis, Alessandra Bonotti, Vanessa D'Antongiovanni, Luisa Pieroni, Federica Ciregia, Gino Giannaccini, Laura Giusti, Serena Lacerenza, Poupak Fallahi, and Antonio Lucacchini

Subjects
Male, Mesothelioma, Cancer Research, Lung Neoplasms, Proteome, Cell, Malignant pleural mesothelioma, cell lines, Biochemistry, Saposins, 0302 clinical medicine, Neoplasm, Oxidoreductases Acting on Sulfur Group Donors, Gel electrophoresis, Secretory Pathway, biology, Middle Aged, proteomic analysis, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Mesothelin, Female, Research Article, Pleural Neoplasms, GPI-Linked Proteins, Malignant pleural mesothelioma, biomarkers, proteomic analysis, secretome, proteome, cell lines, 03 medical and health sciences, Cell Line, Tumor, Genetics, medicine, Biomarkers, Tumor, Humans, Molecular Biology, Settore BIO/10 - BIOCHIMICA, Aged, Prosaposin, Pleural mesothelioma, business.industry, Mesothelioma, Malignant, biomarkers, medicine.disease, secretome, ROC Curve, Cell culture, Case-Control Studies, Cancer research, biology.protein, business
Abstract

Background Malignant pleural mesothelioma (MPM) a rare neoplasm linked to asbestos exposure is characterized by a poor prognosis. Soluble mesothelin is currently considered the most specific diagnostic biomarker. The aim of the study was to identify novel biomarkers by proteomic analysis of two MPM cell lines secretome. Materials and methods The protein patterns of MPM cells secretome were examined and compared to a non-malignant mesothelial cell line using two-dimensional gel electrophoresis coupled to mass spectrometry. Serum levels of candidate biomarkers were determined in MPM patients and control subjects. Results Two up-regulated proteins involved in cancer biology, prosaposin and quiescin Q6 sulfhydryl oxidase 1, were considered candidate biomarkers. Serum levels of both proteins were significantly higher in MPM patients than control subjects. Combining the data of each receiver-operating characteristic analysis predicted a good diagnostic accuracy. Conclusion A panel of the putative biomarkers represents a promising tool for MPM diagnosis.

Published
2020

19. Urinary Peptidomic Biomarkers in Kidney Diseases

Author

Andrea Urbani, Mario Bonomini, Vittorio Sirolli, Luisa Pieroni, and Lorenzo Di Liberato

Subjects
0301 basic medicine, Proteomics, kidney, Urinary system, 030232 urology & nephrology, Disease, Review, Urinalysis, Bioinformatics, Catalysis, Mass Spectrometry, Inorganic Chemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Settore BIO/12 - BIOCHIMICA CLINICA E BIOLOGIA MOLECOLARE CLINICA, CKD, Medicine, Humans, Physical and Theoretical Chemistry, Liquid biopsy, Precision Medicine, Molecular Biology, Spectroscopy, Kidney, Creatinine, business.industry, Organic Chemistry, peptidomics, General Medicine, medicine.disease, urine, Computer Science Applications, 030104 developmental biology, medicine.anatomical_structure, chemistry, clinical proteomics, Biomarker (medicine), biomarker, Kidney Diseases, Personalized medicine, business, Peptides, Biomarkers, Kidney disease
Abstract

In order to effectively develop personalized medicine for kidney diseases we urgently need to develop highly accurate biomarkers for use in the clinic, since current biomarkers of kidney damage (changes in serum creatinine and/or urine albumin excretion) apply to a later stage of disease, lack accuracy, and are not connected with molecular pathophysiology. Analysis of urine peptide content (urinary peptidomics) has emerged as one of the most attractive areas in disease biomarker discovery. Urinary peptidome analysis allows the detection of short and long-term physiological or pathological changes occurring within the kidney. Urinary peptidomics has been applied extensively for several years now in renal patients, and may greatly improve kidney disease management by supporting earlier and more accurate detection, prognostic assessment, and prediction of response to treatment. It also promises better understanding of kidney disease pathophysiology, and has been proposed as a “liquid biopsy” to discriminate various types of renal disorders. Furthermore, proteins being the major drug targets, peptidome analysis may allow one to evaluate the effects of therapies at the protein signaling pathway level. We here review the most recent findings on urinary peptidomics in the setting of the most common kidney diseases.

Published
2020

20. Exploring the Impact of PARK2 Mutations on the Total and Mitochondrial Proteome of Human Skin Fibroblasts

Author

Marta Lualdi, Victor Corasolla Carregari, Federica Marini, Ilaria Colugnat, Mara Zilocchi, Barbara Garavaglia, Sadhna Phanse, Mauro Fasano, Tiziana Alberio, Mohamed Taha Moutaoufik, Luisa Pieroni, Mohan Babu, Monica Meduri, Zilocchi, M, Colugnat, I, Lualdi, M, Meduri, M, Marini, F, Corasolla Carregari, V, Moutaoufik, M, Phanse, S, Pieroni, L, Babu, M, Garavaglia, B, Fasano, M, and Alberio, T

Subjects
0301 basic medicine, proteomic alterations, PINK1, interactome, Mitochondrion, Proteomics, Parkin, Parkinson’s Disease, 03 medical and health sciences, 0302 clinical medicine, Mitophagy, Shotgun proteomics, mitochondria, mitophagy, Parkin (PARK2), lcsh:QH301-705.5, biology, Cell Biology, Ubiquitin ligase, Cell biology, 030104 developmental biology, lcsh:Biology (General), 030220 oncology & carcinogenesis, biology.protein, Rab, proteomic alteration, Developmental Biology
Abstract

Mutations in PARK2 gene are the most frequent cause of familial forms of Parkinson's disease (PD). This gene encodes Parkin, an E3 ubiquitin ligase involved in several cellular mechanisms, including mitophagy. Parkin loss-of-function is responsible for the cellular accumulation of damaged mitochondria, which in turn determines an increment of reactive oxygen species (ROS) levels, lower ATP production, and apoptosis activation. Given the importance of mitochondrial dysfunction and mitophagy impairment in PD pathogenesis, the aim of the present study was to investigate both total and mitochondrial proteome alterations in human skin fibroblasts of PARK2-mutated patients. To this end, both total and mitochondria-enriched protein fractions from fibroblasts of five PARK2-mutated patients and five control subjects were analyzed by quantitative shotgun proteomics to identify proteins specifically altered by Parkin mutations (mass spectrometry proteomics data have been submitted to ProteomeXchange with the identifier PXD015880). Both the network-based and gene set enrichment analyses pointed out pathways in which Rab GTPase proteins are involved. To have a more comprehensive view of the mitochondrial alterations due to PARK2 mutations, we investigated the impact of Parkin loss on mitochondrial function and network morphology. We unveiled that the mitochondrial membrane potential was reduced in PARK2-mutated patients, without inducing PINK1 accumulation, even when triggered with the ionophore carbonyl cyanide m-chlorophenylhydrazone (CCCP). Lastly, the analysis of the mitochondrial network morphology did not reveal any significant alterations in PARK2-mutated patients compared to control subjects. Thus, our results suggested that the network morphology was not influenced by the mitochondrial depolarization and by the lack of Parkin, revealing a possible impairment of fission and, more in general, of mitochondrial dynamics. In conclusion, the present work highlighted new molecular factors and pathways altered by PARK2 mutations, which will unravel possible biochemical pathways altered in the sporadic form of PD.

Published
2020

21. Blood Cell Proteomics in Chronic Kidney Disease

Author

Andrea Urbani, Luisa Pieroni, Vittorio Sirolli, Mario Bonomini, and Maurizio Ronci

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, business.industry, Anemia, Urology, medicine.medical_treatment, Peroxiredoxin 2, medicine.disease, Proteomics, Uremia, Blood cell, 03 medical and health sciences, Red blood cell, 030104 developmental biology, medicine.anatomical_structure, Nephrology, medicine, Hemodialysis, business, Kidney disease
Abstract

Background: The uremic syndrome mimes a systemic poisoning with the retention of numerous compounds which are normally removed by the kidney. The study of proteins and peptides, or proteomics, represents an important field of research for the investigation of blood and blood diseases. Methods and Materials: We focused our review on the results of proteomic investigations on blood cells of uremic patients with particular regard to the study of red blood cells, platelets, and monocytes. Results: In literature there are few, preliminary studies on platelets and monocytes while the knowledge on uremic erythrocytes is much wider. Proteomic investigations showed that erythrocyte membrane proteome of uremic patients, differs significantly from the proteome of healthy subjects, being characterized by an extensive remodeling which may influence visco-elastic properties of RBC such as deformability and involve diverse molecular pathways driving red blood cell signaling and removal. Conclusion: Proteomic technologies emerged as a useful tool in defining and characterizing both physiological and disease processes being able, among others, to give important insights into uremic anemia.

Published
2018

22. Examining hemodialyzer membrane performance using proteomic technologies

Author

Lorenzo Di Liberato, Luisa Pieroni, Mario Bonomini, Vittorio Sirolli, and Andrea Urbani

Subjects
0301 basic medicine, 030232 urology & nephrology, Synthetic membrane, uremic toxin, Review, Proteomics, End stage renal disease, Dialysis tubing, 03 medical and health sciences, 0302 clinical medicine, Medicine, Pharmacology (medical), General Pharmacology, Toxicology and Pharmaceutics, mass spectrometry, Chemical Health and Safety, hemodialysis, end-stage renal disease, business.industry, General Medicine, Blood proteins, protein adsorption, 030104 developmental biology, Membrane, bio-compatibility, Biophysics, Dialysis (biochemistry), business, Safety Research, Protein adsorption
Abstract

The success and the quality of hemodialysis therapy are mainly related to both clearance and biocompatibility properties of the artificial membrane packed in the hemodialyzer. Performance of a membrane is strongly influenced by its interaction with the plasma protein repertoire during the extracorporeal procedure. Recognition that a number of medium-high molecular weight solutes, including proteins and protein-bound molecules, are potentially toxic has prompted the development of more permeable membranes. Such membrane engineering, however, may cause loss of vital proteins, with membrane removal being nonspecific. In addition, plasma proteins can be adsorbed onto the membrane surface upon blood contact during dialysis. Adsorption can contribute to the removal of toxic compounds and governs the biocompatibility of a membrane, since surface-adsorbed proteins may trigger a variety of biologic blood pathways with pathophysiologic consequences. Over the last years, use of proteomic approaches has allowed polypeptide spectrum involved in the process of hemodialysis, a key issue previously hampered by lack of suitable technology, to be assessed in an unbiased manner and in its full complexity. Proteomics has been successfully applied to identify and quantify proteins in complex mixtures such as dialysis outflow fluid and fluid desorbed from dialysis membrane containing adsorbed proteins. The identified proteins can also be characterized by their involvement in metabolic and signaling pathways, molecular networks, and biologic processes through application of bioinformatics tools. Proteomics may thus provide an actual functional definition as to the effect of a membrane material on plasma proteins during hemodialysis. Here, we review the results of proteomic studies on the performance of hemodialysis membranes, as evaluated in terms of solute removal efficiency and blood-membrane interactions. The evidence collected indicates that the information provided by proteomic investigations yields improved molecular and functional knowledge and may lead to the development of more efficient membranes for the potential benefit of the patient.

Published
2017

23. C9ORF72 Repeat Expansion Affects the Proteome of Primary Skin Fibroblasts in ALS

Author

Lara Camillo, Marta Lualdi, Edoardo Pedrini, Mauro Fasano, Adeena Shafique, Fabiola De Marchi, Lucia Corrado, Luisa Pieroni, Giorgia Cucina, Claudia Colombrita, Alice Di Pierro, Marianna D’Anca, Sandra D'Alfonso, Tiziana Alberio, Viviana Greco, and Massimo Castagnola

Subjects
Proteomics, PPI network, QH301-705.5, C9ORF72, Biology, medicine.disease_cause, Article, Catalysis, Inorganic Chemistry, Pathogenesis, C9orf72, medicine, Biology (General), Physical and Theoretical Chemistry, Amyotrophic lateral sclerosis, QD1-999, Settore BIO/10 - BIOCHIMICA, Molecular Biology, Spectroscopy, Functional enrichment analysis, Skin fibroblasts, Mutation, Organic Chemistry, functional enrichment analysis, General Medicine, medicine.disease, skin fibroblasts, Computer Science Applications, Cell biology, Chemistry, Crosstalk (biology), Proteome, Trinucleotide repeat expansion
Abstract

Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease characterized by progressive degeneration of the corticospinal motor neurons, which ultimately leads to death. The repeat expansion in chromosome 9 open reading frame 72 (C9ORF72) represents the most common genetic cause of ALS and it is also involved in the pathogenesis of other neurodegenerative disorders. To offer insights into C9ORF72-mediated pathogenesis, we quantitatively analyzed the proteome of patient-derived primary skin fibroblasts from ALS patients carrying the C9ORF72 mutation compared with ALS patients who tested negative for it. Differentially expressed proteins were identified, used to generate a protein-protein interaction network and subjected to a functional enrichment analysis to unveil altered molecular pathways. ALS patients were also compared with patients affected by frontotemporal dementia carrying the C9ORF72 repeat expansion. As a result, we demonstrated that the molecular pathways mainly altered in fibroblasts (e.g., protein homeostasis) mirror the alterations observed in C9ORF72-mutated neurons. Moreover, we highlighted novel molecular pathways (nuclear and mitochondrial transports, vesicle trafficking, mitochondrial bioenergetics, glucose metabolism, ER-phagosome crosstalk and Slit/Robo signaling pathway) which might be further investigated as C9ORF72-specific pathogenetic mechanisms. Data are available via ProteomeXchange with the identifier PXD023866.

Published
2021

24. Publisher Correction: Innovative mouse model mimicking human-like features of spinal cord injury: efficacy of Docosahexaenoic acid on acute and chronic phases

Author

Virginia Protto, Luisa Pieroni, Flaminia Pavone, Valentina Vacca, Federica De Angelis, Sara Marinelli, Tiziana Orsini, Luigi Manni, Roberto Guerrieri, Marzia Soligo, and Chiara Parisi

Subjects
Multidisciplinary, Docosahexaenoic Acids, business.industry, lcsh:R, lcsh:Medicine, medicine.disease, Bioinformatics, Publisher Correction, Disease Models, Animal, Mice, Text mining, Docosahexaenoic acid, Acute Disease, Chronic Disease, medicine, Animals, Humans, lcsh:Q, Female, business, lcsh:Science, Spinal cord injury, Spinal Cord Injuries
Abstract

Traumatic spinal cord injury has dramatic consequences and a huge social impact. We propose a new mouse model of spinal trauma that induces a complete paralysis of hindlimbs, still observable 30 days after injury. The contusion, performed without laminectomy and deriving from the pressure exerted directly on the bone, mimics more closely many features of spinal injury in humans. Spinal cord was injured at thoracic level 10 (T10) in adult anesthetized female CD1 mice, mounted on stereotaxic apparatus and connected to a precision impactor device. Following severe injury, we evaluated motor and sensory functions, and histological/morphological features of spinal tissue at different time points. Moreover, we studied the effects of early and subchronic administration of Docosahexaenoic acid, investigating functional responses, structural changes proximal and distal to the lesion in primary and secondary injury phases, proteome modulation in injured spinal cord. Docosahexaenoic acid was able i) to restore behavioural responses and ii) to induce pro-regenerative effects and neuroprotective action against demyelination, apoptosis and neuroinflammation. Considering the urgent health challenge represented by spinal injury, this new and reliable mouse model together with the positive effects of docosahexaenoic acid provide important translational implications for promising therapeutic approaches for spinal cord injuries.

Published
2019

25. Mapping of Transglutaminase-2 Sites of Human Salivary Small Basic Proline-Rich Proteins by HPLC-High-Resolution ESI-MS/MS

Author

Tiziana Cabras, Gavino Faa, Mozhgan Boroumand, Barbara Manconi, Luisa Pieroni, Federica Iavarone, Massimo Castagnola, Irene Messana, Claudia Desiderio, Alessandra Olianas, and Simone Serrao

Subjects
Spectrometry, Mass, Electrospray Ionization, Tissue transglutaminase, Electrospray ionization, Peptide, Mass spectrometry, Biochemistry, High-performance liquid chromatography, GTP-Binding Proteins, Cadaverine, Humans, Reactivity (chemistry), Protein Glutamine gamma Glutamyltransferase 2, Salivary Proteins and Peptides, Saliva, Chromatography, High Pressure Liquid, chemistry.chemical_classification, Transglutaminases, biology, Lysine, General Chemistry, basic proline-rich peptides monodansyl-cadaverine mass spectrometry human saliva transglutaminase-2, Salivary Proline-Rich Proteins, Glutamine, Kinetics, Enzyme, chemistry, biology.protein
Abstract

Because of the distinctive features of the oral cavity, the determination of the proteins involved in the formation of the "oral protein pellicle" is demanding. The present study investigated the susceptibility of several human basic proline-rich peptides, named P-H, P-D, P-F, P-J, and II-2, as substrates of transglutaminase-2. The reactivity of the P-C peptide and statherin was also investigated. Peptides purified from human whole saliva were incubated with the enzyme in the presence or in the absence of monodansyl-cadaverine. Mass spectrometry analyses of the reaction products highlighted that P-H and P-D (P32 and A32 variants) were active substrates, II-2 was less reactive, and P-F and P-J showed very low reactivity. P-C and statherin were highly reactive. All of the peptides formed cyclo derivatives, and only specific glutamine residues were involved in the cycle formation and reacted with monodansyl-cadaverine: Q29 of P-H, Q37 of P-D, Q21 of II-2, Q41 of P-C, and Q37 of statherin were the principal reactive residues. One or two secondary glutamine residues of only P-H, P-D P32, P-C, and statherin were hierarchically susceptible to the reaction with monodansyl-cadaverine. MS and MS/MS data were deposited to the ProteomeXchange Consortium ( http://www.ebi.ac.uk/pride ) via the PRIDE partner repository with the data set identifier PXD014658.

Published
2019

26. Exploring the Impact of

Author

Mara, Zilocchi, Ilaria, Colugnat, Marta, Lualdi, Monica, Meduri, Federica, Marini, Victor, Corasolla Carregari, Mohamed Taha, Moutaoufik, Sadhna, Phanse, Luisa, Pieroni, Mohan, Babu, Barbara, Garavaglia, Mauro, Fasano, and Tiziana, Alberio

Subjects
mitochondria, Parkinson’s Disease, Cell and Developmental Biology, mitophagy, proteomic alterations, interactome, Parkin (PARK2), Original Research
Abstract

Mutations in PARK2 gene are the most frequent cause of familial forms of Parkinson’s disease (PD). This gene encodes Parkin, an E3 ubiquitin ligase involved in several cellular mechanisms, including mitophagy. Parkin loss-of-function is responsible for the cellular accumulation of damaged mitochondria, which in turn determines an increment of reactive oxygen species (ROS) levels, lower ATP production, and apoptosis activation. Given the importance of mitochondrial dysfunction and mitophagy impairment in PD pathogenesis, the aim of the present study was to investigate both total and mitochondrial proteome alterations in human skin fibroblasts of PARK2-mutated patients. To this end, both total and mitochondria-enriched protein fractions from fibroblasts of five PARK2-mutated patients and five control subjects were analyzed by quantitative shotgun proteomics to identify proteins specifically altered by Parkin mutations (mass spectrometry proteomics data have been submitted to ProteomeXchange with the identifier PXD015880). Both the network-based and gene set enrichment analyses pointed out pathways in which Rab GTPase proteins are involved. To have a more comprehensive view of the mitochondrial alterations due to PARK2 mutations, we investigated the impact of Parkin loss on mitochondrial function and network morphology. We unveiled that the mitochondrial membrane potential was reduced in PARK2-mutated patients, without inducing PINK1 accumulation, even when triggered with the ionophore carbonyl cyanide m-chlorophenylhydrazone (CCCP). Lastly, the analysis of the mitochondrial network morphology did not reveal any significant alterations in PARK2-mutated patients compared to control subjects. Thus, our results suggested that the network morphology was not influenced by the mitochondrial depolarization and by the lack of Parkin, revealing a possible impairment of fission and, more in general, of mitochondrial dynamics. In conclusion, the present work highlighted new molecular factors and pathways altered by PARK2 mutations, which will unravel possible biochemical pathways altered in the sporadic form of PD.

Published
2019

27. Proteomic Analysis Reveals a Biofilm-Like Behavior of Planktonic Aggregates of Staphylococcus epidermidis Grown Under Environmental Pressure/Stress

Author

Arianna B. Lovati, Marta Bottagisio, Luigi Bonizzi, Cristian Piras, Alessio Soggiu, Alessandro Bidossi, Luisa Pieroni, Viviana Greco, and Paola Roncada

Subjects
Microbiology (medical), Microorganism, lcsh:QR1-502, Bacterial growth, Matrix (biology), prosthetic joint infections, Microbiology, biofilm, lcsh:Microbiology, 03 medical and health sciences, proteomics, Staphylococcus epidermidis, methicillin-resistant Staphylococcus epidermidis, Settore BIO/10 - BIOCHIMICA, Pathogen, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, sessile, Biofilm, Methicillin-resistant Staphylococcus epidermidis, biology.organism_classification, planktonic, Bacteria
Abstract

Prosthetic joint replacement failure has a huge impact on quality of life and hospitalization costs. A leading cause of prosthetic joint infection is bacteria-forming biofilm on the surface of orthopedic devices. Staphylococcus epidermidis is an emergent, low-virulence pathogen implicated in chronic infections, barely indistinguishable from aseptic loosening when embedded in a mature matrix. The literature is scarce on the behavior of quiescent S. epidermidis in mature biofilms. To fill this gap, we performed comparative analysis of the whole proteomic profiles of two methicillin-resistant S. epidermidis strains growing in planktonic and in sessile form to investigate the molecular mechanisms underlying biofilm stability. After 72-h culture of biofilm-forming S. epidermidis, overexpression of proteins involved in the synthesis of nucleoside triphosphate and polysaccharides was observed, whereas planktonic bacteria expressed proteins linked to stress and anaerobic growth. Cytological analysis was performed to determine why planktonic bacteria unexpectedly expressed proteins typical of sessile culture. Images evidenced that prolonged culture under vigorous agitation can create a stressful growing environment that triggers microorganism aggregation in a biofilm-like matrix as a mechanism to survive harsh conditions. The choice of a unique late time point provided an important clue for future investigations into the biofilm-like behavior of planktonic cells. Our preliminary results may inform comparative proteomic strategies in the study of mature bacterial biofilm. Finally, there is an increasing number of studies on the aggregation of free-floating bacteria embedded in an extracellular matrix, prompting the need to gain further insight into this mode of bacterial growth.

Published
2019

28. Crosstalk Between Oxidative Stress and Mitochondrial Damage: Focus on Amyotrophic Lateral Sclerosis

Author

Viviana, Greco, Patrizia, Longone, Alida, Spalloni, Luisa, Pieroni, and Andrea, Urbani

Subjects
Oxidative Stress, Amyotrophic Lateral Sclerosis, Humans, Reactive Oxygen Species, DNA, Mitochondrial, Reactive Nitrogen Species, Mitochondria
Abstract

Proteins oxidation by reactive species is implicated in the aetiology or progression of a panoply of disorders and diseases such as neurodegenerative disorders. It is becoming increasingly evident that redox imbalance in the brain mediates neurodegeneration. Free radicals, as reactive species of oxygen (ROS) but also reactive nitrogen species (RNS) and reactive sulfur species (RSS), are generated in vivo from several sources. Within the cell the mitochondria represent the main source of ROS and mitochondrial dysfunction is both the major contributor to oxidative stress (OS) as well its major consequence.To date there are no doubts that a condition of OS added to other factors as mitochondrial damage in mtDNA or mitochondrial respiratory chain, may contribute to trigger or amplify mechanisms leading to neurodegenerative disorders.In this chapter, we aim at illustrate the molecular interplay occurring between mitochondria and OS focusing on Amyotrophic Lateral Sclerosis, describing a phenotypic reprogramming mechanism of mitochondria in complex neurological disorder.

Published
2019

29. Impact of the Trophic Effects of the Secretome From a Multistrain Probiotic Preparation on the Intestinal Epithelia

Author

Maurizio Sanguinetti, Cristina Graziani, Andrea Urbani, Viviana Greco, Alessandro Sgambato, Caterina Fanali, Antonio Gasbarrini, Franco Scaldaferri, Lucrezia Laterza, Donatella Lucchetti, Luisa Pieroni, Valentina Petito, Maria Raffaella Barbaro, Loris Riccardo Lopetuso, Francesca Bugli, Petito V., Greco V., Laterza L., Graziani C., Fanali C., Lucchetti D., Barbaro M.R., Bugli F., Pieroni L., Lopetuso L.R., Sgambato A., Sanguinetti M., Scaldaferri F., Urbani A., and Gasbarrini A.

Subjects
Settore MED/12 - GASTROENTEROLOGIA, multistrain probiotic, Biology, Proteomics, intestinal epithelia, Microbiology, law.invention, Probiotic, proteomics, law, Tandem Mass Spectrometry, medicine, Immunology and Allergy, Humans, Intestinal Mucosa, Settore BIO/10 - BIOCHIMICA, proteomic, Secretome, Intestinal permeability, Cell growth, Probiotics, Settore MED/09 - MEDICINA INTERNA, Gastroenterology, medicine.disease, Blot, Caco-2, Cell culture, inflammation, Proteome, Caco-2 Cells
Abstract

Background Probiotics are defined as live, nonpathogenic bacteria that confer health benefits beyond their nutritional value. In particular, VSL#3 exhibits demonstrated efficacy in the management of diseases characterized by an increased intestinal permeability. Our study aimed to understand how VSL#3 promotes gut health by secreting bioactive factors and identify which human pathways are modulated by secretome derived from the VSL#3 formula. Methods Two different lots of VSL#3 were used, and Caco-2 cell line was treated with conditioned media (CM) prepared using 1 g of the probiotic formula. We evaluated the effects of the probiotics on cellular proliferation and apoptosis by cytometry and the expression of tight junction proteins by western blotting. A proteomics analysis of both culture media and the whole proteome of Caco-2 cells treated with VSL#3-CM was performed by nano-ultra performance liquid chromatography - tandem mass (nUPLC MS/MS) spectrometry. Results The probiotic formula increased cell proliferation, decreased cellular apoptosis cells, and increased re-epithelialization in the scratch assay. Several peptides specifically synthetized by all the species within the probiotic preparation were recognized in the proteomics analysis. Human proteins synthesized by CaCo-2 cells were also identified. Conclusions To our knowledge, this manuscript describes the first evaluation of the probiotic secretome, and the results showed that the improvement in intestinal barrier functions induced by probiotics seems to be accompanied by the modulation of some human cellular pathways.

Published
2019

30. Impact of Pharmacological Inhibition of Hydrogen Sulphide Production in the SOD1G93A-ALS Mouse Model

Author

Giulia Ciriminna, Patrizia Longone, Andrea Urbani, Federica Marini, Victor Corasolla Carregari, Alida Spalloni, Luisa Pieroni, Nicola Biagio Mercuri, and Viviana Greco

Subjects
Male, amyotrophic lateral sclerosis, amino-oxyacetic acid (AOA), Male mice, lcsh:Chemistry, Pathogenesis, Mice, Superoxide Dismutase-1, Hydrogen Sulfide, Amyotrophic lateral sclerosis, Enzyme Inhibitors, lcsh:QH301-705.5, Spectroscopy, Cells, Cultured, chemistry.chemical_classification, Aminooxyacetic Acid, Brain, General Medicine, Computer Science Applications, glial cells, medicine.anatomical_structure, Female, medicine.symptom, hydrogen sulphide, Neuroglia, medicine.medical_specialty, Cystathionine beta-Synthase, Inflammation, Hydrogen sulphide, Catalysis, Article, Inorganic Chemistry, Sex Factors, Internal medicine, medicine, Animals, Physical and Theoretical Chemistry, Settore BIO/10 - BIOCHIMICA, Molecular Biology, business.industry, Organic Chemistry, Spinal cord, medicine.disease, Lyase, equipment and supplies, Mice, Inbred C57BL, Endocrinology, Enzyme, lcsh:Biology (General), lcsh:QD1-999, chemistry, inflammation, pharmacology, business
Abstract

A number of factors can trigger amyotrophic lateral sclerosis (ALS), although its precise pathogenesis is still uncertain. In a previous study done by us, poisonous liquoral levels of hydrogen sulphide (H2S) in sporadic ALS patients were reported. In the same study very high concentrations of H2S in the cerebral tissues of the familial ALS (fALS) model of the SOD1G93A mouse, were measured. The objective of this study was to test whether decreasing the levels of H2S in the fALS mouse could be beneficial. Amino-oxyacetic acid (AOA)&mdash, a systemic dual inhibitor of cystathionine-&beta, synthase and cystathionine-&gamma, lyase (two key enzymes in the production of H2S)&mdash, was administered to fALS mice. AOA treatment decreased the content of H2S in the cerebral tissues, and the lifespan of female mice increased by approximately ten days, while disease progression in male mice was not affected. The histological evaluation of the spinal cord of the females revealed a significant increase in GFAP positivity and a significant decrease in IBA1 positivity. In conclusion, the results of the study indicate that, in the animal model, the inhibition of H2S production is more effective in females. The findings reinforce the need to adequately consider sex as a relevant factor in ALS.

Published
2019

31. Proteomic Analysis Reveals a Biofilm-Like Behavior of Planktonic Aggregates of

Author

Marta, Bottagisio, Alessio, Soggiu, Cristian, Piras, Alessandro, Bidossi, Viviana, Greco, Luisa, Pieroni, Luigi, Bonizzi, Paola, Roncada, and Arianna B, Lovati

Subjects
proteomics, sessile, orthopedics, methicillin-resistant Staphylococcus epidermidis, prosthetic joint infections, planktonic, Microbiology, biofilm, Original Research
Abstract

Prosthetic joint replacement failure has a huge impact on quality of life and hospitalization costs. A leading cause of prosthetic joint infection is bacteria-forming biofilm on the surface of orthopedic devices. Staphylococcus epidermidis is an emergent, low-virulence pathogen implicated in chronic infections, barely indistinguishable from aseptic loosening when embedded in a mature matrix. The literature on the behavior of quiescent S. epidermidis in mature biofilms is scarce. To fill this gap, we performed comparative analysis of the whole proteomic profiles of two methicillin-resistant S. epidermidis strains growing in planktonic and in sessile form to investigate the molecular mechanisms underlying biofilm stability. After 72-h culture of biofilm-forming S. epidermidis, overexpression of proteins involved in the synthesis of nucleoside triphosphate and polysaccharides was observed, whereas planktonic bacteria expressed proteins linked to stress and anaerobic growth. Cytological analysis was performed to determine why planktonic bacteria unexpectedly expressed proteins typical of sessile culture. Images evidenced that prolonged culture under vigorous agitation can create a stressful growing environment that triggers microorganism aggregation in a biofilm-like matrix as a mechanism to survive harsh conditions. The choice of a unique late time point provided an important clue for future investigations into the biofilm-like behavior of planktonic cells. Our preliminary results may inform comparative proteomic strategies in the study of mature bacterial biofilm. Finally, there is an increasing number of studies on the aggregation of free-floating bacteria embedded in an extracellular matrix, prompting the need to gain further insight into this mode of bacterial growth.

Published
2019

32. Innovative mouse model mimicking human-like features of spinal cord injury: efficacy of Docosahexaenoic acid on acute and chronic phases

Author

Tiziana Orsini, Federica De Angelis, Luigi Manni, Sara Marinelli, Roberto Guerrieri, Marzia Soligo, Flaminia Pavone, Valentina Vacca, Virginia Protto, Luisa Pieroni, Chiara Parisi, Marinelli S., Vacca V., De Angelis F., Pieroni L., Orsini T., Parisi C., Soligo M., Protto V., Manni L., Guerrieri R., and Pavone F.

Subjects
0301 basic medicine, Nervous system, Pathology, medicine.medical_specialty, mice, medicine.medical_treatment, lcsh:Medicine, Spinal cord injury, Neuroprotection, Article, Lesion, 03 medical and health sciences, 0302 clinical medicine, medicine, Paralysis, animal, Neurodegeneration, lcsh:Science, humans, Neuroinflammation, acute disease, Neurodegeneration, Spinal cord injury, docosahexaenoic acids, Multidisciplinary, disease models, animals, chronic disease, female, spinal cord injuries, disease models, animal, business.industry, lcsh:R, Laminectomy, Spinal cord, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, lcsh:Q, medicine.symptom, business, 030217 neurology & neurosurgery
Abstract

Traumatic spinal cord injury has dramatic consequences and a huge social impact. We propose a new mouse model of spinal trauma that induces a complete paralysis of hindlimbs, still observable 30 days after injury. The contusion, performed without laminectomy and deriving from the pressure exerted directly on the bone, mimics more closely many features of spinal injury in humans. Spinal cord was injured at thoracic level 10 (T10) in adult anesthetized female CD1 mice, mounted on stereotaxic apparatus and connected to a precision impactor device. Following severe injury, we evaluated motor and sensory functions, and histological/morphological features of spinal tissue at different time points. Moreover, we studied the effects of early and subchronic administration of Docosahexaenoic acid, investigating functional responses, structural changes proximal and distal to the lesion in primary and secondary injury phases, proteome modulation in injured spinal cord. Docosahexaenoic acid was able i) to restore behavioural responses and ii) to induce pro-regenerative effects and neuroprotective action against demyelination, apoptosis and neuroinflammation. Considering the urgent health challenge represented by spinal injury, this new and reliable mouse model together with the positive effects of docosahexaenoic acid provide important translational implications for promising therapeutic approaches for spinal cord injuries.

Published
2019

33. Crosstalk Between Oxidative Stress and Mitochondrial Damage: Focus on Amyotrophic Lateral Sclerosis

Author

Patrizia Longone, Andrea Urbani, Viviana Greco, Luisa Pieroni, and Alida Spalloni

Subjects
Mitochondrial DNA, Mitochondrial damage, Neurodegeneration, Amyotrophic Lateral Sclerosis, Mitochondrion, Biology, Redox proteomics, medicine.disease, medicine.disease_cause, Cell biology, 03 medical and health sciences, Crosstalk (biology), chemistry.chemical_compound, 0302 clinical medicine, Mitochondrial respiratory chain, chemistry, Oxidative stress, Reactive species, medicine, 030212 general & internal medicine, Amyotrophic lateral sclerosis, Reactive Oxygen Species, Settore BIO/10 - BIOCHIMICA, Reactive nitrogen species
Abstract

Proteins oxidation by reactive species is implicated in the aetiology or progression of a panoply of disorders and diseases such as neurodegenerative disorders. It is becoming increasingly evident that redox imbalance in the brain mediates neurodegeneration. Free radicals, as reactive species of oxygen (ROS) but also reactive nitrogen species (RNS) and reactive sulfur species (RSS), are generated in vivo from several sources. Within the cell the mitochondria represent the main source of ROS and mitochondrial dysfunction is both the major contributor to oxidative stress (OS) as well its major consequence.To date there are no doubts that a condition of OS added to other factors as mitochondrial damage in mtDNA or mitochondrial respiratory chain, may contribute to trigger or amplify mechanisms leading to neurodegenerative disorders.In this chapter, we aim at illustrate the molecular interplay occurring between mitochondria and OS focusing on Amyotrophic Lateral Sclerosis, describing a phenotypic reprogramming mechanism of mitochondria in complex neurological disorder.

Published
2019

34. Proteomic Investigations into Hemodialysis Therapy

Author

Mario Bonomini, Andrea Urbani, Vittorio Sirolli, Paolo Felaco, Luigi Amoroso, and Luisa Pieroni

Subjects
Nephrology, Proteomics, medicine.medical_specialty, Proteome, medicine.medical_treatment, uremic toxins, Biocompatible Materials, Review, Bioinformatics, Catalysis, Dialysis tubing, Inorganic Chemistry, lcsh:Chemistry, biocompatibility, Renal Dialysis, Internal medicine, medicine, Humans, Renal replacement therapy, Physical and Theoretical Chemistry, Intensive care medicine, Settore BIO/10 - BIOCHIMICA, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, proteomic, dialysis membrane, hemodialysis, Chemistry, Organic Chemistry, Membranes, Artificial, General Medicine, Blood Proteins, medicine.disease, Blood proteins, Uremia, Computer Science Applications, Membrane, lcsh:Biology (General), lcsh:QD1-999, Kidney Failure, Chronic, Hemodialysis, Adsorption
Abstract

The retention of a number of solutes that may cause adverse biochemical/biological effects, called uremic toxins, characterizes uremic syndrome. Uremia therapy is based on renal replacement therapy, hemodialysis being the most commonly used modality. The membrane contained in the hemodialyzer represents the ultimate determinant of the success and quality of hemodialysis therapy. Membrane's performance can be evaluated in terms of removal efficiency for unwanted solutes and excess fluid, and minimization of negative interactions between the membrane material and blood components that define the membrane's bio(in)compatibility. Given the high concentration of plasma proteins and the complexity of structural functional relationships of this class of molecules, the performance of a membrane is highly influenced by its interaction with the plasma protein repertoire. Proteomic investigations have been increasingly applied to describe the protein uremic milieu, to compare the blood purification efficiency of different dialyzer membranes or different extracorporeal techniques, and to evaluate the adsorption of plasma proteins onto hemodialysis membranes. In this article, we aim to highlight investigations in the hemodialysis setting making use of recent developments in proteomic technologies. Examples are presented of why proteomics may be helpful to nephrology and may possibly affect future directions in renal research.

Published
2015

35. Applications of MALDI-TOF mass spectrometry in clinical proteomics

Author

V. Greco, Cristian Piras, Andrea Urbani, Paola Roncada, Luisa Pieroni, Lorenza Putignani, and Maurizio Ronci

Subjects
0301 basic medicine, Proteomics, pre-analyticalfactors, Neoplasm, Residual, precision medicine, Computational biology, Analytical factors, biological fluids, biomarkers, clinical proteomics, MALDI-TOF MS, mass spectrometry, Biochemistry, 03 medical and health sciences, Settore BIO/12 - BIOCHIMICA CLINICA E BIOLOGIA MOLECOLARE CLINICA, Drug Discovery, Biological fluids, Medicine, Humans, Settore BIO/10 - BIOCHIMICA, Molecular Biology, business.industry, Laser desorption ionization mass spectrometry, Multifactorial disease, Precision medicine, Omics, MALDI-TOF Mass Spectrometry, Body Fluids, Matrix-assisted laser desorption/ionization, 030104 developmental biology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, business
Abstract

The development of precision medicine requires advanced technologies to address the multifactorial disease stratification and to support personalized treatments. Among omics techniques, proteomics based on Mass Spectrometry (MS) is becoming increasingly relevant in clinical practice allowing a phenotypic characterization of the dynamic functional status of the organism. From this perspective, Matrix Assisted Laser Desorption Ionization Time of Flight (MALDI-TOF) MS is a suitable platform for providing a high-throughput support to clinics. Areas covered: This review aims to provide an updated overview of MALDI-TOF MS applications in clinical proteomics. The most relevant features of this analysis have been discussed, highlighting both pre-analytical and analytical factors that are crucial in proteomics studies. Particular emphasis is placed on biofluids proteomics for biomarkers discovery and on recent progresses in clinical microbiology, drug monitoring, and minimal residual disease (MRD). Expert commentary: Despite some analytical limitations, the latest technological advances together with the easiness of use, the low time and low cost consuming and the high throughput are making MALDI-TOF MS instruments very attractive for the clinical practice. These features offer a significant potential for the routine of the clinical laboratory and ultimately for personalized medicine.

Published
2018

36. Proteomic Characterization of a New asymmetric Cellulose Triacetate Membrane for Hemodialysis

Author

Mario Bonomini, Paolo Felaco, Andrea Urbani, Vittorio Sirolli, Luisa Pieroni, Antonio Aceto, Viviana Greco, Maurizio Ronci, and Lidia Leporini

Subjects
0301 basic medicine, liquid chromatography tandem mass spectrometry, Adult, Male, Proteomics, Biocompatibility, Adolescent, Polymers, medicine.medical_treatment, Clinical Biochemistry, 030232 urology & nephrology, Synthetic membrane, 03 medical and health sciences, chemistry.chemical_compound, Young Adult, 0302 clinical medicine, protein identification, Renal Dialysis, medicine, Humans, Shotgun proteomics, Cellulose, Settore BIO/10 - BIOCHIMICA, Chromatography, Cross-Over Studies, Membranes, Membranes, Artificial, Blood Proteins, Blood proteins, Cellulose triacetate, 030104 developmental biology, Membrane, chemistry, Artificial, Female, Hemodialysis, Adsorption, Protein adsorption
Abstract

Purpose The artificial membrane inside the haemodialyzer is the main determinant of the quality and success of haemodialysis therapy. The performances of haemodialysis membranes are highly influenced by the interactions with plasma proteins, which in turn are related to the physical and chemical characteristics of the membrane material. The present cross-over study is aimed to analyse the haemodialysis performance of a newly developed asymmetric cellulose triacetate membrane (ATA) in comparison to the conventional parent symmetric polymer (CTA). Experimental design In four chronic non diabetic haemodialysis patients, the protein constituents of the adsorbed material from the filters after the haemodialysis session, and the proteins recovered in the ultrafiltrate during the session, are identified using a bottom-up shotgun proteomics approach. Results The ATA membrane shows a lower protein adsorption rate and a lower mass distribution pattern of the proteinaceous material. Conclusions and clinical relevance By highlighting the differences between the two haemodialysis filters in terms of adsorbed proteins and flow through, it is demonstrated the higher biocompatibility of the novel ATA membrane, that fulfils the indications for the development of more performant membranes and may represent a step forward for the treatment of patients on chronic haemodialysis.

Published
2018

37. Sequential Fractionation Strategy Identifies Three Missing Proteins in the Mitochondrial Proteome of Commonly Used Cell Lines

Author

Maurizio Ronci, Victor Corasolla Carregari, Andrea Urbani, Federica Marini, Luisa Pieroni, Luca Scotti, Vincenzo Cunsolo, Antonio Aceto, Viviana Greco, and Salvatore Foti

Subjects
0301 basic medicine, Proteomics, METHYLTRANSFERASE, DYSFUNCTION, PROJECT, Bioenergetics, Proteome, Cell, Sequential fractionation, Mitochondrion, Biology, Chemical Fractionation, Biochemistry, Mass Spectrometry, Cell Line, Mitochondrial Proteins, 03 medical and health sciences, Settore BIO/12 - BIOCHIMICA CLINICA E BIOLOGIA MOLECOLARE CLINICA, 0302 clinical medicine, medicine, Humans, Databases, Protein, Settore BIO/10 - BIOCHIMICA, Cell growth, Chemistry (all), Membrane Proteins, General Chemistry, Methyltransferases, Mitochondrial proteome, Cell biology, Mitochondria, Neoplasm Proteins, 030104 developmental biology, medicine.anatomical_structure, Cell culture, 030217 neurology & neurosurgery, RGS Proteins
Abstract

Mitochondria are undeniably the cell powerhouse, directly affecting cell survival and fate. Growing evidence suggest that mitochondrial protein repertoire affects metabolic activity and plays an important role in determining cell proliferation/differentiation or quiescence shift. Consequently, the bioenergetic status of a cell is associated with the quality and abundance of the mitochondrial populations and proteomes. Mitochondrial morphology changes in the development of different cellular functions associated with metabolic switches. It is therefore reasonable to speculate that different cell lines do contain different mitochondrial-associated proteins, and the investigation of these pools may well represent a source for mining missing proteins (MPs). A very effective approach to increase the number of IDs through mass spectrometry consists of reducing the complexity of the biological samples by fractionation. The present study aims at investigating the mitochondrial proteome of five phenotypically different cell lines, possibly expressing some of the MPs, through an enrichment-fractionation approach at the organelle and protein level. We demonstrate a substantial increase in the proteome coverage, which, in turn, increases the likelihood of detecting low abundant proteins, often falling in the category of MPs, and resulting, for the present study, in the identification of METTL12, FAM163A, and RGS13. All MS data have been deposited to the MassIVE data repository ( https://massive.ucsd.edu ) with the data set identifier MSV000082409 and PXD010446.

Published
2018

38. Biocompatibility assessment of haemodialysis membrane materials by proteomic investigations

Author

Renato Massoud, Mario Bonomini, Giorgio Fucci, Maurizio Ronci, Viviana Greco, Nicola Di Daniele, Andrea Urbani, A Capria, Stefano Condò, Paolo Felaco, Vittorio Sirolli, Luisa Pieroni, Sergio Bernardini, Silvia De Fulviis, Stefano Levi Mortera, Pieroni, Luisa, Levi, Mortera Stefano, Greco, Viviana, Sirolli, Vittorio, Ronci, Maurizio, Felaco, Paolo, Fucci, Giorgio, De Fulviis, Silvia, Massoud, Renato, Condò, Stefano, Capria, Ambrogio, Di Daniele, Nicola, Bernardini, Sergio, Urbani, Andrea, and Bonomini, Mario

Subjects
Male, Proteomics, Proteome, Biocompatibility, Biocompatible Materials, Kidney Failure, Renal Dialysis, haemodialysis membrane, 80 and over, Humans, Protein Interaction Maps, Platelet activation, Chronic, Shotgun proteomics, Settore BIO/10 - BIOCHIMICA, Molecular Biology, Aged, Aged, 80 and over, Membranes, Chemistry, Settore BIO/12, Proteins, Biomaterial, Membranes, Artificial, Middle Aged, Blood proteins, Targeted mass spectrometry, Membrane, Biochemistry, selected reaction monitoring, Artificial, Kidney Failure, Chronic, Female, Adsorption, plasma proteins, Biotechnology, Protein adsorption
Abstract

The exposure of blood to an artificial surface such as the haemodialysis membrane results in the nearly instantaneous deposition of a layer of plasma proteins. The composition of the protein layer profoundly influences all subsequent events, and to a large extent determines the biocompatibility of the biomaterial. In the present study, we examine the protein adsorption capacity and coagulation profiles of the polysulfone-based helixone material in comparison to cellulose triacetate. A differential profiling investigation using shotgun proteomics data-independent analysis was applied to eluates obtained with each membrane after a dialysis session, in order to assess the function of desorbed proteins. Functional classification and network analysis performed using bioinformatics tools shed light on the involvement of adsorbed proteins into important molecular processes, such as lipid transport and metabolism, cell growth differentiation and communication, and the coagulation cascade. The collected evidence was further validated by targeted mass spectrometry using selected reaction monitoring on proteotypic transitions of key protein effectors, confirming the different panels of adsorbed protein on each membrane. The coagulation profile during haemodialysis of patients under polysulfone-based helixone filter cartridges was also assessed showing a slightly higher platelet activation profile after the dialysis session. The overall collected evidence highlights a modulation of the coagulation biological pathway during haemodialysis, which is largely influenced by the biomaterial used. Refereed/Peer-reviewed

Published
2015

39. Direct Assessment of Plasma/Serum Sample Quality for Proteomics Biomarker Investigation

Author

Viviana, Greco, Cristian, Piras, Luisa, Pieroni, and Andrea, Urbani

Subjects
Proteomics, Quality Control, Serum, Plasma, Proteome, Diagnostic Tests, Routine, Animals, Humans, Blood Proteins, Prognosis, Biomarkers
Abstract

Blood proteome analysis for biomarker discovery represents one of the most challenging tasks to be achieved through clinical proteomics due to the sample complexity, such as the extreme heterogeneity of proteins in very dynamic concentrations, and to the observation of proper sampling and storage conditions. Quantitative and qualitative proteomics profiling of plasma and serum could be useful both for the early detection of diseases and for the evaluation of pathological status. Two main sources of variability can affect the precision and accuracy of the quantitative experiments designed for biomarker discovery and validation. These sources are divided into two categories, pre-analytical and analytical, and are often ignored; however, they can contribute to consistent errors and misunderstanding in biomarker research. In this chapter, we review critical pre-analytical and analytical variables that can influence quantitative proteomics. According to guidelines accepted by proteomics community, we propose some recommendations and strategies for a proper proteomics analysis addressed to biomarker studies.

Published
2017

40. MDM4 actively restrains cytoplasmic mTORC1 by sensing nutrient availability

Author

Francesca Mancini, Valentina Monteleone, Andrea Urbani, Emanuela Teveroni, Alfredo Pontecorvi, Marsha Pellegrino, Mara D'Onofrio, Massimiliano Mazzone, Luisa Pieroni, Giusy Di Conza, Fabiola Moretti, Ivan Arisi, and Marianna Buttarelli

Subjects
Male, 0301 basic medicine, Genetically modified mouse, Cancer Research, mdm4, Cell Survival, Cell Cycle Proteins, mTORC1, Mechanistic Target of Rapamycin Complex 1, Biology, Cell Line, Mice, 03 medical and health sciences, Aminoacid, breast cancer, Neoplasms, Proto-Oncogene Proteins, cancer, Animals, Humans, Phosphorylation, Nutrient deprivation, PI3K/AKT/mTOR pathway, Cell Proliferation, P53, Kinase, Cell growth, Research, Ribosomal Protein S6 Kinases, TOR Serine-Threonine Kinases, Cell Cycle, Nuclear Proteins, Ribosomal Protein S6 Kinases, 70-kDa, Cell cycle, 70-kDa, 030104 developmental biology, Oncology, Cell culture, Multiprotein Complexes, MDM4, MTOR, Protein Binding, Signal Transduction, mTOR, Cancer research, Molecular Medicine, Signal transduction, metabolism
Abstract

Background Many tumor-related factors have shown the ability to affect metabolic pathways by paving the way for cancer-specific metabolic features. Here, we investigate the regulation of mTORC1 by MDM4, a p53-inhibitor with oncogenic or anti-survival activities depending on cell growth conditions. Method MDM4-mTOR relationship was analysed through experiments of overexpression or silencing of endogenous proteins in cell culture and using purified proteins in vitro. Data were further confirmed in vivo using a transgenic mouse model overexpressing MDM4. Additionally, the Cancer Genome Atlas (TCGA) database (N = 356) was adopted to analyze the correlation between MDM4 and mTOR levels and 3D cultures were used to analyse the p53-independent activity of MDM4. Results Following nutrient deprivation, MDM4 impairs mTORC1 activity by binding and inhibiting the kinase mTOR, and contributing to maintain the cytosolic inactive pool of mTORC1. This function is independent of p53. Inhibition of mTORC1 by MDM4 results in reduced phosphorylation of the mTOR downstream target p70S6K1 both in vitro and in vivo in a MDM4-transgenic mouse. Consistently, MDM4 reduces cell size and proliferation, two features controlled by p70S6K1, and, importantly, inhibits mTORC1-mediated mammosphere formation. Noteworthy, MDM4 transcript levels are significantly reduced in breast tumors characterized by high mTOR levels. Conclusion Overall, these data identify MDM4 as a nutrient-sensor able to inhibit mTORC1 and highlight its metabolism-related tumor-suppressing function. Electronic supplementary material The online version of this article (doi:10.1186/s12943-017-0626-7) contains supplementary material, which is available to authorized users.

Published
2017

41. Direct Assessment of Plasma/Serum Sample Quality for Proteomics Biomarker Investigation

Author

Viviana Greco, Cristian Piras, Andrea Urbani, and Luisa Pieroni

Subjects
0301 basic medicine, Direct assessment, Computer science, Quantitative proteomics, Computational biology, Proteomics, Mass spectrometry, Sample quality, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Proteome, Biomarker (medicine), Biomarker discovery, Plasma serum
Abstract

Blood proteome analysis for biomarker discovery represents one of the most challenging tasks to be achieved through clinical proteomics due to the sample complexity, such as the extreme heterogeneity of proteins in very dynamic concentrations, and to the observation of proper sampling and storage conditions. Quantitative and qualitative proteomics profiling of plasma and serum could be useful both for the early detection of diseases and for the evaluation of pathological status. Two main sources of variability can affect the precision and accuracy of the quantitative experiments designed for biomarker discovery and validation. These sources are divided into two categories, pre-analytical and analytical, and are often ignored; however, they can contribute to consistent errors and misunderstanding in biomarker research. In this chapter, we review critical pre-analytical and analytical variables that can influence quantitative proteomics. According to guidelines accepted by proteomics community, we propose some recommendations and strategies for a proper proteomics analysis addressed to biomarker studies.

Published
2017

42. Toward the Standardization of Mitochondrial Proteomics: The Italian Mitochondrial Human Proteome Project Initiative

Author

Andrea Urbani, Marianna Caterino, Elisa Maffioli, Cristina Banfi, Tiziana Alberio, Barbara Garavaglia, Luisa Pieroni, Simona Fontana, Roberto Scatena, Giuseppe Petrosillo, Paola Roncada, Vito Porcelli, Patrizia Bottoni, Clara Musicco, Laura Giusti, Mara Zilocchi, Antonio Lucacchini, Gabriella Tedeschi, Fulvio Magni, Vincenzo Cunsolo, Valentina Monti, Flora Cozzolino, Italia Bongarzone, Alessio Soggiu, Viviana Greco, Rosaria Saletti, Francesca Monteleone, Clizia Chinello, Mauro Fasano, Maura Brioschi, Antonella Cormio, Maurizio Ronci, Maria Chiara Monti, Alberio, Tiziana, Pieroni, Luisa, Ronci, Maurizio, Banfi, Cristina, Bongarzone, Italia, Bottoni, Patrizia, Brioschi, Maura, Caterino, Marianna, Chinello, Clizia, Cormio, Antonella, Cozzolino, Flora, Cunsolo, Vincenzo, Fontana, Simona, Garavaglia, Barbara, Giusti, Laura, Greco, Viviana, Lucacchini, Antonio, Maffioli, Elisa, Magni, Fulvio, Monteleone, Francesca, Monti, Maria, Monti, Valentina, Musicco, Clara, Petrosillo, Giuseppe, Porcelli, Vito, Saletti, Rosaria, Scatena, Roberto, Soggiu, Alessio, Tedeschi, Gabriella, Zilocchi, Mara, Roncada, Paola, Urbani, Andrea, and Fasano, Mauro

Subjects
Proteomics, 0301 basic medicine, Proteome, Standardization, Computational biology, Biology, Mitochondrion, Bioinformatics, Biochemistry, enrichment protocol, mitochondria, Mitochondrial Human Proteome Project, standardization, Cell Line, Mitochondrial Proteins, 03 medical and health sciences, 0302 clinical medicine, Tandem Mass Spectrometry, Human proteome project, Humans, Protein Interaction Maps, Settore BIO/10 - BIOCHIMICA, Mitochondrial protein, Chromatography, Liquid, NeXtProt, Chemistry (all), General Chemistry, 030104 developmental biology, Italy, Reference database, Chromatography, Liquid, Mitochondria, 030217 neurology & neurosurgery
Abstract

The Mitochondrial Human Proteome Project aims at understanding the function of the mitochondrial proteome and its crosstalk with the proteome of other organelles. Being able to choose a suitable and validated enrichment protocol of functional mitochondria, based on the specific needs of the downstream proteomics analysis, would greatly help the researchers in the field. Mitochondrial fractions from ten model cell lines were prepared using three enrichment protocols and analyzed on seven different LC-MS/MS platforms. All data were processed using neXtProt as reference database. The data are available for the Human Proteome Project purposes through the ProteomeXchange Consortium with the identifier PXD007053. The processed data sets were analyzed using a suite of R routines to perform a statistical analysis and to retrieve subcellular and submitochondrial localizations. Although the overall number of identified total and mitochondrial proteins was not significantly dependent on the enrichment protocol, specific line to line differences were observed. Moreover, the protein lists were mapped to a network representing the functional mitochondrial proteome, encompassing mitochondrial proteins and their first interactors. More than 80% of the identified proteins resulted in nodes of this network but with a different ability in coisolating mitochondria-associated structures for each enrichment protocol/cell line pair.

Published
2017

43. A metaproteomic pipeline to identify newborn mouse gut phylotypes

Author

Andrea Urbani, A. Petrucca, Rita Carsetti, Lorenza Putignani, Maria Manuela Rosado, Federica Del Chierico, Luisa Pieroni, Pamela Vernocchi, Stefano Levi Mortera, Del Chierico, Federica, Petrucca, Andrea, Mortera, Stefano Levi, Vernocchi, Pamela, Rosado, Maria M., Pieroni, Luisa, Carsetti, Rita, Urbani, Andrea, and Putignani, Lorenza

Subjects
Proteomics, Proteome, Firmicutes, Knockout, MALDI-TOF MS proteomics, Biophysics, MALDI-TOF MS proteomic, Computational biology, Gut flora, Early life gut microbiota phylotype, Biochemistry, Microbiology, Mouse model, Mice, Proteobacteria, Animals, Humans, Metaproteomic pipeline, Mice, Inbred BALB C, Mice, Knockout, Early life gut microbiota phylotypes, Animals, Newborn, Intestines, Intestinal Mucosa, Settore BIO/10 - BIOCHIMICA, Inbred BALB C, Phylotype, biology, Phylum, Animal, Settore BIO/12, Proteomic, biology.organism_classification, Newborn, Enterobacteriaceae, Intestine, Microbial population biology, Human
Abstract

In order to characterize newborn mouse gut microbiota phylotypes in very early-life stages, an original metaproteomic pipeline, based on LC–MS 2 -spectra and Mascot driven NCBI non-redundant repository database interrogation was developed. An original computational analysis assisted in the generation of a taxonomic gut architecture from protein hits to operational taxonomic units (OTUs) and related functional categories. Regardless of the mouse's genetic background, a prevalence of Firmicutes (Lactobacillaceae) and Proteobacteria (Enterobacteriaceae) was observed among the entire Eubacteria taxonomic node. However, a higher abundance of Firmicutes was retrieved for Balb/c gut microbiota compared to Rag2 ko mice, the latter was mainly characterized by a Proteobacteria enriched microbiota. The metaproteomic-obtained OTUs were supported, for the identification (ID) of the cultivable bacteria fraction, corroborated by axenic culture-based MALDI-TOF MS IDs. Particularly, functional analysis of Rag2 ko mice gut microbiota proteins revealed the presence of abundant glutathione, riboflavin metabolism and pentose phosphate pathway components, possibly related to genetic background. The metaproteomic pipeline herein presented may represent a useful tool to investigate the highly debated onset of the human gut microbiota in the first days of life, when the bacterial composition, despite its very low diversity (complexity), is still very far from an exhaustive description and other complex microbial consortia. Biological significance The manuscript deals with a “frontier” topic regarding the study of the gut microbiota and the application of a metaproteomic pipeline to unveil the complexity of this fascinating ecosystem at the very early stages of life. Indeed during these phases, its diversity is very low but the bacterial content is highly “instable”, and the relative balance between mucosal and fecal bacteria starts its dynamics of “fight” to get homeostasis. However, in the neonatal period, especially immediately after birth, a comprehensive description of this microbial eco-organ is still lacking, while it should be mandatory to highlight its first mechanisms of homeostasis and perturbation, while it co-develops with and within the host species. In order to unravel its low but almost unknown microbial community multiplicity, the newborn mouse gut, characterized by a “very” low complexity, was herein selected as model to design a LC–MS 2 -based shotgun metaproteomic approach, potentially suitable to study onset and shaping in human newborns. A microbiological semi-automatic computational analysis was performed to infer gut phylotypes; such as proof of evidence, related OTUs were compared to axenic-culture-based MALDI-TOF MS IDs showing consistency at family and phyla levels for the bacterial cultivable fraction. This article is part of a Special Issue entitled: Trends in Microbial Proteomics.

Published
2014
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44. Monitoring perinatal gut microbiota in mouse models by mass spectrometry approaches: Parental genetic background and breastfeeding effects

Author

Stefano Levi Mortera, Federica Del Chierico, Pamela Vernocchi, Maria Manuela Rosado, Agnese Cavola, Marco Chierici, Luisa Pieroni, Andrea Urbani, Rita Carsetti, Isabella Lante, Bruno Dallapiccola, Lorenza Putignani, Mortera, Stefano Levi, Del Chierico, Federica, Vernocchi, Pamela, Rosado, Maria M., Cavola, Agnese, Chierici, Marco, Pieroni, Luisa, Urbani, Andrea, Carsetti, Rita, Lante, Isabella, Dallapiccola, Bruno, and Putignani, Lorenza

Subjects
0301 basic medicine, Microbiology (medical), Population, lcsh:QR1-502, Host genetics and maternal milk induced metaproteome, Gut flora, Breast milk, medicine.disease_cause, Microbiology, maternal milk induced metaproteomics, lcsh:Microbiology, MGM programming phylotypes, 03 medical and health sciences, Immune system, MGM metaproteomic, medicine, education, Settore BIO/10 - BIOCHIMICA, axenic culture-based MALDI–TOF MS, Axenic culture-based MALDI-TOF MS, Original Research, education.field_of_study, biology, Pathogenic bacteria, biology.organism_classification, medicine.disease, MGM programming phylotype, 030104 developmental biology, Immunology, Breast feeding, Dysbiosis, MGM metaproteomics, Bacteria, Mouse gut microbiota (MGM)
Abstract

At birth, contact with external stimuli, such as nutrients derived from food, is necessary to modulate the symbiotic balance between commensal and pathogenic bacteria, protect against bacterial dysbiosis, and initiate the development of the mucosal immune response. Among a variety of different feeding patterns, breastfeeding represents the best modality. In fact, the capacity of breast milk to modulate the composition of infants' gut microbiota leads to beneficial effects on their health. In this study, we used newborn mice as a model to evaluate the effect of parental genetic background (i.e., IgA-producing mice and IgA-deficient mice) and feeding modulation (i.e., maternal feeding and cross-feeding) on the onset and shaping of gut microbiota after birth. To investigate these topics, we used either a culturomic approach that employed Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry (MS), or bottom-up Liquid Chromatography, with subsequent MSMS shotgun metaproteomic analysis that compared and assembled results of the two techniques. We found that the microbial community was enriched by lactic acid bacteria when pups were breastfed by wild-type (WT) mothers, while IgA-deficient milk led to an increase in the opportunistic bacterial pathogen (OBP) population. Cross-feeding results suggested that IgA supplementation promoted the exclusion of some OBPs and the temporary appearance of beneficial species in pups fed by WT foster mothers. Our results show that both techniques yield a picture of microbiota from different angles and with varying depths. In particular, our metaproteomic pipeline was found to be a reliable tool in the description of microbiota. Data from these studies are available via ProteomeXchange, with identifier PXD004033.

Published
2016

45. 17beta-estradiol counteracts neuropathic pain: a behavioral, immunohistochemical, and proteomic investigation on sex-related differences in mice

Author

Siro Luvisetto, Sara Marinelli, Valentina Vacca, Luisa Pieroni, Andrea Urbani, and Flaminia Pavone

Subjects
0301 basic medicine, Male, Pain Threshold, medicine.medical_specialty, medicine.medical_treatment, Analgesic, Myosins, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Internal medicine, medicine, Animals, Gliosis, Ligature, Ligation, Settore BIO/10 - BIOCHIMICA, Pain Measurement, Analgesics, Sex Characteristics, Multidisciplinary, Estradiol, business.industry, Gene Expression Profiling, Molecular Sequence Annotation, 17beta estradiol, Sciatic Nerve, Surgery, Nerve Regeneration, 030104 developmental biology, Endocrinology, Allodynia, Gene Expression Regulation, Hyperalgesia, Neuropathic pain, Immunohistochemistry, Keratins, Neuralgia, Female, Sciatic nerve, medicine.symptom, ESTROGEN-RECEPTOR-ALPHA, business, 030217 neurology & neurosurgery, SPINAL DORSAL-HORN
Abstract

Sex differences play a role in pain sensitivity, efficacy of analgesic drugs and prevalence of neuropathic pain, even if the underlying mechanisms are far from being understood. We demonstrate that male and female mice react differently to structural and functional changes induced by sciatic nerve ligature, used as model of neuropathic pain. Male mice show a gradual decrease of allodynia and a complete recovery while, in females, allodynia and gliosis are still present four months after neuropathy induction. Administration of 17β-estradiol is able to significantly attenuate this difference, reducing allodynia and inducing a complete recovery also in female mice. Parallel to pain attenuation, 17β-estradiol treated-mice show a functional improvement of the injured limb, a faster regenerative process of the peripheral nerve and a decreased neuropathy-induced gliosis. These results indicate beneficial effects of 17β-estradiol on neuropathic pain and neuronal regeneration and focuses on the importance of considering gonadal hormones also in clinical studies.

Published
2016

46. MDM4/HIPK2/p53 cytoplasmic assembly uncovers coordinated repression of molecules with anti-apoptotic activity during early DNA damage response

Author

Emilia Luca, Rossella Lucà, Riccardo Masetti, Silvia Soddu, S. Xiong, G. Lozano, Alfredo Pontecorvi, Luisa Pieroni, Valentina Monteleone, Francesca Mancini, Fabiola Moretti, Andrea Urbani, and Laura Fici

Subjects
0301 basic medicine, p53, Cancer Research, Cytoplasm, MDMX, DNA damage, Ubiquitin-Protein Ligases, Molecular Sequence Data, Cell Cycle Proteins, Mice, Transgenic, HIPK2, Protein Serine-Threonine Kinases, 03 medical and health sciences, MDM4, CELL-CYCLE ARREST, Downregulation and upregulation, Proto-Oncogene Proteins, Genetics, Serine, Animals, Humans, Nuclear protein, Molecular Biology, Psychological repression, Settore BIO/10 - BIOCHIMICA, biology, Base Sequence, INTERACTING PROTEIN KINASE-2, Kinase, apoptosis, Nuclear Proteins, Epithelial Cells, Settore MED/13 - ENDOCRINOLOGIA, Fibroblasts, HCT116 Cells, Molecular biology, Mice, Inbred C57BL, 030104 developmental biology, Ser46, biology.protein, Mdm2, Phosphorylation, Original Article, Female, Tumor Suppressor Protein p53, Carrier Proteins, DNA Damage
Abstract

The p53 inhibitor, MDM4 (MDMX) is a cytoplasmic protein with p53-activating function under DNA damage conditions. Particularly, MDM4 promotes phosphorylation of p53 at Ser46, a modification that precedes different p53 activities. We investigated the mechanism by which MDM4 promotes this p53 modification and its consequences in untransformed mammary epithelial cells and tissues. In response to severe DNA damage, MDM4 stimulates p53Ser46(P) by binding and stabilizing serine-threonine kinase HIPK2. Under these conditions, the p53-inhibitory complex, MDM4/MDM2, dissociates and this allows MDM4 to promote p53/HIPK2 functional interaction. Comparative proteomic analysis of DNA damage-treated cells versus -untreated cells evidenced a diffuse downregulation of proteins with anti-apoptotic activity, some of which were targets of p53Ser46(P)/HIPK2 repressive activity. Importantly, MDM4 depletion abolishes the downregulation of these proteins indicating the requirement of MDM4 to promote p53-mediated transcriptional repression. Consistently, MDM4-mediated HIPK2/p53 activation precedes HIPK2/p53 nuclear translocation and activity. Noteworthy, repression of these proteins was evident also in mammary glands of mice subjected to γ-irradiation and was significantly enhanced in transgenic mice overexpressing MDM4. This study evidences the flexibility of MDM2/MDM4 heterodimer, which allows the development of a positive activity of cytoplasmic MDM4 towards p53-mediated transcriptional function. Noteworthy, this activity uncovers coordinated repression of molecules with shared anti-apoptotic function which precedes active cell apoptosis and that are frequently overexpressed and/or markers of tumour phenotype in human cancer.

Published
2016

47. Proteomics and Toxicity Analysis of Spinal-Cord Primary Cultures upon Hydrogen Sulfide Treatment

Author

Silvia Persichilli, Victor Corasolla Carregari, Patrizia Longone, Alida Spalloni, Viviana Greco, Nicola Biagio Mercuri, Luisa Pieroni, and Andrea Urbani

Subjects
0301 basic medicine, Programmed cell death, Physiology, Necroptosis, Clinical Biochemistry, hydrogen sulfide, necroptosis, Endogeny, Pharmacology, medicine.disease_cause, Biochemistry, Article, 03 medical and health sciences, proteomics, medicine, Amyotrophic lateral sclerosis, motor neuron, Settore BIO/10 - BIOCHIMICA, Molecular Biology, Chemistry, lcsh:RM1-950, apoptosis, Cell Biology, Motor neuron, equipment and supplies, medicine.disease, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, medicine.anatomical_structure, Apoptosis, Toxicity, Oxidative stress
Abstract

Hydrogen sulfide (H2S) is an endogenous gasotransmitter recognized as an essential body product with a dual, biphasic action. It can function as an antioxidant and a cytoprotective, but also as a poison with a high probability of causing brain damage when present at noxious levels. In a previous study, we measured toxic liquoral levels of H2S in sporadic amyotrophic lateral sclerosis (ALS) patients and in the familial ALS (fALS) mouse model, SOD1G93A. In addition, we experimentally demonstrated that H2S is extremely and selectively toxic to motor neurons, and that it is released by glial cells and increases Ca2+ concentration in motor neurons due to a lack of ATP. The presented study further examines the effect of toxic concentrations of H2S on embryonic mouse spinal-cord cultures. We performed a proteomic analysis that revealed a significant H2S-mediated activation of pathways related to oxidative stress and cell death, particularly the Nrf-2-mediated oxidative stress response and peroxiredoxins. Furthermore, we report that Na2S (a stable precursor of H2S) toxicity is, at least in part, reverted by the Bax inhibitor V5 and by necrostatin, a potent necroptosis inhibitor.

Published
2018

48. Cystic fibrosis transmembrane conductance regulator (CFTR) expression in human platelets: impact on mediators and mechanisms of the inflammatory response

Author

Assunta Pandolfi, Luisa Pieroni, Nicola Martelli, Luca Battistini, Daniela F. Angelini, Antonio Recchiuti, Iole Robuffo, Stefano Manarini, Maria Lucia Furnari, Tiziana Pensabene, Giovanna Petrucci, Sara Di Silvestre, Stefano Lancellotti, Francesca Pardo, Mario R. Romano, Virgilio Evangelista, Serena Quattrucci, Domenico Mattoscio, Raimondo De Cristofaro, Giovanni Davì, and Bianca Rocca

Subjects
Blood Platelets, Male, Settore BIO/14 - FARMACOLOGIA, lipoxin, Cystic Fibrosis Transmembrane Conductance Regulator, Apoptosis, Inflammation, Pharmacology, platelet-leukocyte interaction, Biochemistry, Cystic fibrosis, Cell Line, Nitric oxide, cystic fibrosis, chemistry.chemical_compound, Microscopy, Electron, Transmission, nitric oxide, Genetics, medicine, Humans, Platelet, Phosphorylation, Molecular Biology, Protein kinase B, Lipoxin, biology, Reverse Transcriptase Polymerase Chain Reaction, Chemistry, medicine.disease, Immunohistochemistry, Cystic fibrosis transmembrane conductance regulator, inflammation resolution, Immunology, biology.protein, Female, Inflammation Mediators, medicine.symptom, Protein Kinases, Biotechnology
Abstract

Inflammatory lung disease is a primary cause of morbidity and mortality in cystic fibrosis (CF). Mechanisms of unresolved acute inflammation in CF are not completely known, although the involvement of cystic fibrosis transmembrane conductance regulator (CFTR) in nonrespiratory cells is emerging. Here we examined CFTR expression and function in human platelets (PLTs) and found that they express a biologically active CFTR. CFTR blockade gave an ∼50% reduction in lipoxin A(4) (LXA(4)) formation during PLT/polymorphonuclear leukocytes (PMN) coincubations by inhibiting the lipoxin synthase activity of PLT 12-lipoxygenase. PLTs from CF patients generated ∼40% less LXA(4) compared to healthy subject PLTs. CFTR inhibition increased PLT-dependent PMN viability (33.0±5.7 vs. 61.2±8.2%; P=0.033), suppressed nitric oxide generation (0.23±0.04 vs. 0.11±0.002 pmol/10(8) PLTs; P=0.004), while reducing AKT (1.02±0.12 vs. 0.71±0.007 U; P=0.04), and increasing p38 MAPK phosphorylation (0.650±0.09 vs. 1.04±0.24 U; P=0.03). Taken together, these findings indicate that PLTs from CF patients are affected by the molecular defect of CFTR. Moreover, this CF PLT abnormality may explain the failure of resolution in CF.

Published
2010

49. Exosomal clusterin, identified in the pericardial fluid, improves myocardial performance following MI through epicardial activation, enhanced arteriogenesis and reduced apoptosis

Author

Pasquale Fasanaro, Matteo Antonio Russo, Luigi Coppola, Eleonora Foglio, Antonia Germani, Stefano Fais, Giovanni Puddighinu, Daniela D'Arcangelo, Ciro Campanella, Francesca Marzoli, Mariantonia Logozzi, David Mocini, Giulietta A. Perrone, Federica Limana, Luisa Pieroni, Valeria Marzano, Tommaso Azzarito, and Maurizio C. Capogrossi

Subjects
Male, Pathology, medicine.medical_specialty, Myocardial Infarction, Apoptosis, Exosomes, Cardiac repair, Mice, In vivo, medicine, Animals, Humans, Myocardial infarction, Progenitor cell, Aged, Aged, 80 and over, Epicardial cells, Clusterin, biology, business.industry, Myocardium, EMT, Pericardial fluid, Middle Aged, medicine.disease, Coronary Vessels, Microvesicles, Molecular rehabilitation, Mice, Inbred C57BL, Cancer research, biology.protein, Pericardial Fluid, Female, Arteriogenesis, Cardiology and Cardiovascular Medicine, business, Pericardium, Biomarkers
Abstract

Background We recently demonstrated that epicardial progenitor cells participate in the regenerative response to myocardial infarction (MI) and factors released in the pericardial fluid (PF) may play a key role in this process. Exosomes are secreted nanovesicles of endocytic origin, identified in most body fluids, which may contain molecules able to modulate a variety of cell functions. Here, we investigated whether exosomes are present in the PF and their potential role in cardiac repair. Methods and results Early gene expression studies in 3day-infarcted mouse hearts showed that PF induces epithelial-to-mesenchymal transition (EMT) in epicardial cells. Exosomes were identified in PFs from non-infarcted patients (PFC) and patients with acute MI (PFMI). A shotgun proteomics analysis identified clusterin in exosomes isolated from PFMI but not from PFC. Notably, clusterin has a protective effect on cardiomyocytes after acute MI in vivo and is an important mediator of TGFβ-induced. Clusterin addition to the pericardial sac determined an increase in epicardial cells expressing the EMT marker α-SMA and, interestingly, an increase in the number of epicardial cells ckit + /α-SMA + , 7days following MI. Importantly, clusterin treatment enhanced arteriolar length density and lowered apoptotic rates in the peri-infarct area. Hemodynamic studies demonstrated an improvement in cardiac function in clusterin-treated compared to untreated infarcted hearts. Conclusions Exosomes are present and detectable in the PFs. Clusterin was identified in PFMI-exosomes and might account for an improvement in myocardial performance following MI through a framework including EMT-mediated epicardial activation, arteriogenesis and reduced cardiomyocyte apoptosis.

Published
2015

50. Glucagon-like peptide 1 protects INS-1E mitochondria against palmitate-mediated beta-cell dysfunction: a proteomic study

Author

Isabella Piga, Piero Marchetti, Andrea Urbani, Maurizio Ronci, Luisa Pieroni, Antonio Lucacchini, Marco Bugliani, Federica Ciregia, Claudia Rossi, Laura Giusti, Ciregia, Federica, Giusti, Laura, Ronci, Maurizio, Bugliani, Marco, Piga, Isabella, Pieroni, Luisa, Rossi, Claudia, Marchetti, Piero, Urbani, Andrea, Lucacchini, Antonio, Ciregia, F, Giusti, L, Ronci, M, Bugliani, M, Piga, I, Pieroni, L, Rossi, C, Marchetti, P, Urbani, A, and Lucacchini, A

Subjects
Proteomics, Proteome, islet transcriptome, Palmitates, Mitochondrion, Biology, medicine.disease_cause, Cell Line, resistance, Glucagon-Like Peptide 1, Insulin-Secreting Cells, expression, medicine, Animals, Insulin, oxidative stress, glucose, Molecular Biology, apoptosis, Proteins, lipotoxicity, Glucagon-like peptide-1, Cell biology, Mitochondria, Rats, induced insulin-secretion, Lipotoxicity, Biochemistry, Cell culture, Apoptosis, Biotechnology, Molecular Biology, Proteomics, atherosclerosis, Oxidative stress, Function (biology), fatty-acid palmitate
Abstract

Prolonged exposure to palmitate impairs insulin secretion and leads to beta-cell death. Some evidence suggests that palmitate could induce these effects through defects in mitochondrial function. However, the mechanisms of lipotoxicity are not well understood. In particular, little is known about mitochondrial response to induced-palmitate stress and the mechanisms through which glucagon-like peptide-1 (GLP-1) exerts its potential protective effect in beta-cell mitochondrial dysfunction. The aim of this study was to analyze the protein expression profiles of enriched mitochondrial preparations of INS-1E beta-cells treated with palmitate in the presence and in the absence of GLP-1 using gel-based and gel-free proteomic approaches. INS1E beta-cells were incubated in the presence of 0.5 mM palmitate for 24 h, in the presence and in the absence of 10 nM GLP-1, and mitochondria were isolated. Co-incubation of palmitate-treated beta-cell lines with GLP-1 identified several GLP-1 responsive mitochondrial proteins from different functional classes indicating major changes in ATP production, oxidative stress, apoptosis, lipid and amino acid metabolism. Moreover, an interaction network analysis of proteins and metabolites found to be differentially expressed has been performed to understand the pathways involved in the palmitate and GLP-1 activity at the mitochondrial level. In summary, our results provided a snapshot of mitochondrial proteins and potential pathways affected by palmitate treatment and gave us information on the potential protective role of GLP-1. Refereed/Peer-reviewed

Published
2015

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