Your search keyword '"Emilio Marengo"' showing total 4 results

1. Calcineurin Controls Cellular Prion Protein Expression in Mouse Astrocytes

Author

Giulia Dematteis, Elena Restelli, Virginia Vita Vanella, Marcello Manfredi, Emilio Marengo, Marco Corazzari, Armando A. Genazzani, Roberto Chiesa, Dmitry Lim, and Laura Tapella

Subjects

astrocytes, calcineurin, FK506, prion protein, protein synthesis, calcium, Cytology, QH573-671

Abstract

Prion diseases arise from the conformational conversion of the cellular prion protein (PrPC) into a self-replicating prion isoform (PrPSc). Although this process has been studied mostly in neurons, a growing body of evidence suggests that astrocytes express PrPC and are able to replicate and accumulate PrPSc. Currently, prion diseases remain incurable, while downregulation of PrPC represents the most promising therapy due to the reduction of the substrate for prion conversion. Here we show that the astrocyte-specific genetic ablation or pharmacological inhibition of the calcium-activated phosphatase calcineurin (CaN) reduces PrPC expression in astrocytes. Immunocytochemical analysis of cultured CaN-KO astrocytes and isolation of synaptosomal compartments from the hippocampi of astrocyte-specific CaN-KO (ACN-KO) mice suggest that PrPC is downregulated both in vitro and in vivo. The downregulation occurs without affecting the glycosylation of PrPC and without alteration of its proteasomal or lysosomal degradation. Direct assessment of the protein synthesis rate and shotgun mass spectrometry proteomics analysis suggest that the reduction of PrPC is related to the impairment of global protein synthesis in CaN-KO astrocytes. When WT-PrP and PrP-D177N, a mouse homologue of a human mutation associated with the inherited prion disease fatal familial insomnia, were expressed in astrocytes, CaN-KO astrocytes showed an aberrant localization of both WT-PrP and PrP-D177N variants with predominant localization to the Golgi apparatus, suggesting that ablation of CaN affects both WT and mutant PrP proteins. These results provide new mechanistic details in relation to the regulation of PrP expression in astrocytes, suggesting the therapeutic potential of astroglial cells.

Published

2022

2. The Anti-Apoptotic Effect of ASC-Exosomes in an In Vitro ALS Model and Their Proteomic Analysis

Author

Roberta Bonafede, Jessica Brandi, Marcello Manfredi, Ilaria Scambi, Lorenzo Schiaffino, Flavia Merigo, Ermanna Turano, Bruno Bonetti, Emilio Marengo, Daniela Cecconi, and Raffaella Mariotti

Subjects

extracellular vesicles, proteomic profiling, mesenchymal stem cells, amyotrophic lateral sclerosis, apoptosis, therapy, Cytology, QH573-671

Abstract

Stem cell therapy represents a promising approach in the treatment of several neurodegenerative disorders, including amyotrophic lateral sclerosis (ALS). The beneficial effect of stem cells is exerted by paracrine mediators, as exosomes, suggesting a possible potential use of these extracellular vesicles as non-cell based therapy. We demonstrated that exosomes isolated from adipose stem cells (ASC) display a neuroprotective role in an in vitro model of ALS. Moreover, the internalization of ASC-exosomes by the cells was shown and the molecules and the mechanisms by which exosomes could exert their beneficial effect were addressed. We performed for the first time a comprehensive proteomic analysis of exosomes derived from murine ASC. We identified a total of 189 proteins and the shotgun proteomics analysis revealed that the exosomal proteins are mainly involved in cell adhesion and negative regulation of the apoptotic process. We correlated the protein content to the anti-apoptotic effect of exosomes observing a downregulation of pro-apoptotic proteins Bax and cleaved caspase-3 and upregulation of anti-apoptotic protein Bcl-2 α, in an in vitro model of ALS after cell treatment with exosomes. Overall, this study shows the neuroprotective effect of ASC-exosomes after their internalization and their global protein profile, that could be useful to understand how exosomes act, demonstrating that they can be employed as therapy in neurodegenerative diseases.

Published

2019

3. New Insights into the Runt Domain of RUNX2 in Melanoma Cell Proliferation and Migration

Author

Michela Deiana, Luca Dalle Carbonare, Michela Serena, Samuele Cheri, Francesca Parolini, Alberto Gandini, Giulia Marchetto, Giulio Innamorati, Marcello Manfredi, Emilio Marengo, Jessica Brandi, Daniela Cecconi, Antonio Mori, Maria Mihaela Mina, Franco Antoniazzi, Monica Mottes, Natascia Tiso, Giovanni Malerba, Donato Zipeto, and Maria Teresa Valenti

Subjects

RUNT, RUNX2, CRISPR/Cas9, melanoma, Cytology, QH573-671

Abstract

The mortality rate for malignant melanoma (MM) is very high, since it is highly invasive and resistant to chemotherapeutic treatments. The modulation of some transcription factors affects cellular processes in MM. In particular, a higher expression of the osteogenic master gene RUNX2 has been reported in melanoma cells, compared to normal melanocytes. By analyzing public databases for recurrent RUNX2 genetic and epigenetic modifications in melanoma, we found that the most common RUNX2 genetic alteration that exists in transcription upregulation is, followed by genomic amplification, nucleotide substitution and multiple changes. Additionally, altered RUNX2 is involved in unchecked pathways promoting tumor progression, Epithelial Mesenchymal Transition (EMT), and metastasis. In order to investigate further the role of RUNX2 in melanoma development and to identify a therapeutic target, we applied the CRISPR/Cas9 technique to explore the role of the RUNT domain of RUNX2 in a melanoma cell line. RUNT-deleted cells showed reduced proliferation, increased apoptosis, and reduced EMT features, suggesting the involvement of the RUNT domain in different pathways. In addition, del-RUNT cells showed a downregulation of genes involved in migration ability. In an in vivo zebrafish model, we observed that wild-type melanoma cells migrated in 81% of transplanted fishes, while del-RUNT cells migrated in 58%. All these findings strongly suggest the involvement of the RUNT domain in melanoma metastasis and cell migration and indicate RUNX2 as a prospective target in MM therapy.

Published

2018

4. The Anti-Apoptotic Effect of ASC-Exosomes in an In Vitro ALS Model and Their Proteomic Analysis

Author

Ermanna Turano, Jessica Brandi, Roberta Bonafede, Marcello Manfredi, Bruno Bonetti, Raffaella Mariotti, Daniela Cecconi, Emilio Marengo, Flavia Merigo, Lorenzo Schiaffino, and Ilaria Scambi

Subjects

Proteomics, amyotrophic lateral sclerosis, medicine.medical_treatment, media_common.quotation_subject, proteomic profiling, Cell, Exosomes, Models, Biological, Article, Mice, Paracrine signalling, Downregulation and upregulation, Adipocytes, medicine, Animals, Internalization, lcsh:QH301-705.5, Cells, Cultured, media_common, mesenchymal stem cells, therapy, Chemistry, Stem Cells, Mesenchymal stem cell, apoptosis, General Medicine, Stem-cell therapy, Microvesicles, Cell biology, Mice, Inbred C57BL, Neuroprotective Agents, medicine.anatomical_structure, lcsh:Biology (General), extracellular vesicles, Stem cell

Abstract

Stem cell therapy represents a promising approach in the treatment of several neurodegenerative disorders, including amyotrophic lateral sclerosis (ALS). The beneficial effect of stem cells is exerted by paracrine mediators, as exosomes, suggesting a possible potential use of these extracellular vesicles as non-cell based therapy. We demonstrated that exosomes isolated from adipose stem cells (ASC) display a neuroprotective role in an in vitro model of ALS. Moreover, the internalization of ASC-exosomes by the cells was shown and the molecules and the mechanisms by which exosomes could exert their beneficial effect were addressed. We performed for the first time a comprehensive proteomic analysis of exosomes derived from murine ASC. We identified a total of 189 proteins and the shotgun proteomics analysis revealed that the exosomal proteins are mainly involved in cell adhesion and negative regulation of the apoptotic process. We correlated the protein content to the anti-apoptotic effect of exosomes observing a downregulation of pro-apoptotic proteins Bax and cleaved caspase-3 and upregulation of anti-apoptotic protein Bcl-2 &alpha, in an in vitro model of ALS after cell treatment with exosomes. Overall, this study shows the neuroprotective effect of ASC-exosomes after their internalization and their global protein profile, that could be useful to understand how exosomes act, demonstrating that they can be employed as therapy in neurodegenerative diseases.

Published

2019