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3. Exosomes/EVs: TRANSCRIPTOMIC ANALYSIS IN REMOTE MYOCARDIUM AFTER ADMINISTRATION OF SECRETOMES FROM MENSTRUAL BLOOD-DERIVED STROMAL CELLS IN SWINE INFARCTION MODEL

Author

de Pedro, M., primary, Pulido, M., additional, Marinaro, F., additional, Pérez, V. Álvarez, additional, Díaz, C. Báez, additional, Blanco-Blazquez, V., additional, Sánchez-Margallo, F., additional, Crisostomo, V., additional, Casado, J. García, additional, and López, E., additional

Published
2022
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6. Infiltrated platelets in infarcted myocardium as a target for extracellular vesicles from endometrial-derived mesenchymal stromal cells after intrapericardial administration

Author

López, E., primary, de Pedro, M., additional, Marinaro, F., additional, Pulido, M., additional, Álvarez Pérez, V., additional, Báez Díaz, C., additional, Blanco-Blazquez, V., additional, Sánchez-Margallo, F., additional, Crisostomo, V., additional, and García Casado, J., additional

Published
2021
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13. MicroRNA 199b-5p delivery through stable nucleic acid lipid particles (SNALPs) in tumorigenic cell lines

Author

Marianeve Carotenuto, Federica Marinaro, Annarita Falanga, Pasqualino De Antonellis, Immacolata Andolfo, Lucia Liguori, Antonella Virgilio, Aldo Galeone, Giuseppe De Rosa, Stefania Galdiero, Massimo Zollo, Immacolata Scognamiglio, Veronica Ferrucci, de Antonellis, P, Liguori, L, Falanga, A, Carotenuto, M, Ferrucci, V, Andolfo, I, Marinaro, F, Scognamiglio, I, Virgilio, Antonella, DE ROSA, Giuseppe, Galeone, Aldo, Galdiero, Stefania, and Zollo, Massimo

Subjects
Stable nucleic acid lipid particle, Cell, Population, Apoptosis, Biology, 03 medical and health sciences, 0302 clinical medicine, Cancer stem cell, Cell Line, Tumor, MiR-199b-5p, SNALP, Hes-1, Cancer stem cells, microRNA, medicine, Humans, Cytotoxic T cell, education, Cell Proliferation, 030304 developmental biology, Caspase 7, Pharmacology, 0303 health sciences, education.field_of_study, Caspase 3, Cell growth, General Medicine, Lipids, Molecular biology, 3. Good health, MicroRNAs, HEK293 Cells, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Liposomes, Cancer research
Abstract

MicroRNA (miR)-199b-5p has been shown to regulate Hes-1, a downstream effector of the canonical Notch and noncanonical SHH pathways, whereby it impairs medulloblastoma (MB) cancer stem cells (CSCs) through a decrease in the CD133+/CD15+ cell population. Here, we have developed stable nucleic acid lipid particles (SNALPs) that encapsulate miR-199b-5p. The efficacy of the miR- 199b-5p delivery by these SNALPs is demonstrated by significant impairment of Hes-1 levels and CSC markers in a range of different tumorigenic cell lines: colon (HT- 29, CaCo-2, and SW480), breast (MDA-MB231T and MCF-7), prostate (PC-3), glioblastoma (U-87), and MB(Daoy, ONS-76, and UW-228). After treatment with SNALP miR-199b-5p, there is also impairment of cell pro- liferation and no signs of apoptosis, as measured by cas- pases 3/7 activity and annexin V fluorescence cell sorter analyses. These data strengthen the importance of such carriers for miRNA delivery, which show no cytotoxic effects and provide optimal uptake into cells. Thus, efficient target downregulation in different tumorigenic cell lines will be the basis for future preclinical studies.

Published
2013

14. The micro-RNA 199b-5p regulatory circuit involves Hes1, CD15, and epigenetic modifications in medulloblastoma

Author

Federica Marinaro, Lucia Liguori, Livia Garzia, Achille Iolascon, Francesca Pistollato, Giuseppe Petrosino, Pasqualino De Antonellis, Immacolata Andolfo, Emilio Cusanelli, Roberta Migliorati, Gennaro De Vita, Benedetta Accordi, Giuseppe Cinalli, Massimo Zollo, Giuseppe Basso, Andolfo, I, Liguori, L, De Antonellis, P, Cusanelli, E, Marinaro, F, Pistollato, F, Garzia, L, De Vita, G, Petrosino, Giuseppe, Accordi, B, Migliorati, R, Basso, G, Iolascon, Achille, Cinalli, G, and Zollo, Massimo

Subjects
Epigenomics, Male, Cancer Research, Messenger, CD15, Epigenetic mechanism, Hes1, Medulloblastoma, MiR-199b-5p, Antigens, CD15, Basic Helix-Loop-Helix Transcription Factors, Blotting, Western, Cell Proliferation, Cells, Cultured, Cerebellar Neoplasms, Child, Preschool, Chromatin Immunoprecipitation, CpG Islands, DNA Methylation, Female, Flow Cytometry, Fucosyltransferases, Homeodomain Proteins, Humans, Infant, Kidney, MicroRNAs, Primary Cell Culture, Promoter Regions, Genetic, RNA, Messenger, Real-Time Polymerase Chain Reaction, Gene Expression Regulation, Neoplastic, Oncology, Neurology (clinical), 0302 clinical medicine, HES1, Child, epigenetic mechanism, Regulation of gene expression, 0303 health sciences, Cultured, Blotting, 3. Good health, CXCL3, 030220 oncology & carcinogenesis, DNA methylation, Basic and Translational Investigations, Western, Cells, Lewis X Antigen, Biology, Promoter Regions, 03 medical and health sciences, Genetic, microRNA, medicine, Epigenetics, Antigens, Preschool, 030304 developmental biology, Neoplastic, medicine.disease, Gene Expression Regulation, Cancer research, RNA, Transcription Factor HES-1, miR-199b-5p
Abstract

Micro-RNA (miR) 199b-5p targets Hes1 in medulloblastoma, one of the downstream effectors of both the canonical Notch and noncanonical Sonic Hedgehog pathways. In medulloblastoma patients, expression of miR-199b-5p is significantly decreased in metastatic cases, thus suggesting a downregulation mechanism. We studied this mechanism, which is mediated mostly by Hes1 and epigenetic promoter modifications. The miR-199b-5p promoter region was characterized, which identified a Hes1 binding site, thus demonstrating a negative feedback loop of regulation. MiR-199b-5p was shown to be downregulated in several medulloblastoma cell lines and in tumors by epigenetic methylation of a cytosine-phosphate-guanine island upstream of the miR-199b-5p promoter. Furthermore, the cluster of differention (CD) carbohydrate antigen CD15, a marker of medulloblastoma tumor-propagating cells, is an additional direct target of miR-199b-5p. Most importantly, regulation of miR-199b-5p expression in these CD15+/CD133+ tumor-propagating cells was influenced by only Hes1 expression and not by any epigenetic mechanism of regulation. Moreover, reverse-phase protein array analysis showed both the Akt and extracellular-signal-regulated kinase pathways as being mainly negatively regulated by miR-199b-5p expression in several medulloblastoma cell lines and in primary cell cultures. We present here the finely tuned regulation of miR-199b-5p in medulloblastoma, underlining its crucial role by its additional targeting of CD15.

Published
2012

16. The influence of early handling on the behavioural reaction of foals at 2 months of age

Author

Federica Marinaro, G. Migliori, F. Grasso, A. Bordi, Fabio Napolitano, G. De Rosa, DE ROSA, Giuseppe, Napolitano, F., Marinaro, F., Bordi, Aldo, Migliori, Giovanni, and Grasso, Fernando

Subjects
medicine.medical_specialty, foal, handling, behaviour, manageability, biology, business.industry, medicine.medical_treatment, Animal-assisted therapy, Animal husbandry, Surgery, Human animal bond, Pet therapy, Foal, biology.animal, Animal welfare, medicine, HUBzero, Animal Science and Zoology, lcsh:Animal culture, Intensive care medicine, business, lcsh:SF1-1100, A determinant
Abstract

Sono stati utilizzati 15 puledri (9 maschi e 6 femmine), equamente suddivisi in 3 gruppi. Il gruppo H1 è stato sottoposto a trattamento dal 1º al 5º giorno di vita, il gruppo H10 dal 10º al 15º e il gruppo H0 ha avuto funzione di controllo. Il trattamento prevedeva il massaggio del corpo e l’esposizione ai seguenti stimoli: applicazione della cavezza, spruzzo di acqua sugli arti, accensione di un rasoio a batteria, accartocciamento di un foglio di carta. Le sessioni venivano video-registrate, rilevando il tempo richiesto per l’assuefazione a tutti gli stimoli. Il trattamento è stato ripetuto quando i puledri hanno raggiunto i 2 mesi di età. I risultati hanno evidenziato che lo stato di agitazione del puledro è correlato con quello della madre e che il numero e la percentuale di soggetti che hanno completato il test sono stati più elevati nei gruppi trattati.

17. Preovulatory follicular fluid secretome added to in vitro maturation medium influences the metabolism of equine cumulus-oocyte complexes.

Author

Luis-Calero M, Ortiz-Rodríguez JM, Fernández-Hernández P, Muñoz-García CC, Pericuesta E, Gutiérrez-Adán A, Marinaro F, Embade N, Conde R, Bizkarguenaga M, Millet Ó, González-Fernández L, and Macías-García B

Subjects
Animals, Horses, Female, Secretome metabolism, Oocytes drug effects, Oocytes metabolism, Follicular Fluid metabolism, Follicular Fluid chemistry, In Vitro Oocyte Maturation Techniques veterinary, Cumulus Cells metabolism, Cumulus Cells drug effects, Culture Media pharmacology
Abstract

Background: In vitro embryo production is a highly demanded reproductive technology in horses, which requires the recovery (in vivo or post-mortem) and in vitro maturation (IVM) of oocytes. Oocytes subjected to IVM exhibit poor developmental competence compared to their in vivo counterparts, being this related to a suboptimal composition of commercial maturation media. The objective of this work was to study the effect of different concentrations of secretome obtained from equine preovulatory follicular fluid (FF) on cumulus-oocyte complexes (COCs) during IVM. COCs retrieved in vivo by ovum pick up (OPU) or post-mortem from a slaughterhouse (SLA) were subjected to IVM in the presence or absence of secretome (Control: 0 µg/ml, S20: 20 µg/ml or S40: 40 µg/ml). After IVM, the metabolome of the medium used for oocyte maturation prior (Pre-IVM) and after IVM (Post-IVM), COCs mRNA expression, and oocyte meiotic competence were analysed., Results: IVM leads to lactic acid production and an acetic acid consumption in COCs obtained from OPU and SLA. However, glucose consumption after IVM was higher in COCs from OPU when S40 was added (Control Pre-IVM vs. S40 Post-IVM: 117.24 ± 7.72 vs. 82.69 ± 4.24; Mean µM ± SEM; p < 0.05), while this was not observed in COCs from SLA. Likewise, secretome enhanced uptake of threonine (Control Pre-IVM vs. S20 Post-IVM vs. S40 Post-IVM: 4.93 ± 0.33 vs. 3.04 ± 0.25 vs. 2.84 ± 0.27; Mean µM ± SEM; p < 0.05) in COCs recovered by OPU. Regarding the relative mRNA expression of candidate genes related to metabolism, Lactate dehydrogenase A (LDHA) expression was significantly downregulated when secretome was added during IVM at 20-40 µg/ml in OPU-derived COCs (Control vs. S20 vs. S40: 1.77 ± 0.14 vs. 1 ± 0.25 vs. 1.23 ± 0.14; fold change ± SEM; p < 0.05), but not in SLA COCs., Conclusions: The addition of secretome during in vitro maturation (IVM) affects the gene expression of LDHA, glucose metabolism, and amino acid turnover in equine cumulus-oocyte complexes (COCs), with diverging outcomes observed between COCs retrieved using ovum pick up (OPU) and slaughterhouse-derived COCs (SLA)., (© 2024. The Author(s).)

Published
2024
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18. Characterization of preovulatory follicular fluid secretome and its effects on equine oocytes during in vitro maturation.

Author

Luis-Calero M, Marinaro F, Fernández-Hernández P, Ortiz-Rodríguez JM, G Casado J, Pericuesta E, Gutiérrez-Adán A, González E, Azkargorta M, Conde R, Bizkarguenaga M, Embade N, Elortza F, Falcón-Pérez JM, Millet Ó, González-Fernández L, and Macías-García B

Subjects
Female, Horses, Animals, Secretome, Meiosis, Oocytes metabolism, In Vitro Oocyte Maturation Techniques veterinary, Follicular Fluid chemistry, Follicular Fluid metabolism, Proteomics
Abstract

In vitro maturation (IVM) of oocytes is clinically used in horses to produce blastocysts but current conditions used for horses are suboptimal. We analyzed the composition of equine preovulatory follicular fluid (FF) secretome and tested its effects on meiotic competence and gene expression in oocytes subjected to IVM. Preovulatory FF was obtained, concentrated using ultrafiltration with cut-off of 10 kDa, and stored at -80 °C. The metabolic and proteomic composition was analyzed, and its ultrastructural composition was assessed by cryo-transmission microscopy. Oocytes obtained post-mortem or by ovum pick up (OPU) were subjected to IVM in the absence (control) or presence of 20 or 40 μg/ml (S20 or S40) of secretome. Oocytes were then analyzed for chromatin configuration or snap frozen for gene expression analysis. Proteomic analysis detected 255 proteins in the Equus caballus database, mostly related to the complement cascade and cholesterol metabolism. Metabolomic analysis yielded 14 metabolites and cryo-transmission electron microscopy analysis revealed the presence of extracellular vesicles (EVs). No significant differences were detected in maturation rates among treatments. However, the expression of GDF9 and BMP15 significantly increased in OPU-derived oocytes compared to post-mortem oocytes (fold increase ± SEM: 9.4 ± 0.1 vs. 1 ± 0.5 for BMP15 and 9.9 ± 0.3 vs. 1 ± 0.5 for GDF9, respectively; p < 0.05). Secretome addition increased the expression of TNFAIP6 in S40 regardless of the oocyte source. Further research is necessary to fully understand whether secretome addition influences the developmental competence of equine oocytes., Competing Interests: Declaration of competing interest The authors declare that there are no conflicts of interest., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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19. Hyperactivation and altered selection of B cells in patients with paediatric Sjogren's syndrome.

Author

Boni A, Nicolai R, Caiello I, Marinaro F, Farina L, Pires Marafon D, Carsetti R, De Benedetti F, Bracaglia C, and Marasco E

Subjects
Adult, Humans, Child, B-Lymphocytes, T-Lymphocyte Subsets, Sjogren's Syndrome, Autoimmune Diseases
Abstract

Objectives: Paediatric Sjögren's syndrome (pSS) is a rare chronic autoimmune disorder, characterised by inflammation of exocrine glands. B cell hyperactivation plays a central role in adult-onset Sjogren. This study was designed to analyse B cell and T cell phenotype, levels of BAFF, and selection of autoreactive B cells in patients with pSS., Methods: A total of 17 patients diagnosed with pSS and 13 healthy donors (controls) comparable for age were enrolled in the study. B cell and T cell subsets and frequency of autoreactive B cells in peripheral blood were analysed by flow cytometry. Levels of BAFF were analysed by ELISA., Results: The relative frequency of total B cells, transitional, naïve and switched memory B cells was similar between pSS patients and controls. In patients with pSS, we observed a reduction in the frequency of unswitched memory B cells, an increased frequency of atypical memory B cells and an expansion of PD1 hi CXCR5 - T peripheral helper cells. Levels of BAFF were higher in patients with pSS compared with controls and correlated with serum levels of total IgG and titres of anti-Ro antibodies. The frequency of autoreactive B cells in the transitional, unswitched memory and plasmablast compartment was significantly higher in pSS patients than in controls., Conclusions: Our results point to a hyperactivation of B cells in pSS. Current therapies do not seem to affect B cell abnormalities, suggesting that novel therapies targeting specifically B cell hyperactivation need to be implemented for paediatric patients., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2024. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2024
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20. Menstrual blood-derived stromal cells: insights into their secretome in acute hypoxia conditions.

Author

de Pedro MÁ, Pulido M, Álvarez V, Marinaro F, Marchena AM, Sánchez-Margallo FM, Casado JG, and López E

Subjects
Humans, Cell Proliferation genetics, Stromal Cells metabolism, Hypoxia metabolism, Angiopoietin-Like Protein 2, Secretome, MicroRNAs genetics, MicroRNAs metabolism
Abstract

Background: Despite constant advances in regenerative medicine, the closure of chronic wounds is still challenging. Therapeutic approaches using locally administered MSCs have been considered a promising option. However, the viability of these cells is seriously threatened by acute hypoxic stress linked to wound healing. In this work, we aimed to study the tolerance of Menstrual blood-derived stromal cells (MenSCs) to acute hypoxia and their therapeutic paracrine effect., Methods: Isolated MenSCs were phenotypically characterized and evaluated in terms of proliferation, viability, and gene expression, under acute hypoxia (AH) compared with conventional cultured condition or normoxia (N). A step further, the secretome of MenSCs under acute hypoxia was analyzed with respect to their miRNAs content and by in vitro functional assays. For the analysis of differences between the two groups, Student's t-test was performed and one-way ANOVA and Tukey's multiple comparisons test for multiple groups were used., Results: Our results revealed that the viability of MenSCs was not affected under acute hypoxia, although proliferation rate slowed down. Gene analysis revealed 5 up-regulated (BNIP3, ANGPTL4, IL6, IL1B, and PDK1) and 4 down-regulated genes (IDO1, HMOX1, ANGPTL2, and HGF) in AH compared to N. Global gene expression analysis revealed a decrease in the gene ontology functions of migration and wound response with respect to the normoxic condition. In contrast, functions such as angiogenesis were enriched under the AH condition. Regarding the secretome analysis, two miRNAs involved in angiogenic processes (hsa-miR-148a-3p and hsa-miR-378a-3p), were significantly up-expressed when compared to the normoxic condition, being MYC gene, the unique target of both. Functional assays on HUVECs revealed a potential pro-angiogenic capacity of MenSCs cultured in both oxygen conditions (N and AH) based on the wound closure and tube formation results of their released paracrine factors. However, when compared to normoxia, the paracrine factors of MenSCs under acute hypoxia slightly reduced the proliferation, migration, and in vitro wound closure of HUVECs., Conclusions: MenSC exhibited a good survival capacity under acute hypoxic conditions as well as beneficial properties applicable in the field of tissue regeneration through their secretome, which makes them a potential cell source for wound healing interventions., (© 2023. The Author(s).)

Published
2023
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21. Intrapericardial Administration of Secretomes from Menstrual Blood-Derived Mesenchymal Stromal Cells: Effects on Immune-Related Genes in a Porcine Model of Myocardial Infarction.

Author

de Pedro MÁ, Pulido M, Marinaro F, Álvarez V, Báez-Díaz C, Blanco V, Silla-Castro JC, Sanchez-Cabo F, Sánchez-Margallo FM, Crisóstomo V, Casado JG, and López E

Abstract

Acute myocardial infarction (AMI) is a manifestation of ischemic heart disease where the immune system plays an important role in the re-establishment of homeostasis. We hypothesize that the anti-inflammatory activity of secretomes from menstrual blood-derived mesenchymal stromal cells (S-MenSCs) and IFNγ/TNFα-primed MenSCs (S-MenSCs*) may be considered a therapeutic option for the treatment of AMI. To assess this hypothesis, we have evaluated the effect of S-MenSCs and S-MenSCs* on cardiac function parameters and the involvement of immune-related genes using a porcine model of AMI. Twelve pigs were randomly divided into three biogroups: AMI/Placebo, AMI/S-MenSCs, and AMI/S-MenSCs*. AMI models were generated using a closed chest coronary occlusion-reperfusion procedure and, after 72 h, the different treatments were intrapericardially administered. Cardiac function parameters were monitored by magnetic resonance imaging before and 7 days post-therapy. Transcriptomic analyses in the infarcted tissue identified 571 transcripts associated with the Gene Ontology term Immune response , of which 57 were differentially expressed when different biogroups were compared. Moreover, a prediction of the interactions between differentially expressed genes (DEGs) and miRNAs from secretomes revealed that some DEGs in the infarction area, such as STAT3, IGFR1 , or BCL6 could be targeted by previously identified miRNAs in secretomes from MenSCs. In conclusion, the intrapericardial administration of secretome early after infarction has a significant impact on the expression of immune-related genes in the infarcted myocardium. This confirms the immunomodulatory potential of intrapericardially delivered secretomes and opens new therapeutic perspectives in myocardial infarction treatment.

Published
2022
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22. A Fibrin Coating Method of Polypropylene Meshes Enables the Adhesion of Menstrual Blood-Derived Mesenchymal Stromal Cells: A New Delivery Strategy for Stem Cell-Based Therapies.

Author

Marinaro F, Silva JM, Barros AA, Aroso IM, Gómez-Blanco JC, Jardin I, Lopez JJ, Pulido M, de Pedro MÁ, Reis RL, Sánchez-Margallo FM, Casado JG, and López E

Subjects
Adult, Cell Adhesion physiology, Coated Materials, Biocompatible chemistry, Coated Materials, Biocompatible pharmacology, Female, Fibrin metabolism, Fibrin Tissue Adhesive pharmacology, Humans, Materials Testing, Polypropylenes blood, Polypropylenes chemistry, Prostheses and Implants, Surgical Mesh, Tissue Adhesions pathology, Cell Separation methods, Menstruation blood, Mesenchymal Stem Cells cytology
Abstract

Polypropylene (PP) mesh is well-known as a gold standard of all prosthetic materials of choice for the reinforcement of soft tissues in case of hernia, organ prolapse, and urinary incontinence. The adverse effects that follow surgical mesh implantation remain an unmet medical challenge. Herein, it is outlined a new approach to allow viability and adhesion of human menstrual blood-derived mesenchymal stromal cells (MenSCs) on PP surgical meshes. A multilayered fibrin coating, based on fibrinogen and thrombin from a commercial fibrin sealant, was optimized to guarantee a homogeneous and stratified film on PP mesh. MenSCs were seeded on the optimized fibrin-coated meshes and their adhesion, viability, phenotype, gene expression, and immunomodulatory capacity were fully evaluated. This coating guaranteed MenSC viability, adhesion and did not trigger any change in their stemness and inflammatory profile. Additionally, MenSCs seeded on fibrin-coated meshes significantly decreased CD4+ and CD8+ T cell proliferation, compared to in vitro stimulated lymphocytes ( p < 0.0001). Hence, the proposed fibrin coating for PP surgical meshes may allow the local administration of stromal cells and the reduction of the exacerbated inflammatory response following mesh implantation surgery. Reproducible and easy to adapt to other cell types, this method undoubtedly requires a multidisciplinary and translational approach to be improved for future clinical uses.

Published
2021
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23. IFN-Gamma and TNF-Alpha as a Priming Strategy to Enhance the Immunomodulatory Capacity of Secretomes from Menstrual Blood-Derived Stromal Cells.

Author

de Pedro MÁ, Gómez-Serrano M, Marinaro F, López E, Pulido M, Preußer C, Pogge von Strandmann E, Sánchez-Margallo FM, Álvarez V, and Casado JG

Subjects
Adult, Antigens, Surface analysis, Coculture Techniques, Extracellular Vesicles chemistry, Extracellular Vesicles metabolism, Female, Gene Expression Regulation drug effects, Gene Expression Regulation genetics, Healthy Volunteers, Humans, Immunomodulation drug effects, Indoleamine-Pyrrole 2,3,-Dioxygenase metabolism, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells drug effects, MicroRNAs drug effects, MicroRNAs metabolism, Secretome drug effects, T-Lymphocytes immunology, T-Lymphocytes metabolism, Interferon-gamma pharmacology, Menstruation blood, Mesenchymal Stem Cells immunology, Mesenchymal Stem Cells metabolism, Secretome immunology, Secretome metabolism, Tumor Necrosis Factor-alpha pharmacology
Abstract

Mesenchymal stromal cells isolated from menstrual blood (MenSCs) exhibit a potent pro-angiogenic and immunomodulatory capacity. Their therapeutic effect is mediated by paracrine mediators released by their secretomes. In this work, we aimed to evaluate the effect of a specific priming condition on the phenotype and secretome content of MenSCs. Our results revealed that the optimal condition for priming MenSCs was the combination of interferon gamma (IFNγ) and tumor necrosis factor alpha (TNFα) that produced a synergistic and additive effect on IDO1 release and immune-related molecule expression. The analyses of MenSC-derived secretomes after IFNγ and TNFα priming also revealed an increase in EV release and in the differentially expressed miRNAs involved in the immune response and inflammation. Proliferation assays on lymphocyte subsets demonstrated a decrease in CD4+ T cells and CD8+ T cells co-cultured with secretomes, especially in the lymphocytes co-cultured with secretomes from primed cells. Additionally, the expression of immune checkpoints (PD-1 and CTLA-4) was increased in the CD4+ T cells co-cultured with MenSC-derived secretomes. These findings demonstrate that the combination of IFNγ and TNFα represents an excellent priming strategy to enhance the immunomodulatory capacity of MenSCs. Moreover, the secretome derived from primed MenSCs may be postulated as a therapeutic option for the regulation of adverse inflammatory reactions.

Published
2021
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24. The Proteome of Equine Oviductal Fluid Varies Before and After Ovulation: A Comparative Study.

Author

Fernández-Hernández P, Marinaro F, Sánchez-Calabuig MJ, García-Marín LJ, Bragado MJ, González-Fernández L, and Macías-García B

Abstract

Equine fertilization cannot be performed in the laboratory as equine spermatozoa do not cross the oocyte's zona pellucida in vitro . Hence, a more profound study of equine oviductal fluid (OF) composition at the pre-ovulatory and post-ovulatory stages could help in understanding what components are required to achieve fertilization in horses. Our work aimed to elucidate the proteomic composition of equine OF at both stages. To do this, OF was obtained postmortem from oviducts of slaughtered mares ipsilateral to a pre-ovulatory follicle ( n = 4) or a recent ovulation ( n = 4); the samples were kept at -80°C until analysis. After protein extraction and isobaric tags for relative and absolute quantification (iTRAQ) labeling, the samples were analyzed by nano-liquid chromatography coupled to tandem mass spectrometry (LC-MS/MS). The analysis of the spectra resulted in the identification of a total of 1,173 proteins present in pre-ovulatory and post-ovulatory samples; among these, 691 were unique for Equus caballus . Proteins from post-ovulatory oviductal fluid were compared with the proteins from pre-ovulatory oviductal fluid and were categorized as upregulated (positive log fold change) or downregulated (negative log fold change). Fifteen proteins were found to be downregulated in the post-ovulatory fluid and 156 were upregulated in the post-ovulatory OF compared to the pre-ovulatory fluid; among the upregulated proteins, 87 were included in the metabolism of proteins pathway. The identified proteins were related to sperm-oviduct interaction, fertilization , and metabolism , among others. Our data reveal consistent differences in the proteome of equine OF prior to and after ovulation, helping to increase our understanding in the factors that promote fertilization and early embryo development in horses., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Fernández-Hernández, Marinaro, Sánchez-Calabuig, García-Marín, Bragado, González-Fernández and Macías-García.)

Published
2021
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25. Improving Cell Viability and Velocity in μ-Extrusion Bioprinting with a Novel Pre-Incubator Bioprinter and a Standard FDM 3D Printing Nozzle.

Author

Gómez-Blanco JC, Galván-Chacón V, Patrocinio D, Matamoros M, Sánchez-Ortega ÁJ, Marcos AC, Duarte-León M, Marinaro F, Pagador JB, and Sánchez-Margallo FM

Abstract

Bioprinting is a promising emerging technology. It has been widely studied by the scientific community for the possibility to create transplantable artificial tissues, with minimal risk to the patient. Although the biomaterials and cells to be used are being carefully studied, there is still a long way to go before a bioprinter can easily and quickly produce printings without harmful effects on the cells. In this sense, we have developed a new μ-extrusion bioprinter formed by an Atom Proton 3D printer, an atmospheric enclosure and a new extrusion-head capable to increment usual printing velocity. Hence, this work has two main objectives. First, to experimentally study the accuracy and precision. Secondly, to study the influence of flow rates on cellular viability using this novel μ-extrusion bioprinter in combination with a standard FDM 3D printing nozzle. Our results show an X, Y and Z axis movement accuracy under 17 μm with a precision around 12 μm while the extruder values are under 5 and 7 μm, respectively. Additionally, the cell viability obtained from different volumetric flow tests varies from 70 to 90%. So, the proposed bioprinter and nozzle can control the atmospheric conditions and increase the volumetric flow speeding up the bioprinting process without compromising the cell viability.

Published
2021
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26. Exploiting Unique Alignment of Cobalt Ferrite Nanoparticles, Mild Hyperthermia, and Controlled Intrinsic Cobalt Toxicity for Cancer Therapy.

Author

Balakrishnan PB, Silvestri N, Fernandez-Cabada T, Marinaro F, Fernandes S, Fiorito S, Miscuglio M, Serantes D, Ruta S, Livesey K, Hovorka O, Chantrell R, and Pellegrino T

Subjects
Animals, Cell Line, Tumor, Cobalt adverse effects, Ferric Compounds adverse effects, Humans, Hyperthermia, Induced, Magnetic Fields, Mice, Survival Analysis, Xenograft Model Antitumor Assays, Cobalt chemistry, Cobalt therapeutic use, Ferric Compounds chemistry, Ferric Compounds therapeutic use, Nanoparticles chemistry
Abstract

Nanoparticle-based magnetic hyperthermia is a well-known thermal therapy platform studied to treat solid tumors, but its use for monotherapy is limited due to incomplete tumor eradication at hyperthermia temperature (45 °C). It is often combined with chemotherapy for obtaining a more effective therapeutic outcome. Cubic-shaped cobalt ferrite nanoparticles (Co-Fe NCs) serve as magnetic hyperthermia agents and as a cytotoxic agent due to the known cobalt ion toxicity, allowing the achievement of both heat and cytotoxic effects from a single platform. In addition to this advantage, Co-Fe NCs have the unique ability to form growing chains under an alternating magnetic field (AMF). This unique chain formation, along with the mild hyperthermia and intrinsic cobalt toxicity, leads to complete tumor regression and improved overall survival in an in vivo murine xenograft model, all under clinically approved AMF conditions. Numerical calculations identify magnetic anisotropy as the main Co-Fe NCs' feature to generate such chain formations. This novel combination therapy can improve the effects of magnetic hyperthermia, inaugurating investigation of mechanical behaviors of nanoparticles under AMF, as a new avenue for cancer therapy., (© 2020 The Authors. Published by Wiley-VCH GmbH.)

Published
2020
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27. Laparoscopy for the Treatment of Congenital Hernia: Use of Surgical Meshes and Mesenchymal Stem Cells in a Clinically Relevant Animal Model.

Author

Marinaro F, Casado JG, Blázquez R, Brun MV, Marcos R, Santos M, Duque FJ, López E, Álvarez V, Usón A, and Sánchez-Margallo FM

Abstract

More than a century has passed since the first surgical mesh for hernia repair was developed, and, to date, this is still the most widely used method despite the great number of complications it poses. The purpose of this study was to combine stem cell therapy and laparoscopy for the treatment of congenital hernia in a swine animal model. Porcine bone marrow-derived mesenchymal stem cells (MSCs) were seeded on polypropylene surgical meshes using a fibrin sealant solution as a vehicle. Meshes with (cell group) or without (control group) MSCs were implanted through laparoscopy in Large White pigs with congenital abdominal hernia after the approximation of hernia borders (implantation day). A successive laparoscopic biopsy of the mesh and its surrounding tissues was performed a week after implantation, and surgical meshes were excised a month after implantation. Ultrasonography was used to measure hernia sizes. Flow cytometry, histological, and gene expression analyses of the biopsy and necropsy samples were performed. The fibrin sealant solution was easy to prepare and preserved the viability of MSCs in the surgical meshes. Ultrasonography demonstrated a significant reduction in hernia size 1 week after implantation in the cell group relative to that on the day of implantation ( p  < 0.05). Flow cytometry of the mesh-infiltrated cells showed a non-significant increase of M2 macrophages when the cell group was compared with the control group 1 week after implantation. A significant decrease in the gene expression of VEGF and a significant increase in TNF expression were determined in the cell group 1 month after implantation compared with gene expressions in the control group ( p  < 0.05). Here, we propose an easy and feasible method to combine stem cell therapy and minimally invasive surgical techniques for hernia repair. In this study, stem cell therapy did not show a great immunomodulatory or regenerative effect in overcoming hernia-related complications. However, our clinically relevant animal model with congenital hernia closely resembles the clinical human condition. Further studies should be focused on this valuable animal model to evaluate stem cell therapies in hernia surgery., (Copyright © 2020 Marinaro, Casado, Blázquez, Brun, Marcos, Santos, Duque, López, Álvarez, Usón and Sánchez-Margallo.)

Published
2020
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28. The Immunomodulatory Signature of Extracellular Vesicles From Cardiosphere-Derived Cells: A Proteomic and miRNA Profiling.

Author

López E, Marinaro F, de Pedro MLÁ, Sánchez-Margallo FM, Gómez-Serrano M, Ponath V, Pogge von Strandmann E, Jorge I, Vázquez J, Fernández-Pereira LM, Crisóstomo V, Álvarez V, and Casado JG

Abstract

Experimental data demonstrated that the regenerative potential and immunomodulatory capacity of cardiosphere-derived cells (CDCs) is mediated by paracrine mechanisms. In this process, extracellular vesicles derived from CDCs (EV-CDCs) are key mediators of their therapeutic effect. Considering the future applicability of these vesicles in human diseases, an accurate preclinical-to-clinical translation is needed, as well as an exhaustive molecular characterization of animal-derived therapeutic products. Based on that, the main goal of this study was to perform a comprehensive characterization of proteins and miRNAs in extracellular vesicles from porcine CDCs as a clinically relevant animal model. The analysis was performed by identification and quantification of proteins and miRNA expression profiles. Our results revealed the presence of clusters of immune-related and cardiac-related molecular biomarkers in EV-CDCs. Additionally, considering that priming stem cells with inflammatory stimuli may increase the therapeutic potential of released vesicles, here we studied the dynamic changes that occur in the extracellular vesicles from IFNγ-primed CDCs. These analyses detected statistically significant changes in several miRNAs and proteins. Notably, the increase in interleukin 6 (IL6) protein, as well as the increase in mir-125b (that targets IL6 receptor) was especially relevant. These results suggest a potential involvement of EV-CDCs in the regulation of the IL6/IL6R axis, with implications in inflammatory-mediated diseases., (Copyright © 2020 López, Marinaro, de Pedro, Sánchez-Margallo, Gómez-Serrano, Ponath, Pogge von Strandmann, Jorge, Vázquez, Fernández-Pereira, Crisóstomo, Álvarez and Casado.)

Published
2020
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29. Author Correction: The Intrapericardial Delivery of Extracellular Vesicles from Cardiosphere-Derived Cells Stimulates M2 Polarization during the Acute Phase of Porcine Myocardial Infarction.

Author

López E, Blázquez R, Marinaro F, Álvarez V, Blanco V, Báez C, González I, Abad A, Moreno B, Sánchez-Margallo FM, Crisóstomo V, and Casado JG

Abstract

The original version of this article unfortunately contained a mistake. In the author group, the correct family name of Dr. Rebeca is "Blázquez" and the correct family name of Dr. Francisco Miguel is "Sánchez-Margallo."

Published
2020
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30. The Intrapericardial Delivery of Extracellular Vesicles from Cardiosphere-Derived Cells Stimulates M2 Polarization during the Acute Phase of Porcine Myocardial Infarction.

Author

López E, Blázquez R, Marinaro F, Álvarez V, Blanco V, Báez C, González I, Abad A, Moreno B, Sánchez-Margallo FM, Crisóstomo V, and Casado JG

Subjects
Animals, Cell Differentiation, Cytokines genetics, Cytokines metabolism, Female, Gene Expression Regulation, Leukocyte Count, Lymphocyte Activation immunology, Lymphocyte Subsets immunology, Myocardial Infarction immunology, Myocardial Infarction pathology, Spheroids, Cellular, Swine, Extracellular Vesicles metabolism, Monocytes pathology, Myocardial Infarction therapy, Pericardium pathology
Abstract

Acute myocardial infarction triggers a strong inflammatory response in the affected cardiac tissue. New therapeutic tools based on stem cell therapy may modulate the unbalanced inflammation in the damaged cardiac tissue, contributing to the resolution of this pathological condition. The main goal of this study was to analyze the immunomodulatory effects of cardiosphere-derived cells (CDCs) and their extracellular vesicles (EV-CDCs), delivered by intrapericardial administration in a clinically relevant animal model, during the initial pro-inflammatory phase of an induced myocardial infarction. This effect was assessed in peripheral blood and pericardial fluid leukocytes from infarcted animals. Additionally, cardiac functional parameters, troponin I, hematological and biochemical components were also analyzed to characterize myocardial infarction-induced changes, as well as the safety aspects of these procedures. Our preclinical study demonstrated a successful myocardial infarction induction in all animals, without any reported adverse effect related to the intrapericardial administration of CDCs or EV-CDCs. Significant changes were observed in biochemical and immunological parameters after myocardial infarction. The analysis of peripheral blood leukocytes revealed an increase of M2 monocytes in the EV-CDCs group, while no differences were reported in other lymphocyte subsets. Moreover, arginase-1 (M2-differentiation marker) was significantly increased in pericardial fluids 24 h after EV-CDCs administration. In summary, we demonstrate that, in our experimental conditions, intrapericardially administered EV-CDCs have an immunomodulatory effect on monocyte polarization, showing a beneficial effect for counteracting an unbalanced inflammatory reaction in the acute phase of myocardial infarction. These M2 monocytes have been defined as "pro-regenerative cells" with a pro-angiogenic and anti-inflammatory activity.

Published
2020
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31. Unraveling the Molecular Signature of Extracellular Vesicles From Endometrial-Derived Mesenchymal Stem Cells: Potential Modulatory Effects and Therapeutic Applications.

Author

Marinaro F, Gómez-Serrano M, Jorge I, Silla-Castro JC, Vázquez J, Sánchez-Margallo FM, Blázquez R, López E, Álvarez V, and Casado JG

Abstract

Endometrial-derived Mesenchymal Stem Cells (endMSCs) are involved in the regeneration and remodeling of human endometrium, being considered one of the most promising candidates for stem cell-based therapies. Their therapeutic effects have been found to be mediated by extracellular vesicles (EV-endMSCs) with pro-angiogenic, anti-apoptotic, and immunomodulatory effects. Based on that, the main goal of this study was to characterize the proteome and microRNAome of these EV-endMSCs by proteomics and transcriptomics approaches. Additionally, we hypothesized that inflammatory priming of endMSCs may contribute to modify the therapeutic potential of these vesicles. High-throughput proteomics revealed that 617 proteins were functionally annotated as Extracellular exosome (GO:0070062), corresponding to the 70% of the EV-endMSC proteome. Bioinformatics analyses allowed us to identify that these proteins were involved in adaptive/innate immune response, complement activation, antigen processing/presentation, negative regulation of apoptosis, and different signaling pathways, among others. Of note, multiplexed quantitative proteomics and Systems Biology analyses showed that IFNγ priming significantly modulated the protein profile of these vesicles. As expected, proteins involved in antigen processing and presentation were significantly increased. Interestingly, immunomodulatory proteins, such as CSF1, ERAP1, or PYCARD were modified. Regarding miRNAs expression profile in EV-endMSCs, Next-Generation Sequencing (NGS) showed that the preferred site of microRNAome targeting was the nucleus ( n = 371 microTargets), significantly affecting signal transduction (GO:0007165), cell proliferation (GO:0008283), and apoptotic processes (GO:0006915), among others. Interestingly, NGS analyses highlighted that several miRNAs, such as hsa-miR-150-5p or hsa-miR-196b-5p, were differentially expressed in IFNγ-primed EV-endMSCs. These miRNAs have a functional involvement in glucocorticoid receptor signaling, IL-6/8/12 signaling, and in the role of macrophages. In summary, these results allowed us to understand the complexity of the molecular networks in EV-endMSCs and their potential effects on target cells. To our knowledge, this is the first comprehensive study based on proteomic and genomic approaches to unravel the therapeutic potential of these extracellular vesicles, that may be used as immunomodulatory effectors in the treatment of inflammatory conditions., (Copyright © 2019 Marinaro, Gómez-Serrano, Jorge, Silla-Castro, Vázquez, Sánchez-Margallo, Blázquez, López, Álvarez and Casado.)

Published
2019
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32. Conditioned Serum Enhances the Chondrogenic and Immunomodulatory Behavior of Mesenchymal Stem Cells.

Author

Blázquez R, Sánchez-Margallo FM, Reinecke J, Álvarez V, López E, Marinaro F, and Casado JG

Abstract

Osteoarthritis is one of the most common chronic health conditions associated with pain and disability. Advanced therapies based on mesenchymal stem cells have become valuable options for the treatment of these pathologies. Conditioned serum (CS, "Orthokine") has been used intra-articularly for osteoarthritic patients. In this work, we hypothesized that the rich content on anti-inflammatory proteins and growth factors of CS may exert a beneficial effect on the biological activity of human adipose-derived mesenchymal stem cells (hAdMSCs). In vitro studies were designed using hAdMSCs cocultured with CS at different concentrations (2.5, 5, and 10%). Chondrogenic differentiation assays and immunomodulatory experiments using in vitro -stimulated lymphocytes were performed. Our results demonstrated that CS significantly enhanced the differentiation of hAdMSCs toward chondrocytes. Moreover, hAdMSCs pre-sensitized with CS reduced the lymphocyte proliferation as well as their differentiation toward activated lymphocytes. These results suggest that in vivo coadministration of CS and hAdMSCs may have a beneficial effect on the therapeutic potential of hAdMSCs. Moreover, these results indicate that intra-articular administration of CS might influence the biological behavior of resident stem cells increasing their chondrogenic differentiation and inherent immunomodulatory activity. To our knowledge, this is the first in vitro study reporting this combination.

Published
2019
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33. Extracellular vesicles derived from endometrial human mesenchymal stem cells enhance embryo yield and quality in an aged murine model†.

Author

Marinaro F, Macías-García B, Sánchez-Margallo FM, Blázquez R, Álvarez V, Matilla E, Hernández N, Gómez-Serrano M, Jorge I, Vázquez J, González-Fernández L, Pericuesta E, Gutiérrez-Adán A, and Casado JG

Subjects
Animals, Cells, Cultured, Coculture Techniques methods, Coculture Techniques standards, Coculture Techniques veterinary, Embryo Culture Techniques standards, Embryo Culture Techniques veterinary, Female, Fertilization in Vitro standards, Fertilization in Vitro veterinary, Humans, Male, Mesenchymal Stem Cells cytology, Mice, Mice, Inbred C57BL, Oocytes cytology, Oocytes physiology, Quality Control, Cellular Senescence physiology, Embryo, Mammalian, Endometrium cytology, Extracellular Vesicles physiology, Maternal Age, Mesenchymal Stem Cells ultrastructure, Oocyte Retrieval methods, Oocyte Retrieval standards, Oocyte Retrieval veterinary
Abstract

Advanced age is a risk factor undermining women's fertility. Hence, the optimization of assisted reproduction techniques is an interdisciplinary challenge that requires the improvement of in vitro culture systems. Here, we hypothesize that supplementation of embryo culture medium with extracellular vesicles from endometrial-derived mesenchymal stem cells (EV-endMSCs) may have a positive impact on the embryo competence of aged oocytes. In this work, 24 weeks old B6D2 female mice were used as egg donors and in vitro fertilization assays were performed using males from the same strain (8-12 weeks); the presumptive zygotes were incubated in the presence of 0, 10, 20, 40, or 80 μg/ml of EV-endMSCs. The results from the proteomic analysis of EV-endMSCs and the classification by Reactome pathways allowed us to identify proteins closely related with the fertilization process. Moreover, in our aged murine model, the supplementation of the embryo culture medium with EV-endMSCs improved the developmental competence of the embryos as well as the total blastomere count. Finally, gene expression analysis of murine blastocysts showed significant changes on core genes related to cellular response to oxidative stress, metabolism, placentation, and trophectoderm/inner cell mass formation. In summary, we demonstrate that EV-endMSCs increase the quality of the embryos, and according to proteomic and genomic analysis, presumably by modulating the expression of antioxidant enzymes and promoting pluripotent activity. Therefore, EV-endMSCs could be a valuable tool in human assisted reproduction improving the developmental competence of aged oocytes and increasing the odds of implantation and subsequent delivery., (© The Author(s) 2018. Published by Oxford University Press on behalf of Society for the Study of Reproduction.)

Published
2019
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34. Identification of very early inflammatory markers in a porcine myocardial infarction model.

Author

López E, Sánchez-Margallo FM, Álvarez V, Blázquez R, Marinaro F, Abad A, Martín H, Báez C, Blanco V, Crisóstomo V, and Casado JG

Subjects
Animals, Biomarkers blood, CD4-CD8 Ratio veterinary, Creatine Kinase, MB Form blood, Cytokines blood, Disease Models, Animal, Female, Flow Cytometry veterinary, Heart Function Tests, Inflammation blood, Inflammation diagnosis, Lymphocyte Subsets, Lymphocytes metabolism, Myocardial Infarction blood, Myocardial Infarction diagnosis, Swine, Swine Diseases blood, Troponin I blood, Inflammation veterinary, Myocardial Infarction veterinary, Swine Diseases diagnosis
Abstract

Background: Acute myocardial infarction (AMI) is one of the most deleterious conditions leading to cardiovascular diseases and mortality. The importance of an early and accurate diagnosis assures immediate medical treatments, which are fundamental to reduce mortality and improve prognoses. AMI is associated to an inflammatory response which includes the increase of circulating inflammatory cytokines, chemokines and immune cell activation. This study aimed to identify which are the very early immune-related biomarkers that may be used as predictors of myocardial infarction severity. In order to mimic the pathophysiological events involved in human myocardial infarction, a temporary occlusion (90 min) of the mid-left anterior descending coronary artery was performed in a swine animal model., Results: Lymphocyte subsets analysis in peripheral blood revealed significant alterations in CD4+/CD8+ ratio and naïve and effector/memory T cell percentages at 1 h post-myocardial infarction. Changes in TH1/TH2-related cytokine, monocyte and neutrophil markers gene expression were observed in peripheral blood lymphocytes, as well. Additionally, significant correlations between cardiac parameters (cardiac enzymes, left ventricular ejection fraction and % infarct) and blood-derived parameters (cytokine expression and lymphocyte subset distribution) were found., Conclusions: Peripheral blood lymphocyte alterations are easily and swiftly detectable, so they may be good biomarkers for a very early prognosis and to predict myocardial infarction severity.

Published
2019
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35. Thermoresponsive Iron Oxide Nanocubes for an Effective Clinical Translation of Magnetic Hyperthermia and Heat-Mediated Chemotherapy.

Author

Mai BT, Balakrishnan PB, Barthel MJ, Piccardi F, Niculaes D, Marinaro F, Fernandes S, Curcio A, Kakwere H, Autret G, Cingolani R, Gazeau F, and Pellegrino T

Subjects
Animals, Cell Line, Tumor, Cell Survival drug effects, Doxorubicin chemistry, Doxorubicin pharmacokinetics, Doxorubicin therapeutic use, Humans, Hyperthermia, Induced, Kaplan-Meier Estimate, Magnetic Resonance Imaging, Magnetite Nanoparticles chemistry, Mice, Mice, Nude, Neoplasms diagnostic imaging, Neoplasms drug therapy, Neoplasms mortality, Neoplasms pathology, Polymers chemistry, Tissue Distribution, Transplantation, Heterologous, Ultraviolet Rays, Drug Carriers chemistry, Ferric Compounds chemistry, Nanostructures chemistry
Abstract

The use of magnetic nanoparticles in oncothermia has been investigated for decades, but an effective combination of magnetic nanoparticles and localized chemotherapy under clinical magnetic hyperthermia (MH) conditions calls for novel platforms. In this study, we have engineered magnetic thermoresponsive iron oxide nanocubes (TR-cubes) to merge MH treatment with heat-mediated drug delivery, having in mind the clinical translation of the nanoplatform. We have chosen iron oxide based nanoparticles with a cubic shape because of their outstanding heat performance under MH clinical conditions, which makes them benchmark agents for MH. Accomplishing a surface-initiated polymerization of strongly interactive nanoparticles such as our iron oxide nanocubes, however, remains the main challenge to overcome. Here, we demonstrate that it is possible to accelerate the growth of a polymer shell on each nanocube by simple irradiation of a copper-mediated polymerization with a ultraviolet light (UV) light, which both speeds up the polymerization and prevents nanocube aggregation. Moreover, we demonstrate herein that these TR-cubes can carry chemotherapeutic doxorubicin (DOXO-loaded-TR-cubes) without compromising their thermoresponsiveness both in vitro and in vivo. In vivo efficacy studies showed complete tumor suppression and the highest survival rate for animals that had been treated with DOXO-loaded-TR-cubes, only when they were exposed to MH. The biodistribution of intravenously injected TR-cubes showed signs of renal clearance within 1 week and complete clearance after 5 months. This biomedical platform works under clinical MH conditions and at a low iron dosage, which will enable the translation of dual MH/heat-mediated chemotherapy, thus overcoming the clinical limitation of MH: i.e., being able to monitor tumor progression post-MH-treatment by magnetic resonance imaging (MRI).

Published
2019
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36. Ischemia-reperfusion injury in a rat microvascular skin free flap model: A histological, genetic, and blood flow study.

Author

Ballestín A, Casado JG, Abellán E, Vela FJ, Álvarez V, Usón A, López E, Marinaro F, Blázquez R, and Sánchez-Margallo FM

Subjects
Animals, Biomarkers, Disease Models, Animal, Gene Expression Profiling, Graft Survival, Immunohistochemistry, Male, Microscopy, Rats, Skin Transplantation, Ultrasonography, Free Tissue Flaps blood supply, Microvessels, Reperfusion Injury etiology, Reperfusion Injury pathology
Abstract

Ischemia reperfusion injury is associated with tissue damage and inflammation, and is one of the main factors causing flap failure in reconstructive microsurgery. Although ischemia-reperfusion (I/R) injury is a well-studied aspect of flap survival, its biological mechanisms remain to be elucidated. To better understand the biological processes of ischemia reperfusion injury, and to develop further therapeutic strategies, the main objective of this study was to identify the gene expression pattern and histological changes in an I/R injury animal model. Fourteen rats (n = 7/group) were randomly divided into control or ischemia-reperfusion group (8 hours of ischemia). Microsurgical anastomoses were objectively assessed using transit-time-ultrasound technology. Seven days after surgery, flap survival was evaluated and tissue samples were harvested for anatomopathological and gene-expression analyses.The I/R injury reduced the survival of free flaps and histological analyses revealed a subcutaneous edema together with an inflammatory infiltrate. Interestingly, the Arginase 1 expression level as well as the ratio of Arginase 1/Nitric oxide synthase 2 showed a significant increase in the I/R group. In summary, here we describe a well-characterized I/R animal model that may serve to evaluate therapeutic agents under reproducible and controlled conditions. Moreover, this model could be especially useful for the evaluation of arginase inhibitors and different compounds of potential interest in reconstructive microsurgery., Competing Interests: The authors have declared that no competing interests exist.

Published
2018
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37. Altered hematological, biochemical and immunological parameters as predictive biomarkers of severity in experimental myocardial infarction.

Author

Blázquez R, Álvarez V, Antequera-Barroso JA, Báez-Díaz C, Blanco V, Maestre J, Moreno-Lobato B, López E, Marinaro F, Casado JG, Crisóstomo V, and Sánchez-Margallo FM

Subjects
Alanine Transaminase blood, Animals, Disease Models, Animal, Erythrocyte Count, Female, Heart Function Tests, Hematocrit, Hemoglobins analysis, Magnetic Resonance Imaging, Male, Myocardial Infarction diagnostic imaging, Prospective Studies, Swine, gamma-Glutamyltransferase blood, Biomarkers blood, Myocardial Infarction blood, Myocardial Infarction immunology
Abstract

Preclinical studies in cardiovascular medicine are necessary to translate basic research to the clinic. The porcine model has been widely used to understand the biological mechanisms involved in cardiovascular disorders for which purpose different closed-chest models have been developed in the last years to mimic the pathophysiological events seen in human myocardial infarction. In this work, we studied hematological, biochemical and immunological parameters, as well as Magnetic resonance derived cardiac function measurements obtained from a swine myocardial infarction model. We identified some blood parameters which were significantly altered after myocardial infarction induction. More importantly, these parameters (gamma-glutamyl transferase, glutamic pyruvic transaminase, red blood cell counts, hemoglobin concentration, hematocrit, platelet count and plateletcrit) correlated positively with cardiac function, infarct size and/or cardiac enzymes (troponin I and creatine kinase-MB). Thus several blood-derived parameters have allowed us to predict the severity of myocardial infarction in a clinically relevant animal model. Therefore, here we provide a simple, affordable and reliable way that could prove useful in the follow up of myocardial infarction and in the evaluation of new therapeutic strategies in this animal model., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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38. Extracellular vesicles derived from endometrial human mesenchymal stem cells improve IVF outcome in an aged murine model.

Author

Marinaro F, Pericuesta E, Sánchez-Margallo FM, Casado JG, Álvarez V, Matilla E, Hernández N, Blázquez R, González-Fernández L, Gutiérrez-Adán A, and Macías-García B

Subjects
Animals, Disease Models, Animal, Embryonic Development, Female, Gene Expression, Humans, In Vitro Oocyte Maturation Techniques veterinary, Male, Mice, Reactive Oxygen Species metabolism, Spermatozoa, Zygote, Blastocyst physiology, Endometrium physiology, Extracellular Vesicles physiology, Fertilization in Vitro veterinary, Mesenchymal Stem Cells cytology
Abstract

Advanced age reduces the success of in vitro fertilization (IVF) being this effect partly mediated by an overproduction of reactive oxygen species (ROS) that trigger apoptosis. It has been demonstrated that extracellular vesicles derived from endometrial mesenchymal stem cells (EV-endMSCs) exert an antioxidant effect and can be used as IVF coadjutants. In this work, endMSCs were isolated from human menstrual blood (n = 4) and characterized according to multipotentiality and surface marker expression prior EV-endMSCs isolation. Oocytes were obtained from 21 B6D2 mice (24 weeks) and coincubated with sperm from young males (8-12 weeks). Presumptive zygotes were incubated in the presence of 0, 10, 20, 40 or 80 μg/ml of EV-endMSCs in KSOM medium. Blastocyst yield was evaluated, and 25 blastocysts per group were used for qPCR. Blastocyst rate was 29.4% in control; 45.2% for 10 μg/ml, 62.9% for 20 μg/ml, 55.5% for 40 μg/ml and 53.8% in the 80 μg/ml (n = 124-130 oocytes) being all the increases significantly different when compared against control (p < 0.05). The 20-80 μg/ml treatments decreased the expression of glutathione peroxidase (Gpx1), and the 10-40 μg/ml treatments reduced the expression of superoxide dismutase (Sod1; p < 0.05) compared to control; Bax mRNA expression did not vary. Our results suggest that the increased developmental competence of the embryos could be partly mediated by the EV-endMSCs' ROS scavenger activity., (© 2018 Blackwell Verlag GmbH.)

Published
2018
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39. DGCR8 Promotes Neural Progenitor Expansion and Represses Neurogenesis in the Mouse Embryonic Neocortex.

Author

Hoffmann N, Weise SC, Marinaro F, Vogel T, and De Pietri Tonelli D

Abstract

DGCR8 and DROSHA are the minimal functional core of the Microprocessor complex essential for biogenesis of canonical microRNAs and for the processing of other RNAs. Conditional deletion of Dgcr8 and Drosha in the murine telencephalon indicated that these proteins exert crucial functions in corticogenesis. The identification of mechanisms of DGCR8- or DROSHA-dependent regulation of gene expression in conditional knockout mice are often complicated by massive apoptosis. Here, to investigate DGCR8 functions on amplification/differentiation of neural progenitors cells (NPCs) in corticogenesis, we overexpress Dgcr8 in the mouse telencephalon, by in utero electroporation ( IU Ep). We find that DGCR8 promotes the expansion of NPC pools and represses neurogenesis, in absence of apoptosis, thus overcoming the usual limitations of Dgcr8 knockout-based approach. Interestingly, DGCR8 selectively promotes basal progenitor amplification at later developmental stages, entailing intriguing implications for neocortical expansion in evolution. Finally, despite a 3- to 5-fold increase of DGCR8 level in the mouse telencephalon, the composition, target preference and function of the DROSHA-dependent Microprocessor complex remain unaltered. Thus, we propose that DGCR8-dependent modulation of gene expression in corticogenesis is more complex than previously known, and possibly DROSHA-independent.

Published
2018
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40. Murine embryos exposed to human endometrial MSCs-derived extracellular vesicles exhibit higher VEGF/PDGF AA release, increased blastomere count and hatching rates.

Author

Blázquez R, Sánchez-Margallo FM, Álvarez V, Matilla E, Hernández N, Marinaro F, Gómez-Serrano M, Jorge I, Casado JG, and Macías-García B

Subjects
Animals, Blastomeres physiology, Cell Differentiation, Coculture Techniques, Embryo, Mammalian metabolism, Embryonic Development, Endometrium metabolism, Female, Fertilization in Vitro, Humans, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Mice, Multipotent Stem Cells cytology, Multipotent Stem Cells metabolism, Blastomeres cytology, Endometrium cytology, Extracellular Vesicles physiology, Platelet-Derived Growth Factor metabolism, Vascular Endothelial Growth Factor A metabolism
Abstract

Endometrial Mesenchymal Stromal Cells (endMSCs) are multipotent cells with immunomodulatory and pro-regenerative activity which is mainly mediated by a paracrine effect. The exosomes released by MSCs have become a promising therapeutic tool for the treatment of immune-mediated diseases. More specifically, extracellular vesicles derived from endMSCs (EV-endMSCs) have demonstrated a cardioprotective effect through the release of anti-apoptotic and pro-angiogenic factors. Here we hypothesize that EV-endMSCs may be used as a co-adjuvant to improve in vitro fertilization outcomes and embryo quality. Firstly, endMSCs and EV-endMSCs were isolated and phenotypically characterized for in vitro assays. Then, in vitro studies were performed on murine embryos co-cultured with EV-endMSCs at different concentrations. Our results firstly demonstrated a significant increase on the total blastomere count of expanded murine blastocysts. Moreover, EV-endMSCs triggered the release of pro-angiogenic molecules from embryos demonstrating an EV-endMSCs concentration-dependent increase of VEGF and PDGF-AA. The release of VEGF and PDGF-AA by the embryos may indicate that the beneficial effect of EV-endMSCs could be mediating not only an increase in the blastocyst's total cell number, but also may promote endometrial angiogenesis, vascularization, differentiation and tissue remodeling. In summary, these results could be relevant for assisted reproduction being the first report describing the beneficial effect of human EV-endMSCs on embryo development.

Published
2018
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41. Fibrin glue mesh fixation combined with mesenchymal stem cells or exosomes modulates the inflammatory reaction in a murine model of incisional hernia.

Author

Blázquez R, Sánchez-Margallo FM, Álvarez V, Usón A, Marinaro F, and Casado JG

Subjects
Animals, Cytokines immunology, Disease Models, Animal, Exosomes pathology, Inflammation immunology, Inflammation pathology, Inflammation therapy, Macrophages immunology, Macrophages pathology, Mesenchymal Stem Cells pathology, Mice, Mice, Inbred ICR, Th1 Cells immunology, Th1 Cells pathology, Th2 Cells immunology, Th2 Cells pathology, Exosomes immunology, Fibrin Tissue Adhesive pharmacology, Hernia, Abdominal immunology, Hernia, Abdominal pathology, Hernia, Abdominal therapy, Herniorrhaphy, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells immunology
Abstract

Surgical meshes are effective and frequently used to reinforce soft tissues. Fibrin glue (FG) has been widely used for mesh fixation and is also considered an optimal vehicle for stem cell delivery. The aim of this preclinical study was to evaluate the therapeutic effect of MSCs and their exosomes combined with FG for the treatment of incisional hernia. A murine incisional hernia model was used to implant surgical meshes and different treatments with FG, MSCs and exo-MSCs were applied. The implanted meshes were evaluated at day 7 by anatomopathology, cellular analysis of infiltrating leukocytes and gene expression analysis of TH1/TH2 cytokines, MMPs, TIMPs and collagens. Our results demonstrated a significant increase of anti-inflammatory M2 macrophages and TH2 cytokines when MSCs or exo-MSCs were used. Moreover, the analysis of MMPs, TIMPs and collagen exerted significant differences in the extracellular matrix and in the remodeling process. Our in vivo study suggests that the fixation of surgical meshes with FG and MSCs or exo-MSCs will have a beneficial effect for the treatment of incisional hernia in terms of improved outcomes of damaged tissue, and especially, in the modulation of inflammatory responses towards a less aggressive and pro-regenerative profile., Statement of Significance: The implantation of surgical meshes is the standard procedure to reinforce tissue defects such as hernias. However, an exacerbated and persistent inflammatory response secondary to this implantation is frequently observed, leading to a strong discomfort and chronic pain in the patients. In many cases, an additional surgical intervention is needed to remove the mesh. This study shows that mesenchymal stem cells and their exosomes, combined with a fibrin sealant, can be used for the successful fixation of these meshes. This new therapeutic approach, assayed in a murine model of incisional hernia, favors the modulation of the inflammatory response towards a less aggressive and pro-regenerative profile., (Copyright © 2018 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published
2018
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42. Developmental excitatory-to-inhibitory GABA-polarity switch is disrupted in 22q11.2 deletion syndrome: a potential target for clinical therapeutics.

Author

Amin H, Marinaro F, De Pietri Tonelli D, and Berdondini L

Subjects
Animals, Bumetanide pharmacology, Disease Models, Animal, Hippocampus embryology, Hippocampus physiopathology, Mice, Inbred C57BL, Nerve Net pathology, Nerve Net physiopathology, Nerve Tissue Proteins metabolism, Neurites metabolism, Neuronal Plasticity drug effects, DiGeorge Syndrome drug therapy, DiGeorge Syndrome physiopathology, Molecular Targeted Therapy, Neural Inhibition physiology, gamma-Aminobutyric Acid metabolism
Abstract

Individuals with 22q11.2 microdeletion syndrome (22q11.2 DS) show cognitive and behavioral dysfunctions, developmental delays in childhood and risk of developing schizophrenia and autism. Despite extensive previous studies in adult animal models, a possible embryonic root of this syndrome has not been determined. Here, in neurons from a 22q11.2 DS mouse model (Lgdel +/- ), we found embryonic-premature alterations in the neuronal chloride cotransporters indicated by dysregulated NKCC1 and KCC2 protein expression levels. We demonstrate with large-scale spiking activity recordings a concurrent deregulation of the spontaneous network activity and homeostatic network plasticity. Additionally, Lgdel +/- networks at early development show abnormal neuritogenesis and void of synchronized spontaneous activity. Furthermore, parallel experiments on Dgcr8 +/- mouse cultures reveal a significant, yet not exclusive contribution of the dgcr8 gene to our phenotypes of Lgdel +/- networks. Finally, we show that application of bumetanide, an inhibitor of NKCC1, significantly decreases the hyper-excitable action of GABA A receptor signaling and restores network homeostatic plasticity in Lgdel +/- networks. Overall, by exploiting an on-a-chip 22q11.2 DS model, our results suggest a delayed GABA-switch in Lgdel +/- neurons, which may contribute to a delayed embryonic development. Prospectively, acting on the GABA-polarity switch offers a potential target for 22q11.2 DS therapeutic intervention.

Published
2017
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43. The anti-Müllerian hormone (AMH) induces forkhead box L2 (FOXL2) expression in primary culture of human granulosa cells in vitro.

Author

Sacchi S, Marinaro F, Xella S, Marsella T, Tagliasacchi D, and La Marca A

Subjects
Anti-Mullerian Hormone administration & dosage, Female, Gene Expression Regulation, Developmental drug effects, Granulosa Cells metabolism, Humans, Primary Cell Culture, Recombinant Proteins administration & dosage, Recombinant Proteins genetics, Anti-Mullerian Hormone genetics, Aromatase genetics, Forkhead Box Protein L2 genetics, Steroids biosynthesis
Abstract

Purpose: Anti-Müllerian hormone (AMH) and forkhead box L2 (FOXL2) are two pivotal genes expressed in human granulosa cells (hGCs) where both genes share similar inhibitory functions on activation and follicular growth in order to preserve the ovarian follicle reserve. Furthermore, AMH and FOXL2 contribute to inhibit steroidogenesis, decreasing or preventing the activation of gonadotrophin-dependent aromatase CYP19A1 cytochrome P450 family 19 subfamily A member 1 (CYP19A1). The purpose of this study is to evaluate the role of AMH in regulating the expression of FOXL2., Methods: Primary cultures of hGCs were treated with increasing concentrations of recombinant human AMH (rhAMH; range 10-100 ng/ml) for 3 h. Negative controls were performed using corresponding amounts of AMH vehicle. Total RNA or proteins were purified and quantified by spectrophotometry. FOXL2 and CYP19A1 gene expression, normalized by reference gene ribosomal protein S7 (RpS7), was evaluated by RT-qPCR. Each reaction was repeated in triplicate. Statistical analysis was performed. Extracted proteins were analyzed by immunoblot using anti-FOXL2 and anti-β-actin as primary antibodies., Results: rhAMH treatments tested did not modulate the basal expression of aromatase CYP19A1 gene. rhAMH (50 ng/ml) was able to increase FOXL2 gene expression and its intracellular content., Conclusions: This study demonstrated the existence of an AMH-FOXL2 relationship in hGCs. AMH is capable of increasing both gene and protein expression of FOXL2. Because FOXL2 induces AMH transcription, these ovarian factors could be finely regulated by a positive feedback loop mechanism to preserve the ovarian follicle reserve.

Published
2017
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44. Lamin B1 levels modulate differentiation into neurons during embryonic corticogenesis.

Author

Mahajani S, Giacomini C, Marinaro F, De Pietri Tonelli D, Contestabile A, and Gasparini L

Subjects
Animals, Animals, Newborn, Astrocytes cytology, Cell Differentiation, Cerebral Cortex cytology, Cerebral Cortex growth & development, Embryo, Mammalian, Female, Gene Expression Regulation, Developmental, Glial Fibrillary Acidic Protein metabolism, Lamin Type B antagonists & inhibitors, Lamin Type B metabolism, Mice, Mice, Inbred C57BL, Neural Stem Cells cytology, Neural Stem Cells metabolism, Neurons cytology, Pregnancy, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Signal Transduction, Astrocytes metabolism, Cerebral Cortex metabolism, Glial Fibrillary Acidic Protein genetics, Lamin Type B genetics, Neurogenesis genetics, Neurons metabolism
Abstract

Lamin B1, a key component of the nuclear lamina, plays an important role in brain development. Ablation of endogenous Lamin B1 (Lmnb1) in the mouse strongly impairs embryonic brain development and corticogenesis. However, the mechanisms underlying these neurodevelopmental effects are unknown. Here, we report that Lamin B1 levels modulate the differentiation of murine neural stem cells (NSCs) into neurons and astroglial-like cells. In vitro, endogenous Lmnb1 depletion favors NSC differentiation into glial fibrillar acidic protein (GFAP)-immunoreactive cells over neurons, while overexpression of human Lamin B1 (LMNB1) increases the proportion of neurons. In Lmnb1-null embryos, neurogenesis is reduced, while in vivo Lmnb1 silencing in mouse embryonic brain by in utero electroporation of a specific Lmnb1 sh-RNA results in aberrant cortical positioning of neurons and increased expression of the astrocytic marker GFAP in the cortex of 7-day old pups. Together, these results indicate that finely tuned levels of Lamin B1 are required for NSC differentiation into neurons, proper expression of the astrocytic marker GFAP and corticogenesis.

Published
2017
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45. MicroRNA-independent functions of DGCR8 are essential for neocortical development and TBR1 expression.

Author

Marinaro F, Marzi MJ, Hoffmann N, Amin H, Pelizzoli R, Niola F, Nicassio F, and De Pietri Tonelli D

Subjects
Animals, Apoptosis genetics, Basic Helix-Loop-Helix Transcription Factors, Cell Line, Cell Proliferation, DNA-Binding Proteins metabolism, Gene Deletion, Homeodomain Proteins metabolism, Mice, Mice, Knockout, Mice, Transgenic, Neocortex pathology, Nerve Tissue Proteins, Neural Stem Cells cytology, Neural Stem Cells metabolism, Neurogenesis genetics, Neurons metabolism, RNA Interference, RNA-Binding Proteins metabolism, T-Box Domain Proteins, Transcription Factors metabolism, DNA-Binding Proteins genetics, Gene Expression Regulation, Developmental, MicroRNAs genetics, Neocortex embryology, Neocortex metabolism, RNA-Binding Proteins genetics
Abstract

Recent evidence indicates that the miRNA biogenesis factors DROSHA, DGCR8, and DICER exert non-overlapping functions, and have also roles in miRNA-independent regulatory mechanisms. However, it is currently unknown whether miRNA-independent functions of DGCR8 play any role in the maintenance of neuronal progenitors and during corticogenesis. Here, by phenotypic comparison of cortices from conditional Dgcr8 and Dicer knockout mice, we show that Dgcr8 deletion, in contrast to Dicer depletion, leads to premature differentiation of neural progenitor cells and overproduction of TBR1-positive neurons. Remarkably, depletion of miRNAs upon DCGR8 loss is reduced compared to DICER loss, indicating that these phenotypic differences are mediated by miRNA-independent functions of DGCR8. We show that Dgcr8 mutations induce an earlier and stronger phenotype in the developing nervous system compared to Dicer mutants and that miRNA-independent functions of DGCR8 are critical for corticogenesis. Finally, our data also suggest that the Microprocessor complex, with DROSHA and DGCR8 as core components, directly regulates the Tbr1 transcript, containing evolutionarily conserved hairpins that resemble miRNA precursors, independently of miRNAs., (© 2017 The Authors.)

Published
2017
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46. Modulation of gonadotrophin induced steroidogenic enzymes in granulosa cells by d-chiroinositol.

Author

Sacchi S, Marinaro F, Tondelli D, Lui J, Xella S, Marsella T, Tagliasacchi D, Argento C, Tirelli A, Giulini S, and La Marca A

Subjects
Adult, Cells, Cultured, Dose-Response Relationship, Drug, Enzyme Induction drug effects, Enzyme Induction physiology, Female, Fertilization in Vitro methods, Humans, Aromatase biosynthesis, Gonadotropins pharmacology, Granulosa Cells drug effects, Granulosa Cells enzymology, Inositol pharmacology, Receptor, IGF Type 1 biosynthesis
Abstract

Background: d-chiroinositol (DCI) is a inositolphosphoglycan (IPG) involved in several cellular functions that control the glucose metabolism. DCI functions as second messenger in the insulin signaling pathway and it is considered an insulin sensitizer since deficiency in tissue availability of DCI were shown to cause insulin resistance (IR). Polycystic ovary syndrome (PCOS) is a pathological condition that is often accompanied with insulin resistance. DCI can positively affects several aspect of PCOS etiology decreasing the total and free testosterone, lowering blood pressure, improving the glucose metabolism and increasing the ovulation frequency. The purpose of this study was to evaluate the effects of DCI and insulin combined with gonadotrophins namely follicle-stimulating hormone (FSH) and luteinizing hormone (LH) on key steroidogenic enzymes genes regulation, cytochrome P450 family 19 subfamily A member 1 (CYP19A1) and cytochrome P450 side-chain cleavage (P450scc) in primary cultures of human granulosa cells (hGCs). We also investigated whether DCI, being an insulin-sensitizer would be able to counteract the expected stimulator activity of insulin on human granulosa cells (hGCs)., Methods: The study was conducted on primary cultures of hGCs. Gene expression was evaluated by RT-qPCR method. Statistical analysis was performed applying student t-test, as appropriate (P < 0.05) set for statistical significance., Results: DCI is able to reduce the gene expression of CYP19A1, P450scc and insulin-like growth factor 1 receptor (IGF-1R) in dose-response manner. The presence of DCI impaired the increased expression of steroidogenic enzyme genes generated by the insulin treatment in gonadotrophin-stimulated hGCs., Conclusions: Insulin acts as co-gonadotrophin increasing the expression of steroidogenic enzymes genes in gonadotrophin-stimulated granulosa cells. DCI is an insulin-sensitizer that counteracts this action by reducing the expression of the genes CYP19A1, P450scc and IGF-1R. The ability of DCI to modulate in vitro ovarian activity of insulin could in part explain its beneficial effect when used as treatment for conditions associated to insulin resistance.

Published
2016
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47. Electrical Responses and Spontaneous Activity of Human iPS-Derived Neuronal Networks Characterized for 3-month Culture with 4096-Electrode Arrays.

Author

Amin H, Maccione A, Marinaro F, Zordan S, Nieus T, and Berdondini L

Abstract

The recent availability of human induced pluripotent stem cells (hiPSCs) holds great promise as a novel source of human-derived neurons for cell and tissue therapies as well as for in vitro drug screenings that might replace the use of animal models. However, there is still a considerable lack of knowledge on the functional properties of hiPSC-derived neuronal networks, thus limiting their application. Here, upon optimization of cell culture protocols, we demonstrate that both spontaneous and evoked electrical spiking activities of these networks can be characterized on-chip by taking advantage of the resolution provided by CMOS multielectrode arrays (CMOS-MEAs). These devices feature a large and closely-spaced array of 4096 simultaneously recording electrodes and multi-site on-chip electrical stimulation. Our results show that networks of human-derived neurons can respond to electrical stimulation with a physiological repertoire of spike waveforms after 3 months of cell culture, a period of time during which the network undergoes the expression of developing patterns of spontaneous spiking activity. To achieve this, we have investigated the impact on the network formation and on the emerging network-wide functional properties induced by different biochemical substrates, i.e., poly-dl-ornithine (PDLO), poly-l-ornithine (PLO), and polyethylenimine (PEI), that were used as adhesion promoters for the cell culture. Interestingly, we found that neuronal networks grown on PDLO coated substrates show significantly higher spontaneous firing activity, reliable responses to low-frequency electrical stimuli, and an appropriate level of PSD-95 that may denote a physiological neuronal maturation profile and synapse stabilization. However, our results also suggest that even 3-month culture might not be sufficient for human-derived neuronal network maturation. Taken together, our results highlight the tight relationship existing between substrate coatings and emerging network properties, i.e., spontaneous activity, responsiveness, synapse formation and maturation. Additionally, our results provide a baseline on the functional properties expressed over 3 months of network development for a commercially available line of hiPSC-derived neurons. This is a first step toward the development of functional pre-clinical assays to test pharmaceutical compounds on human-derived neuronal networks with CMOS-MEAs.

Published
2016
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48. MicroRNA 199b-5p delivery through stable nucleic acid lipid particles (SNALPs) in tumorigenic cell lines.

Author

de Antonellis P, Liguori L, Falanga A, Carotenuto M, Ferrucci V, Andolfo I, Marinaro F, Scognamiglio I, Virgilio A, De Rosa G, Galeone A, Galdiero S, and Zollo M

Subjects
Apoptosis, Caspase 3 metabolism, Caspase 7 metabolism, Cell Line, Tumor, Cell Proliferation, HEK293 Cells, Humans, Liposomes, MicroRNAs chemistry, Lipids chemistry, MicroRNAs administration & dosage
Abstract

MicroRNA (miR)-199b-5p has been shown to regulate Hes-1, a downstream effector of the canonical Notch and noncanonical SHH pathways, whereby it impairs medulloblastoma (MB) cancer stem cells (CSCs) through a decrease in the CD133+/CD15+ cell population. Here, we have developed stable nucleic acid lipid particles (SNALPs) that encapsulate miR-199b-5p. The efficacy of the miR-199b-5p delivery by these SNALPs is demonstrated by significant impairment of Hes-1 levels and CSC markers in a range of different tumorigenic cell lines: colon (HT-29, CaCo-2, and SW480), breast (MDA-MB231T and MCF-7), prostate (PC-3), glioblastoma (U-87), and MB (Daoy, ONS-76, and UW-228). After treatment with SNALP miR-199b-5p, there is also impairment of cell proliferation and no signs of apoptosis, as measured by caspases 3/7 activity and annexin V fluorescence cell sorter analyses. These data strengthen the importance of such carriers for miRNA delivery, which show no cytotoxic effects and provide optimal uptake into cells. Thus, efficient target downregulation in different tumorigenic cell lines will be the basis for future preclinical studies.

Published
2013
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49. Convergent repression of Foxp2 3'UTR by miR-9 and miR-132 in embryonic mouse neocortex: implications for radial migration of neurons.

Author

Clovis YM, Enard W, Marinaro F, Huttner WB, and De Pietri Tonelli D

Subjects
Animals, Cell Movement genetics, Cells, Cultured, Forkhead Transcription Factors genetics, In Situ Hybridization, Mice, MicroRNAs genetics, Repressor Proteins genetics, 3' Untranslated Regions genetics, Cell Movement physiology, Forkhead Transcription Factors metabolism, MicroRNAs metabolism, Neocortex metabolism, Neurons cytology, Neurons metabolism, Repressor Proteins metabolism
Abstract

MicroRNAs (miRNAs) are rapidly emerging as a new layer of regulation of mammalian brain development. However, most of the miRNA target genes remain unidentified. Here, we explore gene expression profiling upon miRNA depletion and in vivo target validation as a strategy to identify novel miRNA targets in embryonic mouse neocortex. By this means, we find that Foxp2, a transcription factor associated with speech and language development and evolution, is a novel miRNA target. In particular, we find that miR-9 and miR-132 are able to repress ectopic expression of Foxp2 protein by targeting its 3' untranslated region (3'UTR) in vivo. Interestingly, ectopic expression of Foxp2 in cortical projection neurons (a scenario that mimics the absence of miRNA-mediated silencing of Foxp2 expression) delays neurite outgrowth in vitro and impairs their radial migration in embryonic mouse neocortex in vivo. Our results uncover a new layer of control of Foxp2 expression that may be required for proper neuronal maturation.

Published
2012
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50. The micro-RNA 199b-5p regulatory circuit involves Hes1, CD15, and epigenetic modifications in medulloblastoma.

Author

Andolfo I, Liguori L, De Antonellis P, Cusanelli E, Marinaro F, Pistollato F, Garzia L, De Vita G, Petrosino G, Accordi B, Migliorati R, Basso G, Iolascon A, Cinalli G, and Zollo M

Subjects
Basic Helix-Loop-Helix Transcription Factors genetics, Blotting, Western, Cell Proliferation, Cells, Cultured, Cerebellar Neoplasms metabolism, Cerebellar Neoplasms pathology, Child, Preschool, Chromatin Immunoprecipitation, CpG Islands, DNA Methylation, Female, Flow Cytometry, Fucosyltransferases genetics, Homeodomain Proteins genetics, Humans, Infant, Kidney cytology, Kidney metabolism, Lewis X Antigen genetics, Male, Medulloblastoma metabolism, Medulloblastoma pathology, MicroRNAs metabolism, Primary Cell Culture, Promoter Regions, Genetic genetics, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Transcription Factor HES-1, Basic Helix-Loop-Helix Transcription Factors metabolism, Cerebellar Neoplasms genetics, Epigenomics, Fucosyltransferases metabolism, Gene Expression Regulation, Neoplastic, Homeodomain Proteins metabolism, Lewis X Antigen metabolism, Medulloblastoma genetics, MicroRNAs genetics
Abstract

Micro-RNA (miR) 199b-5p targets Hes1 in medulloblastoma, one of the downstream effectors of both the canonical Notch and noncanonical Sonic Hedgehog pathways. In medulloblastoma patients, expression of miR-199b-5p is significantly decreased in metastatic cases, thus suggesting a downregulation mechanism. We studied this mechanism, which is mediated mostly by Hes1 and epigenetic promoter modifications. The miR-199b-5p promoter region was characterized, which identified a Hes1 binding site, thus demonstrating a negative feedback loop of regulation. MiR-199b-5p was shown to be downregulated in several medulloblastoma cell lines and in tumors by epigenetic methylation of a cytosine-phosphate-guanine island upstream of the miR-199b-5p promoter. Furthermore, the cluster of differention (CD) carbohydrate antigen CD15, a marker of medulloblastoma tumor-propagating cells, is an additional direct target of miR-199b-5p. Most importantly, regulation of miR-199b-5p expression in these CD15+/CD133+ tumor-propagating cells was influenced by only Hes1 expression and not by any epigenetic mechanism of regulation. Moreover, reverse-phase protein array analysis showed both the Akt and extracellular-signal-regulated kinase pathways as being mainly negatively regulated by miR-199b-5p expression in several medulloblastoma cell lines and in primary cell cultures. We present here the finely tuned regulation of miR-199b-5p in medulloblastoma, underlining its crucial role by its additional targeting of CD15.

Published
2012
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