Your search keyword '"Eleonora Scaccia"' showing total 2 results

1. Multicentre comparison of biological and functional properties of mesenchymal stromal cells from different sources cultivated using a harmonised manufacturing workflow

Author

Sandra Calcat-i-Cervera, Erika Rendra, Eleonora Scaccia, Francesco Amadeo, Vivien Hanson, Bettina Wilm, Patricia Murray, Timothy O’Brien, Arthur Taylor, and Karen Bieback

Abstract

BackgroundMesenchymal stromal cells (MSCs), commonly sourced from adipose tissue, bone marrow and umbilical cord, have been widely used in many medical conditions due to their therapeutic potential. Yet, the still limited understanding of the underlying mechanisms of action hampers clinical translation. Clinical potency can vary considerably depending on tissue source, donor attributes, but importantly, also culture conditions. Lack of standard procedures hinders inter-study comparability and delays the progression of the field. The aim of this study was A-to assess the impact on MSC characteristics when different laboratories performed analysis on the same MSC material using harmonised culture conditions and B-to understand source-specific differences.MethodsThree independent institutions performed a head-to-head comparison of human-derived adipose (A-), bone marrow (BM-), and umbilical cord (UC-) MSCs using harmonised culture conditions. In each centre, cells from one specific tissue source were isolated and later distributed across the network to assess their biological properties, including cell expansion, immune phenotype, and tri-lineage differentiation (part A). To assess tissue specific function, angiogenic and immunomodulatory properties and the in vivo biodistribution were compared in one expert lab (part B).ResultsBy implementing a harmonised manufacturing workflow, we obtained largely reproducible results across three independent laboratories in part A of our study. Unique growth patterns and differentiation potential were observed for each tissue source, with similar trends observed between centres. Immune phenotyping verified expression of typical MSC surface markers and absence of contaminating surface markers. Depending on the established protocols in the different laboratories, quantitative data varied slightly. Functional experiments in part B concluded that conditioned media from BM-MSCs significantly enhanced tubulogenesis and endothelial migration in vitro. In contrast, immunomodulatory studies reported superior immunosuppressive abilities for A-MSCs. Biodistribution studies in healthy mice showed lung entrapment after administration of all three types of MSCs, with a significantly faster clearance of BM-MSCs.ConclusionThese results show the heterogeneous behaviour and regenerative properties of MSCs as a reflection of intrinsic tissue-origin properties while providing evidence that the use of standardised culture procedures can reduce but not eliminate inter-lab and operator differences.HighlightsIn this study, we have:-Provided a harmonised manufacturing workflow that has demonstrated reproducible results across three independent laboratories when expanding MSCs.-Defined a multi-assay matrix capable of identifying functional differences in terms of angiogenesis, wound healing abilities and immunosuppressive properties.-Demonstrated similar in vivo biodistribution properties regardless of cell origin.

Published

2022

2. 'Human platelet lysate derived extracellular vesicles enhance angiogenesis through miR-126'

Author

Antonella Bordin, Maila Chirivì, Francesca Pagano, Marika Milan, Marco Iuliano, Eleonora Scaccia, Orazio Fortunato, Giorgio Mangino, Xhulio Dhori, Elisabetta De Marinis, Alessandra D’Amico, Selenia Miglietta, Vittorio Picchio, Roberto Rizzi, Giovanna Romeo, Fabio Pulcinelli, Isotta Chimenti, Giacomo Frati, and Elena De Falco

Abstract

Objectivesextracellular vesicles (EVs) are key biological mediators of several physiological functions within the cell microenvironment. Platelets are the most abundant source of EVs in the blood. Similarly, platelet lysate (PL), the best platelet derivative and angiogenic performer for regenerative purposes, is enriched of EVs, but their role is still too poorly discovered to be suitably exploited. Here we explored the contribution of the EVs in PL, by investigating the angiogenic features extrapolated from that possessed by PL.Methodswe tested angiogenic ability and molecular cargo in 3D bioprinted models and by RNA sequencing analysis of PL-derived EVs.Resultsa subset of small vesicles is highly represented in PL. The EVs do not retain aggregation ability, preserving a low redox state in HUVEC and increasing the angiogenic tubularly-like structures in 3D endothelial bioprinted constructs. EVs resembled the miRNome profile of PL, mainly enriched of small RNAs and a high amount of miR-126, the most abundant angiogenic miRNA in platelets. The transfer of miR-126 by EVs in HUVEC after the in vitro inhibition of the endogenous form, restored angiogenesis, without involving VEGF as downstream target in this system.ConclusionsPL is a biological source of available EVs with angiogenic effects involving a miRNAs-based cargo. These properties can be exploited for targeted molecular/biological manipulation of PL, by potentially developing a product exclusively manufactured of EVs.

Published

2022