A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction

About 30% of patients with diffuse large B-cell lymphoma (DLBCL) relapse or exhibit refractory disease (r/r DLBCL) after first-line immunochemotherapy. Bone marrow (BM) involvement confers a dismal prognosis at diagnosis, likely due to the interaction between neoplastic cells and a complex tumor mic...

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Autores principales: Ceccato, Jessica, Piazza, Maria, Pizzi, Marco, Manni, Sabrina, Piazza, Francesco, Caputo, Ilaria, Cinetto, Francesco, Pisoni, Lorena, Trojan, Diletta, Scarpa, Riccardo, Zambello, Renato, Tos, Angelo Paolo Dei, Trentin, Livio, Semenzato, Gianpietro, Vianello, Fabrizio
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Oncology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9623125/
https://www.ncbi.nlm.nih.gov/pubmed/36330473
http://dx.doi.org/10.3389/fonc.2022.947823
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author Ceccato, Jessica
Piazza, Maria
Pizzi, Marco
Manni, Sabrina
Piazza, Francesco
Caputo, Ilaria
Cinetto, Francesco
Pisoni, Lorena
Trojan, Diletta
Scarpa, Riccardo
Zambello, Renato
Tos, Angelo Paolo Dei
Trentin, Livio
Semenzato, Gianpietro
Vianello, Fabrizio
author_facet Ceccato, Jessica
Piazza, Maria
Pizzi, Marco
Manni, Sabrina
Piazza, Francesco
Caputo, Ilaria
Cinetto, Francesco
Pisoni, Lorena
Trojan, Diletta
Scarpa, Riccardo
Zambello, Renato
Tos, Angelo Paolo Dei
Trentin, Livio
Semenzato, Gianpietro
Vianello, Fabrizio
author_sort Ceccato, Jessica
collection PubMed
description About 30% of patients with diffuse large B-cell lymphoma (DLBCL) relapse or exhibit refractory disease (r/r DLBCL) after first-line immunochemotherapy. Bone marrow (BM) involvement confers a dismal prognosis at diagnosis, likely due to the interaction between neoplastic cells and a complex tumor microenvironment (TME). Therefore, we developed a 3D in-vitro model from human decellularized femoral bone fragments aiming to study the role of mesenchymal stromal cells (MSC) and the extracellular matrix (ECM) in the adaptation, growth, and drug resistance of DLBCL lymphoma cells. The 3D spatial configuration of the model was studied by histological analysis and confocal and multiphoton microscopy which allowed the 3D digital reproduction of the structure. We proved that MSC adapt and expand in the 3D scaffold generating niches in which also other cell types may grow. DLBCL cell lines adhered and grew in the 3D scaffold, both in the presence and absence of MSC, suggesting an active ECM–lymphocyte interaction. We found that the germinal center B-cell (GCB)-derived OCI-LY18 cells were more resistant to doxorubicin-induced apoptosis when growing in the decellularized 3D bone scaffold compared to 2D cultures (49.9% +/- 7.7% Annexin V(+) cells in 2D condition compared to 30.7% + 9.2% Annexin V(+) 3D adherent cells in the ECM model), thus suggesting a protective role of ECM. The coexistence of MSC in the 3D scaffold did not significantly affect doxorubicin-induced apoptosis of adherent OCI-LY18 cells (27.6% +/- 7.3% Annexin V(+) 3D adherent cells in the ECM/MSC model after doxorubicin treatment). On the contrary, ECM did not protect the activated B-cell (ABC)-derived NU-DUL-1 lymphoma cell line from doxorubicin-induced apoptosis but protection was observed when MSC were growing in the bone scaffold (40.6% +/- 5.7% vs. 62.1% +/- 5.3% Annexin V(+) 3D adherent cells vs. 2D condition). These data suggest that the interaction of lymphoma cells with the microenvironment may differ according to the DLBCL subtype and that 2D systems may fail to uncover this behavior. The 3D model we proposed may be improved with other cell types or translated to the study of other pathologies with the final goal to provide a tool for patient-specific treatment development.
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spelling pubmed-96231252022-11-02 A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction Ceccato, Jessica Piazza, Maria Pizzi, Marco Manni, Sabrina Piazza, Francesco Caputo, Ilaria Cinetto, Francesco Pisoni, Lorena Trojan, Diletta Scarpa, Riccardo Zambello, Renato Tos, Angelo Paolo Dei Trentin, Livio Semenzato, Gianpietro Vianello, Fabrizio Front Oncol Oncology About 30% of patients with diffuse large B-cell lymphoma (DLBCL) relapse or exhibit refractory disease (r/r DLBCL) after first-line immunochemotherapy. Bone marrow (BM) involvement confers a dismal prognosis at diagnosis, likely due to the interaction between neoplastic cells and a complex tumor microenvironment (TME). Therefore, we developed a 3D in-vitro model from human decellularized femoral bone fragments aiming to study the role of mesenchymal stromal cells (MSC) and the extracellular matrix (ECM) in the adaptation, growth, and drug resistance of DLBCL lymphoma cells. The 3D spatial configuration of the model was studied by histological analysis and confocal and multiphoton microscopy which allowed the 3D digital reproduction of the structure. We proved that MSC adapt and expand in the 3D scaffold generating niches in which also other cell types may grow. DLBCL cell lines adhered and grew in the 3D scaffold, both in the presence and absence of MSC, suggesting an active ECM–lymphocyte interaction. We found that the germinal center B-cell (GCB)-derived OCI-LY18 cells were more resistant to doxorubicin-induced apoptosis when growing in the decellularized 3D bone scaffold compared to 2D cultures (49.9% +/- 7.7% Annexin V(+) cells in 2D condition compared to 30.7% + 9.2% Annexin V(+) 3D adherent cells in the ECM model), thus suggesting a protective role of ECM. The coexistence of MSC in the 3D scaffold did not significantly affect doxorubicin-induced apoptosis of adherent OCI-LY18 cells (27.6% +/- 7.3% Annexin V(+) 3D adherent cells in the ECM/MSC model after doxorubicin treatment). On the contrary, ECM did not protect the activated B-cell (ABC)-derived NU-DUL-1 lymphoma cell line from doxorubicin-induced apoptosis but protection was observed when MSC were growing in the bone scaffold (40.6% +/- 5.7% vs. 62.1% +/- 5.3% Annexin V(+) 3D adherent cells vs. 2D condition). These data suggest that the interaction of lymphoma cells with the microenvironment may differ according to the DLBCL subtype and that 2D systems may fail to uncover this behavior. The 3D model we proposed may be improved with other cell types or translated to the study of other pathologies with the final goal to provide a tool for patient-specific treatment development. Frontiers Media S.A. 2022-10-18 /pmc/articles/PMC9623125/ /pubmed/36330473 http://dx.doi.org/10.3389/fonc.2022.947823 Text en Copyright © 2022 Ceccato, Piazza, Pizzi, Manni, Piazza, Caputo, Cinetto, Pisoni, Trojan, Scarpa, Zambello, Tos, Trentin, Semenzato and Vianello https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Oncology
Ceccato, Jessica
Piazza, Maria
Pizzi, Marco
Manni, Sabrina
Piazza, Francesco
Caputo, Ilaria
Cinetto, Francesco
Pisoni, Lorena
Trojan, Diletta
Scarpa, Riccardo
Zambello, Renato
Tos, Angelo Paolo Dei
Trentin, Livio
Semenzato, Gianpietro
Vianello, Fabrizio
A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction
title A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction
title_full A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction
title_fullStr A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction
title_full_unstemmed A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction
title_short A bone-based 3D scaffold as an in-vitro model of microenvironment–DLBCL lymphoma cell interaction
title_sort bone-based 3d scaffold as an in-vitro model of microenvironment–dlbcl lymphoma cell interaction
topic Oncology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9623125/
https://www.ncbi.nlm.nih.gov/pubmed/36330473
http://dx.doi.org/10.3389/fonc.2022.947823
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