An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites

An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites

Abstract Background Bone marrow (BM) niches are often inaccessible for controlled experimentation due to their difficult accessibility, biological complexity, and three-dimensional (3D) geometry. Methods Here, we report the development and characterization of a BM model comprising of cellular and st...

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Main Authors: Mónica S. Ventura Ferreira, Christian Bergmann, Isabelle Bodensiek, Kristina Peukert, Jessica Abert, Rafael Kramann, Paul Kachel, Björn Rath, Stephan Rütten, Ruth Knuchel, Benjamin L. Ebert, Horst Fischer, Tim H. Brümmendorf, Rebekka K. Schneider
Format: Article
Language:English
Published: BMC 2016-01-01
Series:Journal of Hematology & Oncology
Online Access:http://link.springer.com/article/10.1186/s13045-016-0234-9
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spelling doaj-5006b66a130b449286b2ee39139725212020-11-25T01:29:48ZengBMCJournal of Hematology & Oncology1756-87222016-01-019111410.1186/s13045-016-0234-9An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sitesMónica S. Ventura Ferreira0Christian Bergmann1Isabelle Bodensiek2Kristina Peukert3Jessica Abert4Rafael Kramann5Paul Kachel6Björn Rath7Stephan Rütten8Ruth Knuchel9Benjamin L. Ebert10Horst Fischer11Tim H. Brümmendorf12Rebekka K. Schneider13Department of Hematology, Oncology, Hemostaseology and Stem Cell Transplantation, University Hospital Aachen, RWTH Aachen UniversityDepartment of Dental Materials and Biomaterials Research, University Hospital Aachen, RWTH Aachen UniversityInstitute of Pathology, University Hospital Aachen, RWTH Aachen UniversityInstitute of Pathology, University Hospital Aachen, RWTH Aachen UniversityDepartment of Dental Materials and Biomaterials Research, University Hospital Aachen, RWTH Aachen UniversityDepartment of Clinical Immunology and Nephrology, University Hospital Aachen, RWTH Aachen UniversityInstitute of Pathology, University Hospital Aachen, RWTH Aachen UniversityDepartment of Orthopaedic Surgery, University Hospital Aachen, RWTH Aachen UniversityElectron Microscopy Facility, University Hospital Aachen, RWTH Aachen UniversityInstitute of Pathology, University Hospital Aachen, RWTH Aachen UniversityDivision of Hematology, Department of Medicine, Brigham and Women’s Hospital, Harvard Medical SchoolDepartment of Dental Materials and Biomaterials Research, University Hospital Aachen, RWTH Aachen UniversityDepartment of Hematology, Oncology, Hemostaseology and Stem Cell Transplantation, University Hospital Aachen, RWTH Aachen UniversityDepartment of Hematology, Oncology, Hemostaseology and Stem Cell Transplantation, University Hospital Aachen, RWTH Aachen UniversityAbstract Background Bone marrow (BM) niches are often inaccessible for controlled experimentation due to their difficult accessibility, biological complexity, and three-dimensional (3D) geometry. Methods Here, we report the development and characterization of a BM model comprising of cellular and structural components with increased potential for hematopoietic recapitulation at ectopic transplantation sites. Cellular components included mesenchymal stromal cells (MSCs) and hematopoietic stem and progenitor cells (HSPCs). Structural components included 3D β-tricalcium phosphate (β-TCP) scaffolds complemented with Matrigel or collagen I/III gels for the recreation of the osteogenic/extracellular character of native BM. Results In vitro, β-TCP/Matrigel combinations robustly maintained proliferation, osteogenic differentiation, and matrix remodeling capacities of MSCs and maintenance of HSPCs function over time. In vivo, scaffolds promoted strong and robust recruitment of hematopoietic cells to sites of ectopic transplantation, vascularization, and soft tissue formation. Conclusions Our tissue-engineered BM system is a powerful tool to explore the regulatory mechanisms of hematopoietic stem and progenitor cells for a better understanding of hematopoiesis in health and disease.http://link.springer.com/article/10.1186/s13045-016-0234-9
collection DOAJ
language English
format Article
sources DOAJ
author Mónica S. Ventura Ferreira
Christian Bergmann
Isabelle Bodensiek
Kristina Peukert
Jessica Abert
Rafael Kramann
Paul Kachel
Björn Rath
Stephan Rütten
Ruth Knuchel
Benjamin L. Ebert
Horst Fischer
Tim H. Brümmendorf
Rebekka K. Schneider
spellingShingle Mónica S. Ventura Ferreira
Christian Bergmann
Isabelle Bodensiek
Kristina Peukert
Jessica Abert
Rafael Kramann
Paul Kachel
Björn Rath
Stephan Rütten
Ruth Knuchel
Benjamin L. Ebert
Horst Fischer
Tim H. Brümmendorf
Rebekka K. Schneider
An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites
Journal of Hematology & Oncology
author_facet Mónica S. Ventura Ferreira
Christian Bergmann
Isabelle Bodensiek
Kristina Peukert
Jessica Abert
Rafael Kramann
Paul Kachel
Björn Rath
Stephan Rütten
Ruth Knuchel
Benjamin L. Ebert
Horst Fischer
Tim H. Brümmendorf
Rebekka K. Schneider
author_sort Mónica S. Ventura Ferreira
title An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites
title_short An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites
title_full An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites
title_fullStr An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites
title_full_unstemmed An engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites
title_sort engineered multicomponent bone marrow niche for the recapitulation of hematopoiesis at ectopic transplantation sites
publisher BMC
series Journal of Hematology & Oncology
issn 1756-8722
publishDate 2016-01-01
description Abstract Background Bone marrow (BM) niches are often inaccessible for controlled experimentation due to their difficult accessibility, biological complexity, and three-dimensional (3D) geometry. Methods Here, we report the development and characterization of a BM model comprising of cellular and structural components with increased potential for hematopoietic recapitulation at ectopic transplantation sites. Cellular components included mesenchymal stromal cells (MSCs) and hematopoietic stem and progenitor cells (HSPCs). Structural components included 3D β-tricalcium phosphate (β-TCP) scaffolds complemented with Matrigel or collagen I/III gels for the recreation of the osteogenic/extracellular character of native BM. Results In vitro, β-TCP/Matrigel combinations robustly maintained proliferation, osteogenic differentiation, and matrix remodeling capacities of MSCs and maintenance of HSPCs function over time. In vivo, scaffolds promoted strong and robust recruitment of hematopoietic cells to sites of ectopic transplantation, vascularization, and soft tissue formation. Conclusions Our tissue-engineered BM system is a powerful tool to explore the regulatory mechanisms of hematopoietic stem and progenitor cells for a better understanding of hematopoiesis in health and disease.
url http://link.springer.com/article/10.1186/s13045-016-0234-9
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