OBJECTIVES: Our study aims at producing acellular extracellular matrix scaffolds from the human pancreas (hpaECMs) as a first critical step toward the production of a new-generation, fully human-derived bioartificial endocrine pancreas. In this bioartificial endocrine pancreas, the hardware will be represented by hpaECMs, whereas the software will consist in the cellular compartment generated from patient's own cells. BACKGROUND: Extracellular matrix (ECM)-based scaffolds obtained through the decellularization of native organs have become the favored platform in the field of complex organ bioengineering. However, the paradigm is now switching from the porcine to the human model. METHODS: To achieve our goal, human pancreata were decellularized with Triton-based solution and thoroughly characterized. Primary endpoints were complete cell and DNA clearance, preservation of ECM components, growth factors and stiffness, ability to induce angiogenesis, conservation of the framework of the innate vasculature, and immunogenicity. Secondary endpoint was hpaECMs' ability to sustain growth and function of human islet and human primary pancreatic endothelial cells. RESULTS: Results show that hpaECMs can be successfully and consistently produced from human pancreata and maintain their innate molecular and spatial framework and stiffness, and vital growth factors. Importantly, hpaECMs inhibit human naïve CD4 T-cell expansion in response to polyclonal stimuli by inducing their apoptosis and promoting their conversion into regulatory T cells. hpaECMs are cytocompatible and supportive of representative pancreatic cell types. DISCUSSION: We, therefore, conclude that hpaECMs has the potential to become an ideal platform for investigations aiming at the manufacturing of a regenerative medicine-inspired bioartificial endocrine pancreas.
OBJECTIVES: Our study aims at producing acellular extracellular matrix scaffolds from the human pancreas (hpaECMs) as a first critical step toward the production of a new-generation, fully human-derived bioartificial endocrine pancreas. In this bioartificial endocrine pancreas, the hardware will be represented by hpaECMs, whereas the software will consist in the cellular compartment generated from patient's own cells. BACKGROUND: Extracellular matrix (ECM)-based scaffolds obtained through the decellularization of native organs have become the favored platform in the field of complex organ bioengineering. However, the paradigm is now switching from the porcine to the human model. METHODS: To achieve our goal, human pancreata were decellularized with Triton-based solution and thoroughly characterized. Primary endpoints were complete cell and DNA clearance, preservation of ECM components, growth factors and stiffness, ability to induce angiogenesis, conservation of the framework of the innate vasculature, and immunogenicity. Secondary endpoint was hpaECMs' ability to sustain growth and function of human islet and human primary pancreatic endothelial cells. RESULTS: Results show that hpaECMs can be successfully and consistently produced from human pancreata and maintain their innate molecular and spatial framework and stiffness, and vital growth factors. Importantly, hpaECMs inhibit human naïve CD4 T-cell expansion in response to polyclonal stimuli by inducing their apoptosis and promoting their conversion into regulatory T cells. hpaECMs are cytocompatible and supportive of representative pancreatic cell types. DISCUSSION: We, therefore, conclude that hpaECMs has the potential to become an ideal platform for investigations aiming at the manufacturing of a regenerative medicine-inspired bioartificial endocrine pancreas.
Authors: Giuseppe Orlando; Pierre Gianello; Marcus Salvatori; Robert J Stratta; Shay Soker; Camillo Ricordi; Juan Domínguez-Bendala Journal: Diabetes Date: 2014-05 Impact factor: 9.461
Authors: Giuseppe Orlando; Christopher Booth; Zhan Wang; Giorgia Totonelli; Christina L Ross; Emma Moran; Marcus Salvatori; Panagiotis Maghsoudlou; Mark Turmaine; Ginger Delario; Yousef Al-Shraideh; Umar Farooq; Alan C Farney; Jeffrey Rogers; Samy S Iskandar; Alan Burns; Frank C Marini; Paolo De Coppi; Robert J Stratta; Shay Soker Journal: Biomaterials Date: 2013-05-13 Impact factor: 12.479
Authors: Giuseppe Orlando; Kathryn J Wood; Paolo De Coppi; Pedro M Baptista; Kyle W Binder; Khalil N Bitar; Christopher Breuer; Luke Burnett; George Christ; Alan Farney; Marina Figliuzzi; James H Holmes; Kenneth Koch; Paolo Macchiarini; Sayed-Hadi Mirmalek Sani; Emmanuel Opara; Andrea Remuzzi; Jeffrey Rogers; Justin M Saul; Dror Seliktar; Keren Shapira-Schweitzer; Tom Smith; Daniel Solomon; Mark Van Dyke; James J Yoo; Yuanyuan Zhang; Anthony Atala; Robert J Stratta; Shay Soker Journal: Ann Surg Date: 2012-05 Impact factor: 12.969
Authors: Giuseppe Orlando; Pedro Baptista; Martin Birchall; Paolo De Coppi; Alan Farney; Nadia K Guimaraes-Souza; Emmanuel Opara; Jeffrey Rogers; Dror Seliktar; Keren Shapira-Schweitzer; Robert J Stratta; Anthony Atala; Kathryn J Wood; Shay Soker Journal: Transpl Int Date: 2010-11-10 Impact factor: 3.782
Authors: Alexander U Ernst; Daniel T Bowers; Long-Hai Wang; Kaavian Shariati; Mitchell D Plesser; Natalie K Brown; Tigran Mehrabyan; Minglin Ma Journal: Adv Drug Deliv Rev Date: 2019-02-02 Impact factor: 15.470
Authors: Astgik Petrosyan; Stefano Da Sacco; Nikita Tripuraneni; Ursula Kreuser; Maria Lavarreda-Pearce; Riccardo Tamburrini; Roger E De Filippo; Giuseppe Orlando; Paolo Cravedi; Laura Perin Journal: Matrix Biol Date: 2016-08-26 Impact factor: 11.583
Authors: Paolo Cravedi; Samira Farouk; Andrea Angeletti; Lauren Edgar; Riccardo Tamburrini; Jerome Duisit; Laura Perin; Giuseppe Orlando Journal: Transpl Int Date: 2017-10-05 Impact factor: 3.782
Authors: Jon Odorico; James Markmann; Douglas Melton; Julia Greenstein; Albert Hwa; Cristina Nostro; Alireza Rezania; Jose Oberholzer; Daniel Pipeleers; Luhan Yang; Chad Cowan; Danwei Huangfu; Dieter Egli; Uri Ben-David; Ludovic Vallier; Shane T Grey; Qizhi Tang; Bart Roep; Camilo Ricordi; Ali Naji; Giuseppe Orlando; Daniel G Anderson; Mark Poznansky; Barbara Ludwig; Alice Tomei; Dale L Greiner; Melanie Graham; Melissa Carpenter; Giovanni Migliaccio; Kevin D'Amour; Bernhard Hering; Lorenzo Piemonti; Thierry Berney; Mike Rickels; Thomas Kay; Ann Adams Journal: Transplantation Date: 2018-08 Impact factor: 4.939
Authors: Roberto Gaetani; Soraya Aude; Lea Lara DeMaddalena; Heinz Strassle; Monika Dzieciatkowska; Matthew Wortham; R Hugh F Bender; Kim-Vy Nguyen-Ngoc; Geert W Schmid-Schöenbein; Steven C George; Christopher C W Hughes; Maike Sander; Kirk C Hansen; Karen L Christman Journal: Tissue Eng Part C Methods Date: 2018-12 Impact factor: 3.056