Your search keyword '"Jérôme Larghero"' showing total 7 results

1. Improved functionality of hepatic spheroids cultured in acoustic levitation compared to existing 2D and 3D models

Author

Lucile Rabiet, Nathan Jeger-Madiot, Duván Rojas García, Lucie Tosca, Gérard Tachdjian, Sabrina Kellouche, Rémy Agniel, Jérôme Larghero, Jean-Luc Aider, and Lousineh Arakelian

Subjects

Acoustofluidics, Acoustic levitation, Spheroids, Microphysiological system, Hepatocytes, Medicine, Science

Abstract

Abstract Hepatic spheroids are of high interest in basic research, drug discovery and cell therapy. Existing methods for spheroid culture present advantages and drawbacks. An alternative technology is explored: the hepatic spheroid formation and culture in an acoustofluidic chip, using HepaRG cell line. Spheroid formation and morphology, cell viability, genetic stability, and hepatic functions are analyzed after 6 days of culture in acoustic levitation. They are compared to 2D culture and non-levitated 3D cultures. Sizes of the 25 spheroids created in a single acoustofluidic microphysiological system are homogeneous. The acoustic parameters in our system do not induce cell mortality nor DNA damage. Spheroids are cohesive and dense. From a functional point of view, hepatic spheroids obtained by acoustic levitation exhibit polarity markers, secrete albumin and express hepatic genes at higher levels compared to 2D and low attachment 3D cultures. In conclusion, this microphysiological system proves not only to be suitable for long-term culture of hepatic spheroids, but also to favor differentiation and functionality within 6 days of culture.

Published

2024

2. Development and qualification of clinical grade decellularized and cryopreserved human esophagi

Author

William Godefroy, Lionel Faivre, Caroline Sansac, Briac Thierry, Jean-Marc Allain, Patrick Bruneval, Rémy Agniel, Sabrina Kellouche, Olivier Monasson, Elisa Peroni, Mohamed Jarraya, Niclas Setterblad, Massymissa Braik, Benjamin Even, Sophie Cheverry, Thomas Domet, Patricia Albanese, Jérôme Larghero, Pierre Cattan, and Lousineh Arakelian

Subjects

Medicine, Science

Abstract

Abstract Tissue engineering is a promising alternative to current full thickness circumferential esophageal replacement methods. The aim of our study was to develop a clinical grade Decellularized Human Esophagus (DHE) for future clinical applications. After decontamination, human esophagi from deceased donors were placed in a bioreactor and decellularized with sodium dodecyl sulfate (SDS) and ethylendiaminetetraacetic acid (EDTA) for 3 days. The esophagi were then rinsed in sterile water and SDS was eliminated by filtration on an activated charcoal cartridge for 3 days. DNA was removed by a 3-hour incubation with DNase. A cryopreservation protocol was evaluated at the end of the process to create a DHE cryobank. The decellularization was efficient as no cells and nuclei were observed in the DHE. Sterility of the esophagi was obtained at the end of the process. The general structure of the DHE was preserved according to immunohistochemical and scanning electron microscopy images. SDS was efficiently removed, confirmed by a colorimetric dosage, lack of cytotoxicity on Balb/3T3 cells and mesenchymal stromal cell long term culture. Furthermore, DHE did not induce lymphocyte proliferation in-vitro. The cryopreservation protocol was safe and did not affect the tissue, preserving the biomechanical properties of the DHE. Our decellularization protocol allowed to develop the first clinical grade human decellularized and cryopreserved esophagus.

Published

2023

3. Endothelial CD34 expression and regulation of immune cell response in-vitro

Author

Lousineh Arakelian, Julien Lion, Guillaume Churlaud, Rezlene Bargui, Briac Thierry, Evelyne Mutabazi, Patrick Bruneval, Antonio José Alberdi, Christelle Doliger, Maëva Veyssiere, Jérôme Larghero, and Nuala Mooney

Subjects

Medicine, Science

Abstract

Abstract Endothelial cells cover the lining of different blood vessels and lymph nodes, and have major functions including the transport of blood, vessel homeostasis, inflammatory responses, control of transendothelial migration of circulating cells into the tissues, and formation of new blood vessels. Therefore, understanding these cells is of major interest. The morphological features, phenotype and function of endothelial cells varies according to the vascular bed examined. The sialomucin, CD34, is widely used as an endothelial marker. However, CD34 is differentially expressed on endothelial cells in different organs and in pathological conditions. Little is known about regulation of endothelial CD34 expression or function. Expression of CD34 is also strongly regulated in-vitro in endothelial cell models, including human umbilical vein endothelial cells (HUVEC) and endothelial colony forming cells (ECFC). We have therefore analysed the expression and function of CD34 by comparing CD34high and CD34low endothelial cell subpopulations. Transcriptomic analysis showed that CD34 gene and protein expressions are highly correlated, that CD34high cells proliferate less but express higher levels of IL-33 and Angiopoietin 2, compared with CD34low cells. Higher secretion levels of IL-33 and Angiopoietin 2 by CD34high HUVECs was confirmed by ELISA. Finally, when endothelial cells were allowed to interact with peripheral blood mononuclear cells, CD34high endothelial cells activated stronger proliferation of regulatory T lymphocytes (Tregs) compared to CD34low cells whereas expansion of other CD4+-T cell subsets was equivalent. These results suggest that CD34 expression by endothelial cells in-vitro associates with their ability to proliferate and with an immunogenic ability that favours the tolerogenic response.

Published

2023

4. Self-organization and culture of Mesenchymal Stem Cell spheroids in acoustic levitation

Author

Nathan Jeger-Madiot, Lousineh Arakelian, Niclas Setterblad, Patrick Bruneval, Mauricio Hoyos, Jérôme Larghero, and Jean-Luc Aider

Subjects

Medicine, Science

Abstract

Abstract In recent years, 3D cell culture models such as spheroid or organoid technologies have known important developments. Many studies have shown that 3D cultures exhibit better biomimetic properties compared to 2D cultures. These properties are important for in-vitro modeling systems, as well as for in-vivo cell therapies and tissue engineering approaches. A reliable use of 3D cellular models still requires standardized protocols with well-controlled and reproducible parameters. To address this challenge, a robust and scaffold-free approach is proposed, which relies on multi-trap acoustic levitation. This technology is successfully applied to Mesenchymal Stem Cells (MSCs) maintained in acoustic levitation over a 24-h period. During the culture, MSCs spontaneously self-organized from cell sheets to cell spheroids with a characteristic time of about 10 h. Each acoustofluidic chip could contain up to 30 spheroids in acoustic levitation and four chips could be ran in parallel, leading to the production of 120 spheroids per experiment. Various biological characterizations showed that the cells inside the spheroids were viable, maintained the expression of their cell surface markers and had a higher differentiation capacity compared to standard 2D culture conditions. These results open the path to long-time cell culture in acoustic levitation of cell sheets or spheroids for any type of cells.

Published

2021

5. Author Correction: Self‑organization and culture of Mesenchymal Stem Cell spheroids in acoustic levitation

Author

Nathan Jeger‑Madiot, Lousineh Arakelian, Niclas Setterblad, Patrick Bruneval, Mauricio Hoyos, Jérôme Larghero, and Jean‑Luc Aider

Subjects

Medicine, Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2021

6. NFAT primes the human RORC locus for RORγt expression in CD4+ T cells

Author

Hanane Yahia-Cherbal, Magda Rybczynska, Domenica Lovecchio, Tharshana Stephen, Chloé Lescale, Katarzyna Placek, Jérome Larghero, Lars Rogge, and Elisabetta Bianchi

Subjects

Science

Abstract

The master transcription factor RORγt, encoded by the RORC gene, controls the polarization of CD4+ T cells expressing interleukin-17 (Th17). Here the authors describe several regulatory elements at the RORC locus that are recognized by NFAT and NFkB to induce a permissive epigenetic configuration of the RORC gene for RORγt expression and Th17 differentiation.

Published

2019

7. Author Correction: NFAT primes the human RORC locus for RORγt expression in CD4+T cells

Author

Hanane Yahia-Cherbal, Magda Rybczynska, Domenica Lovecchio, Tharshana Stephen, Chloé Lescale, Katarzyna Placek, Jérome Larghero, Lars Rogge, and Elisabetta Bianchi

Subjects

Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2019