High level of polarized engraftment of porcine intrahepatic cholangiocyte organoids in decellularized liver scaffolds

Melanie Krüger; Roos-Anne Samsom; Loes A Oosterhoff; Monique E van Wolferen; Hans S Kooistra; Niels Geijsen; Louis C Penning; Linda M Kock; Pilar Sainz-Arnal; Pedro M Baptista; Bart Spee

doi:10.1111/jcmm.17510

High level of polarized engraftment of porcine intrahepatic cholangiocyte organoids in decellularized liver scaffolds

Melanie Krüger, Roos-Anne Samsom, Loes A Oosterhoff, Monique E van Wolferen, Hans S Kooistra, Niels Geijsen, Louis C Penning, Linda M Kock, Pilar Sainz-Arnal, Pedro M Baptista, Bart Spee

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

In Europe alone, each year 5500 people require a life-saving liver transplantation, but 18% die before receiving one due to the shortage of donor organs. Whole organ engineering, utilizing decellularized liver scaffolds repopulated with autologous cells, is an attractive alternative to increase the pool of available organs for transplantation. The development of this technology is hampered by a lack of a suitable large-animal model representative of the human physiology and a reliable and continuous cell source. We have generated porcine intrahepatic cholangiocyte organoids from adult stem cells and demonstrate that these cultures remained stable over multiple passages whilst retaining the ability to differentiate into hepatocyte- and cholangiocyte-like cells. Recellularization onto porcine scaffolds was efficient and the organoids homogeneously differentiated, even showing polarization. Our porcine intrahepatic cholangiocyte system, combined with porcine liver scaffold paves the way for developing whole liver engineering in a relevant large-animal model.

Original language	English
Pages (from-to)	4949-4958
Number of pages	10
Journal	Journal of Cellular and Molecular Medicine
Volume	26
Issue number	19
DOIs	https://doi.org/10.1111/jcmm.17510
Publication status	Published - 26 Oct 2022
Externally published	Yes

Keywords

Animals
Epithelial Cells
Extracellular Matrix
Hepatocytes
Humans
Liver
Organoids
Swine
Tissue Engineering
Tissue Scaffolds

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10.1111/jcmm.17510Licence: CC BY

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Krüger, M., Samsom, R.-A., Oosterhoff, L. A., van Wolferen, M. E., Kooistra, H. S., Geijsen, N., Penning, L. C., Kock, L. M., Sainz-Arnal, P., Baptista, P. M., & Spee, B. (2022). High level of polarized engraftment of porcine intrahepatic cholangiocyte organoids in decellularized liver scaffolds. Journal of Cellular and Molecular Medicine, 26(19), 4949-4958. https://doi.org/10.1111/jcmm.17510

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title = "High level of polarized engraftment of porcine intrahepatic cholangiocyte organoids in decellularized liver scaffolds",

abstract = "In Europe alone, each year 5500 people require a life-saving liver transplantation, but 18% die before receiving one due to the shortage of donor organs. Whole organ engineering, utilizing decellularized liver scaffolds repopulated with autologous cells, is an attractive alternative to increase the pool of available organs for transplantation. The development of this technology is hampered by a lack of a suitable large-animal model representative of the human physiology and a reliable and continuous cell source. We have generated porcine intrahepatic cholangiocyte organoids from adult stem cells and demonstrate that these cultures remained stable over multiple passages whilst retaining the ability to differentiate into hepatocyte- and cholangiocyte-like cells. Recellularization onto porcine scaffolds was efficient and the organoids homogeneously differentiated, even showing polarization. Our porcine intrahepatic cholangiocyte system, combined with porcine liver scaffold paves the way for developing whole liver engineering in a relevant large-animal model.",

keywords = "Animals, Epithelial Cells, Extracellular Matrix, Hepatocytes, Humans, Liver, Organoids, Swine, Tissue Engineering, Tissue Scaffolds",

author = "Melanie Kr{\"u}ger and Roos-Anne Samsom and Oosterhoff, {Loes A} and {van Wolferen}, {Monique E} and Kooistra, {Hans S} and Niels Geijsen and Penning, {Louis C} and Kock, {Linda M} and Pilar Sainz-Arnal and Baptista, {Pedro M} and Bart Spee",

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Krüger, M, Samsom, R-A, Oosterhoff, LA, van Wolferen, ME, Kooistra, HS, Geijsen, N, Penning, LC, Kock, LM, Sainz-Arnal, P, Baptista, PM & Spee, B 2022, 'High level of polarized engraftment of porcine intrahepatic cholangiocyte organoids in decellularized liver scaffolds', Journal of Cellular and Molecular Medicine, vol. 26, no. 19, pp. 4949-4958. https://doi.org/10.1111/jcmm.17510

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T1 - High level of polarized engraftment of porcine intrahepatic cholangiocyte organoids in decellularized liver scaffolds

AU - Krüger, Melanie

AU - Samsom, Roos-Anne

AU - Oosterhoff, Loes A

AU - van Wolferen, Monique E

AU - Kooistra, Hans S

AU - Geijsen, Niels

AU - Penning, Louis C

AU - Kock, Linda M

AU - Sainz-Arnal, Pilar

AU - Baptista, Pedro M

AU - Spee, Bart

PY - 2022/10/26

Y1 - 2022/10/26

N2 - In Europe alone, each year 5500 people require a life-saving liver transplantation, but 18% die before receiving one due to the shortage of donor organs. Whole organ engineering, utilizing decellularized liver scaffolds repopulated with autologous cells, is an attractive alternative to increase the pool of available organs for transplantation. The development of this technology is hampered by a lack of a suitable large-animal model representative of the human physiology and a reliable and continuous cell source. We have generated porcine intrahepatic cholangiocyte organoids from adult stem cells and demonstrate that these cultures remained stable over multiple passages whilst retaining the ability to differentiate into hepatocyte- and cholangiocyte-like cells. Recellularization onto porcine scaffolds was efficient and the organoids homogeneously differentiated, even showing polarization. Our porcine intrahepatic cholangiocyte system, combined with porcine liver scaffold paves the way for developing whole liver engineering in a relevant large-animal model.

AB - In Europe alone, each year 5500 people require a life-saving liver transplantation, but 18% die before receiving one due to the shortage of donor organs. Whole organ engineering, utilizing decellularized liver scaffolds repopulated with autologous cells, is an attractive alternative to increase the pool of available organs for transplantation. The development of this technology is hampered by a lack of a suitable large-animal model representative of the human physiology and a reliable and continuous cell source. We have generated porcine intrahepatic cholangiocyte organoids from adult stem cells and demonstrate that these cultures remained stable over multiple passages whilst retaining the ability to differentiate into hepatocyte- and cholangiocyte-like cells. Recellularization onto porcine scaffolds was efficient and the organoids homogeneously differentiated, even showing polarization. Our porcine intrahepatic cholangiocyte system, combined with porcine liver scaffold paves the way for developing whole liver engineering in a relevant large-animal model.

KW - Animals

KW - Epithelial Cells

KW - Extracellular Matrix

KW - Hepatocytes

KW - Humans

KW - Liver

KW - Organoids

KW - Swine

KW - Tissue Engineering

KW - Tissue Scaffolds

U2 - 10.1111/jcmm.17510

DO - 10.1111/jcmm.17510

M3 - Article

C2 - 36017767

SN - 1582-1838

VL - 26

SP - 4949

EP - 4958

JO - Journal of Cellular and Molecular Medicine

JF - Journal of Cellular and Molecular Medicine

IS - 19

ER -

High level of polarized engraftment of porcine intrahepatic cholangiocyte organoids in decellularized liver scaffolds

Abstract

Keywords

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