Establishment of practical recellularized liver graft for blood perfusion using primary rat hepatocytes and liver sinusoidal endothelial cells

Establishment of practical recellularized liver graft for blood perfusion using primary rat hepatocytes and liver sinusoidal endothelial cells

Tissue decellularization produces a three‐dimensional scaffold that can be used to fabricate functional liver grafts following recellularization. Inappropriate cell distribution and clotting during blood perfusion hinder the practical use of recellularized livers. Here we aimed to establish a seedin...

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Veröffentlicht in:American journal of transplantation 2018-06, Vol.18 (6), p.1351-1359
Hauptverfasser: Kojima, H., Yasuchika, K., Fukumitsu, K., Ishii, T., Ogiso, S., Miyauchi, Y., Yamaoka, R., Kawai, T., Katayama, H., Yoshitoshi‐Uebayashi, E. Y., Kita, S., Yasuda, K., Sasaki, N., Komori, J., Uemoto, S.
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animal models: murine
Animals
artificial organs/support devices
basic (laboratory) research/science
Blood
Cells, Cultured
cellular biology
Clotting
Endothelial cells
Endothelial Cells - cytology
Hepatocytes
Hepatocytes - cytology
Liver
Liver - cytology
Liver - physiology
Liver Transplantation
liver transplantation/hepatology
Liver transplants
Male
Parenchyma
Perfusion
Portal vein
Rats
Rats, Inbred Lew
Rats, Transgenic
tissue/organ engineering
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container_end_page 1359
container_issue 6
container_start_page 1351
container_title American journal of transplantation
container_volume 18
creator Kojima, H.
Yasuchika, K.
Fukumitsu, K.
Ishii, T.
Ogiso, S.
Miyauchi, Y.
Yamaoka, R.
Kawai, T.
Katayama, H.
Yoshitoshi‐Uebayashi, E. Y.
Kita, S.
Yasuda, K.
Sasaki, N.
Komori, J.
Uemoto, S.
description Tissue decellularization produces a three‐dimensional scaffold that can be used to fabricate functional liver grafts following recellularization. Inappropriate cell distribution and clotting during blood perfusion hinder the practical use of recellularized livers. Here we aimed to establish a seeding method for the optimal distribution of parenchymal and endothelial cells, and to evaluate the effect of liver sinusoidal endothelial cells (LSECs) in the decellularized liver. Primary rat hepatocytes and LSECs were seeded into decellularized whole‐liver scaffolds via the biliary duct and portal vein, respectively. Biliary duct seeding provided appropriate hepatocyte distribution into the parenchymal space, and portal vein–seeded LSECs simultaneously lined the portal lumen, thereby maintaining function and morphology. Hepatocytes co‐seeded with LSECs retained their function compared with those seeded alone. Platelet deposition was significantly decreased and hepatocyte viability was maintained in the co‐seeded group after extracorporeal blood perfusion. In conclusion, our seeding method provided optimal cell distribution into the parenchyma and vasculature according to the three‐dimensional structure of the decellularized liver. LSECs maintained hepatic function, and supported hepatocyte viability under blood perfusion in the engineered liver graft owing to their antithrombogenicity. This recellularization procedure could help produce practical liver grafts with blood perfusion. The authors provide a seeding method for achieving optimal cell distribution in the parenchyma and vasculature of the decellularized liver, and evaluate the effect of endothelial cells in the engineered liver.
doi_str_mv 10.1111/ajt.14666
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Here we aimed to establish a seeding method for the optimal distribution of parenchymal and endothelial cells, and to evaluate the effect of liver sinusoidal endothelial cells (LSECs) in the decellularized liver. Primary rat hepatocytes and LSECs were seeded into decellularized whole‐liver scaffolds via the biliary duct and portal vein, respectively. Biliary duct seeding provided appropriate hepatocyte distribution into the parenchymal space, and portal vein–seeded LSECs simultaneously lined the portal lumen, thereby maintaining function and morphology. Hepatocytes co‐seeded with LSECs retained their function compared with those seeded alone. Platelet deposition was significantly decreased and hepatocyte viability was maintained in the co‐seeded group after extracorporeal blood perfusion. In conclusion, our seeding method provided optimal cell distribution into the parenchyma and vasculature according to the three‐dimensional structure of the decellularized liver. LSECs maintained hepatic function, and supported hepatocyte viability under blood perfusion in the engineered liver graft owing to their antithrombogenicity. This recellularization procedure could help produce practical liver grafts with blood perfusion. The authors provide a seeding method for achieving optimal cell distribution in the parenchyma and vasculature of the decellularized liver, and evaluate the effect of endothelial cells in the engineered liver.</abstract><cop>United States</cop><pub>Elsevier Limited</pub><pmid>29338127</pmid><doi>10.1111/ajt.14666</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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source MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Access via Wiley Online Library; Alma/SFX Local Collection
subjects animal models: murine
Animals
artificial organs/support devices
basic (laboratory) research/science
Blood
Cells, Cultured
cellular biology
Clotting
Endothelial cells
Endothelial Cells - cytology
Hepatocytes
Hepatocytes - cytology
Liver
Liver - cytology
Liver - physiology
Liver Transplantation
liver transplantation/hepatology
Liver transplants
Male
Parenchyma
Perfusion
Portal vein
Rats
Rats, Inbred Lew
Rats, Transgenic
tissue/organ engineering
title Establishment of practical recellularized liver graft for blood perfusion using primary rat hepatocytes and liver sinusoidal endothelial cells
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