Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation

Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation

Abstract Background Liver transplantation is the optimal treatment option for end-stage liver disease, but organ shortages dramatically restrict its application. Donation after cardiac death (DCD) is an alternative approach that may expand the donor pool, but it faces challenges such as graft dysfun...

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Main Authors: Yang Tian, Jingcheng Wang, Wei Wang, Yuan Ding, Zhongquan Sun, Qiyi Zhang, Yan Wang, Haiyang Xie, Sheng Yan, Shusen Zheng
Format: Article
Language:English
Published: BMC 2016-10-01
Series:Stem Cell Research & Therapy
Subjects:
Mesenchymal stem cells
Donation after cardiac death
Graft survival
Kupffer cells
Apoptosis
Online Access:http://link.springer.com/article/10.1186/s13287-016-0416-y
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spelling doaj-3e66d9379db94b09bfbf0dbb244f64ef2020-11-24T21:51:47ZengBMCStem Cell Research & Therapy1757-65122016-10-017111510.1186/s13287-016-0416-yMesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulationYang Tian0Jingcheng Wang1Wei Wang2Yuan Ding3Zhongquan Sun4Qiyi Zhang5Yan Wang6Haiyang Xie7Sheng Yan8Shusen Zheng9Division of Hepatobiliary and Pancreatic Surgery, Department of Surgery, the First Affiliated Hospital, School of Medicine, Zhejiang UniversityDivision of Hepatobiliary and Pancreatic Surgery, Department of Surgery, the First Affiliated Hospital, School of Medicine, Zhejiang UniversityDivision of Hepatobiliary and Pancreatic Surgery, Department of Surgery, the First Affiliated Hospital, School of Medicine, Zhejiang UniversityKey Laboratory of Combined Multi-organ Transplantation, Ministry of Public Health, Key Laboratory of Organ TransplantationKey Laboratory of Combined Multi-organ Transplantation, Ministry of Public Health, Key Laboratory of Organ TransplantationKey Laboratory of Combined Multi-organ Transplantation, Ministry of Public Health, Key Laboratory of Organ TransplantationDivision of Hepatobiliary and Pancreatic Surgery, Department of Surgery, the First Affiliated Hospital, School of Medicine, Zhejiang UniversityKey Laboratory of Combined Multi-organ Transplantation, Ministry of Public Health, Key Laboratory of Organ TransplantationDivision of Hepatobiliary and Pancreatic Surgery, Department of Surgery, the First Affiliated Hospital, School of Medicine, Zhejiang UniversityDivision of Hepatobiliary and Pancreatic Surgery, Department of Surgery, the First Affiliated Hospital, School of Medicine, Zhejiang UniversityAbstract Background Liver transplantation is the optimal treatment option for end-stage liver disease, but organ shortages dramatically restrict its application. Donation after cardiac death (DCD) is an alternative approach that may expand the donor pool, but it faces challenges such as graft dysfunction, early graft loss, and cholangiopathy. Moreover, DCD liver grafts are no longer eligible for transplantation after their warm ischaemic time exceeds 30 min. Mesenchymal stem cells (MSCs) have been proposed as a promising therapy for treatment of certain liver diseases, but the role of MSCs in DCD liver graft function remains elusive. Methods In this study, we established an arterialized mouse non-heart-beating (NHB) liver transplantation model, and compared survival rates, cytokine and chemokine expression, histology, and the results of in vitro co-culture experiments in animals with or without MSC infusion. Results MSCs markedly ameliorated NHB liver graft injury and improved survival post-transplantation. Additionally, MSCs suppressed Kupffer cell apoptosis, Th1/Th17 immune responses, chemokine expression, and inflammatory cell infiltration. In vitro, PGE2 secreted by MSCs inhibited Kupffer cell apoptosis via TLR4-ERK1/2-caspase3 pathway regulation. Conclusion Our study uncovers a protective role for MSCs and elucidates the underlying immunomodulatory mechanism in an NHB liver transplantation model. Our results suggest that MSCs are uniquely positioned for use in future clinical studies owing to their ability to protect DCD liver grafts, particularly in patients for whom DCD organs are not an option according to current criteria.http://link.springer.com/article/10.1186/s13287-016-0416-yMesenchymal stem cellsDonation after cardiac deathGraft survivalKupffer cellsApoptosis
collection DOAJ
language English
format Article
sources DOAJ
author Yang Tian
Jingcheng Wang
Wei Wang
Yuan Ding
Zhongquan Sun
Qiyi Zhang
Yan Wang
Haiyang Xie
Sheng Yan
Shusen Zheng
spellingShingle Yang Tian
Jingcheng Wang
Wei Wang
Yuan Ding
Zhongquan Sun
Qiyi Zhang
Yan Wang
Haiyang Xie
Sheng Yan
Shusen Zheng
Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation
Stem Cell Research & Therapy
Mesenchymal stem cells
Donation after cardiac death
Graft survival
Kupffer cells
Apoptosis
author_facet Yang Tian
Jingcheng Wang
Wei Wang
Yuan Ding
Zhongquan Sun
Qiyi Zhang
Yan Wang
Haiyang Xie
Sheng Yan
Shusen Zheng
author_sort Yang Tian
title Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation
title_short Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation
title_full Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation
title_fullStr Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation
title_full_unstemmed Mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting Kupffer cell apoptosis via TLR4-ERK1/2-Fas/FasL-caspase3 pathway regulation
title_sort mesenchymal stem cells improve mouse non-heart-beating liver graft survival by inhibiting kupffer cell apoptosis via tlr4-erk1/2-fas/fasl-caspase3 pathway regulation
publisher BMC
series Stem Cell Research & Therapy
issn 1757-6512
publishDate 2016-10-01
description Abstract Background Liver transplantation is the optimal treatment option for end-stage liver disease, but organ shortages dramatically restrict its application. Donation after cardiac death (DCD) is an alternative approach that may expand the donor pool, but it faces challenges such as graft dysfunction, early graft loss, and cholangiopathy. Moreover, DCD liver grafts are no longer eligible for transplantation after their warm ischaemic time exceeds 30 min. Mesenchymal stem cells (MSCs) have been proposed as a promising therapy for treatment of certain liver diseases, but the role of MSCs in DCD liver graft function remains elusive. Methods In this study, we established an arterialized mouse non-heart-beating (NHB) liver transplantation model, and compared survival rates, cytokine and chemokine expression, histology, and the results of in vitro co-culture experiments in animals with or without MSC infusion. Results MSCs markedly ameliorated NHB liver graft injury and improved survival post-transplantation. Additionally, MSCs suppressed Kupffer cell apoptosis, Th1/Th17 immune responses, chemokine expression, and inflammatory cell infiltration. In vitro, PGE2 secreted by MSCs inhibited Kupffer cell apoptosis via TLR4-ERK1/2-caspase3 pathway regulation. Conclusion Our study uncovers a protective role for MSCs and elucidates the underlying immunomodulatory mechanism in an NHB liver transplantation model. Our results suggest that MSCs are uniquely positioned for use in future clinical studies owing to their ability to protect DCD liver grafts, particularly in patients for whom DCD organs are not an option according to current criteria.
topic Mesenchymal stem cells
Donation after cardiac death
Graft survival
Kupffer cells
Apoptosis
url http://link.springer.com/article/10.1186/s13287-016-0416-y
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