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- Title
Senolytic treatment preserves biliary regenerative capacity lost through cellular senescence during cold storage.
- Authors
Ferreira-Gonzalez, Sofia; Man, Tak Yung; Esser, Hannah; Aird, Rhona; Kilpatrick, Alastair M.; Rodrigo-Torres, Daniel; Younger, Nicholas; Campana, Lara; Gadd, Victoria L.; Dwyer, Benjamin; Aleksieva, Niya; Boulter, Luke; Macmillan, Mark T.; Wang, Yinmiao; Mylonas, Katie J.; Ferenbach, David A.; Kendall, Timothy J.; Lu, Wei-Yu; Acosta, Juan Carlos; Kurian, Dominic
- Abstract
Liver transplantation is the only curative option for patients with end-stage liver disease. Despite improvements in surgical techniques, nonanastomotic strictures (characterized by the progressive loss of biliary tract architecture) continue to occur after liver transplantation, negatively affecting liver function and frequently leading to graft loss and retransplantation. To study the biological effects of organ preservation before liver transplantation, we generated murine models that recapitulate liver procurement and static cold storage. In these models, we explored the response of cholangiocytes and hepatocytes to cold storage, focusing on responses that affect liver regeneration, including DNA damage, apoptosis, and cellular senescence. We show that biliary senescence was induced during organ retrieval and exacerbated during static cold storage, resulting in impaired biliary regeneration. We identified decoy receptor 2 (DCR2)–dependent responses in cholangiocytes and hepatocytes, which differentially affected the outcome of those populations during cold storage. Moreover, CRISPR-mediated DCR2 knockdown in vitro increased cholangiocyte proliferation and decreased cellular senescence but had the opposite effect in hepatocytes. Using the p21KO model to inhibit senescence onset, we showed that biliary tract architecture was better preserved during cold storage. Similar results were achieved by administering senolytic ABT737 to mice before procurement. Last, we perfused senolytics into discarded human donor livers and showed that biliary architecture and regenerative capacities were better preserved. Our results indicate that cholangiocytes are susceptible to senescence and identify the use of senolytics and the combination of senotherapies and machine-perfusion preservation to prevent this phenotype and reduce the incidence of biliary injury after transplantation. Preserving pretransplantation livers: Cold storage of human livers prior to transplantation can impede organ function and subsequent graft survival. Ferreira-Gonzalez et al. now suggest an approach to prevent pre-transplant ex vivo liver degradation. They found that cellular senescence helps drive biliary injury during cold storage, with differential responses among cholangiocytes and hepatocytes. Administration of a senolytic to mouse and human donor livers before cold storage resulted in improved tissue architecture. It remains to be seen if senolytic treatment improves liver engraftment and function.—CAC
- Subjects
CELLULAR aging; COLD storage; CRYONICS; BILIARY tract; LIVER regeneration; PRESERVATION of organs, tissues, etc.
- Publication
Science Translational Medicine, 2022, Vol 14, Issue 674, p1
- ISSN
1946-6234
- Publication type
Article
- DOI
10.1126/scitranslmed.abj4375