Litcius/Paper detail

Primary cilia as a targetable node between biliary injury, senescence and regeneration in liver transplantation

Hannah Esser, Alastair M. Kilpatrick, Tak Yung Man, Rhona Aird, Daniel Rodrigo‐Torres, Madita L. Buch, Luke Boulter, Sarah R. Walmsley, Gabriel C. Oniscu, Stefan Schneeberger, Sofía Ferreira-González, Stuart J. Forbes

2024Journal of Hepatology21 citationsDOIOpen Access PDF

Abstract

BACKGROUND & AIMS: Biliary complications are a major cause of morbidity and mortality in liver transplantation. Up to 25% of patients that develop biliary complications require additional surgical procedures, re-transplantation or die in the absence of a suitable regraft. Here, we investigate the role of the primary cilium, a highly specialised sensory organelle, in biliary injury leading to post-transplant biliary complications. METHODS: mouse model. To explore the molecular mechanisms responsible for the observed phenotypes we used in vitro models of ischemia, cellular senescence and primary cilia ablation. Finally, we used pharmacological and genetic approaches to target cellular senescence and the primary cilia, both in mouse models and discarded human donor livers. RESULTS: Prolonged ischemic periods before transplantation result in ciliary shortening and cellular senescence, an irreversible cell cycle arrest that blocks regeneration. Our results indicate that primary cilia damage results in biliary injury and a loss of regenerative potential. Senescence negatively impacts primary cilia structure and triggers a negative feedback loop that further impairs regeneration. Finally, we explore how targeted interventions for cellular senescence and/or the stabilisation of the primary cilia improve biliary regeneration following ischemic injury. CONCLUSIONS: Primary cilia play an essential role in biliary regeneration and we demonstrate that senolytics and cilia-stabilising treatments provide a potential therapeutic opportunity to reduce the rate of biliary complications and improve clinical outcomes in liver transplantation. IMPACT AND IMPLICATIONS: Up to 25% of liver transplants result in biliary complications, leading to additional surgery, retransplants, or death. We found that the incidence of biliary complications is increased by damage to the primary cilium, an antenna that protrudes from the cell and is key to regeneration. Here, we show that treatments that preserve the primary cilia during the transplant process provide a potential solution to reduce the rates of biliary complications.

Topics & Concepts

CiliumRegeneration (biology)SenescenceMedicineLiver transplantationTransplantationCellular senescenceLiver regenerationCell biologyBiologyInternal medicinePhenotypeGeneBiochemistryGenetic and Kidney Cyst DiseasesOrgan Transplantation Techniques and OutcomesLiver physiology and pathology