Abstract
We elucidate the relevance of fibroblast growth factor 15 (FGF15) in liver transplantation (LT) using rats with both steatotic and non-steatotic organs from donors after cardiocirculatory death (DCD). Compared to LT from non-DCDs, the induction of cardiocirculatory death (CD) increases hepatic damage, proliferation, and intestinal and circulatory FGF15. This is associated with high levels of FGF15, bilirubin and bile acids (BAs), and overexpression of the enzyme involved in the alternative BA synthesis pathway, CYP27A1, in non-steatotic livers. Furthermore, CD activates the proliferative pathway, Hippo/YAP, in these types of liver. Blocking FGF15 action in LT from DCDs does not affect CYP27A1 but causes an overexpression of CYP7A, an enzyme from the classic BA synthesis pathway, and this is related to further accumulation of BAs and exacerbated damage. FGF15 inhibition also impairs proliferation without changing Hippo/YAP. In spite of worse damage, steatosis prevents a proliferative response in livers from DCDs. In steatotic grafts, CD does not modify CYP7A1, CYP27A1, BA, or the Hippo/YAP pathway, and FGF15 is not involved in damage or proliferation. Thus, endogenous FGF15 protects against BA accumulation and damage and promotes regeneration independently of the Hippo/YAP pathway, in non-steatotic LT from DCDs. Herein we show a minor role of FGF15 in steatotic LT from DCDs.
Highlights
Every year, many thousands of deaths result from liver failure that could not be treated due to the lack of suitable donor organs [1]
In liver transplantation (LT) using non-steatotic grafts, cardiocirculatory death (CD) triggered an increment in regeneration markers, proliferating cell nuclear antigen (PCNA) and cyclin A (CD + LT group), compared to those without CD (LT group)
The current study shows that CD exacerbates damage in both non-steatotic and steatotic LT
Summary
Many thousands of deaths result from liver failure that could not be treated due to the lack of suitable donor organs [1]. To better meet clinical demand, the use of livers from donors after cardiocirculatory death (DCDs) is being explored. Cells 2019, 8, 1640 and biliary complications caused by disruption of the blood supply during the donor warm ischemia time after cardiocirculatory death (CD) hinders the utilization of these grafts to liver transplantation (LT) [2,3,4]. The use of organs from extended criteria donors has increased, including those with hepatic steatosis, due to its high worldwide prevalence [5]. Through the hepatic fibroblast growth factor receptor 4 (FGFR4) signaling pathway, BA levels are tightly controlled by the enzyme cytochrome
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