Hepatic CEACAM1 expression indicates donor liver quality and prevents early transplantation injury
Kojiro Nakamura, … , Elaine F. Reed, Jerzy W. Kupiec-Weglinski
Kojiro Nakamura, … , Elaine F. Reed, Jerzy W. Kupiec-Weglinski
Published February 6, 2020
Citation Information: J Clin Invest. 2020;130(5):2689-2704. https://doi.org/10.1172/JCI133142.
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Research Article Immunology

Hepatic CEACAM1 expression indicates donor liver quality and prevents early transplantation injury

Abstract

Although CEACAM1 (CC1) glycoprotein resides at the interface of immune liver injury and metabolic homeostasis, its role in orthotopic liver transplantation (OLT) remains elusive. We aimed to determine whether/how CEACAM1 signaling may affect hepatic ischemia-reperfusion injury (IRI) and OLT outcomes. In the mouse, donor liver CC1 null mutation augmented IRI-OLT (CC1-KO→WT) by enhancing ROS expression and HMGB1 translocation during cold storage, data supported by in vitro studies where hepatic flush from CC1-deficient livers enhanced macrophage activation in bone marrow–derived macrophage cultures. Although hepatic CC1 deficiency augmented cold stress–triggered ASK1/p-p38 upregulation, adjunctive ASK1 inhibition alleviated IRI and improved OLT survival by suppressing p-p38 upregulation, ROS induction, and HMGB1 translocation (CC1-KO→WT), whereas ASK1 silencing (siRNA) promoted cytoprotection in cold-stressed and damage-prone CC1-deficient hepatocyte cultures. Consistent with mouse data, CEACAM1 expression in 60 human donor liver biopsies correlated negatively with activation of the ASK1/p-p38 axis, whereas low CC1 levels associated with increased ROS and HMGB1 translocation, enhanced innate and adaptive immune responses, and inferior early OLT function. Notably, reduced donor liver CEACAM1 expression was identified as one of the independent predictors for early allograft dysfunction (EAD) in human OLT patients. Thus, as a checkpoint regulator of IR stress and sterile inflammation, CEACAM1 may be considered as a denominator of donor hepatic tissue quality, and a target for therapeutic modulation in OLT recipients.

Authors

Kojiro Nakamura, Shoichi Kageyama, Fady M. Kaldas, Hirofumi Hirao, Takahiro Ito, Kentaro Kadono, Kenneth J. Dery, Hidenobu Kojima, David W. Gjertson, Rebecca A. Sosa, Maciej Kujawski, Ronald W. Busuttil, Elaine F. Reed, Jerzy W. Kupiec-Weglinski

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Figure 2

CC1 ablation in cold-stored livers enhances ROS and HMGB1 translocation/release to liver flush, which further increases inflammatory gene program in macrophage cultures.

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CC1 ablation in cold-stored livers enhances ROS and HMGB1 translocation...
(A) Groups of WT and CC1-KO liver grafts stored in UW solution (4°C/18 hours) were perfused with physiological saline (2 mL) via a cuff placed at the portal vein to collect liver flush from inferior vena cava. (B) Liver flush samples (20 μL) from cold-stressed WT or CC1-deficient livers were screened by Western blots for HMGB1/Histone H3 levels (n = 4/group, *P < 0.05, Student’s t test). (C) WT or CC1-KO liver grafts were collected after cold storage (4°C/18 hours). Representative (n = 3/group) immunohistochemical staining of CC1/4HNE (a ROS metabolite), CC1/HMGB1, and TUNEL is shown. Arrowheads indicate extranuclear HMGB1 localization. (D) BMDM cultures (WT) were stimulated (6 hours) with liver flush obtained from WT or CC1 KO cold-stored grafts. qRT-PCR–assisted detection of mRNA coding for MCP1, CXCL2, CXCL10 with β2M normalization (n = 4–6, *P < 0.05, 1-way ANOVA followed by Tukey’s HSD test).