Dean M. Anselmo scite author profile

Heme oxygenase-1 (HO-1) is induced under a variety of pro-oxidant conditions such as those associated with ischemia-reperfusion injury (IRI) of transplanted organs. HO-1 cleaves the heme porphyrin ring releasing Fe2+, which induces the expression of the Fe2+ sequestering protein ferritin. By limiting the ability of Fe2+ to participate in the generation of free radicals through the Fenton reaction, ferritin acts as an anti-oxidant. We have previously shown that HO-1 protects transplanted organs from IRI. We have linked this protective effect with the anti-apoptotic action of HO-1. Whether the iron-binding properties of ferritin contributed to the protective effect of HO-1 was not clear. We now report that recombinant adenovirus mediated overexpression of the ferritin heavy chain (H-ferritin) gene protects rat livers from IRI and prevents hepatocellular damage upon transplantation into syngeneic recipients. The protective effect of H-ferritin is associated with the inhibition of endothelial cell and hepatocyte apoptosis in vivo. H-ferritin protects cultured endothelial cells from apoptosis induced by a variety of stimuli. These findings unveil the anti-apoptotic function of H-ferritin and suggest that H-ferritin can be used in a therapeutic manner to prevent liver IRI and thus maximize the organ donor pool used for transplantation.

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Ex vivo exposure to carbon monoxide prevents hepatic ischemia/reperfusion injury through p38 MAP kinase pathway

Amersi

et al. 2002

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A direct role of carbon monoxide (CO), an effector-signaling molecule during heme oxygenase-1 (HO-1) catalysis of heme, in the protection against hepatic ischemia/reperfusion (I/R) injury needs to be established. This study was designed to determine the effects and downstream mechanisms of CO on cold I/R injury in a clinically relevant isolated perfusion rat liver model. After 24 hours of cold storage, rat livers perfused ex vivo for 2 hours with blood supplemented with CO (300 parts per million) showed significantly decreased portal venous resistance and increased bile production, as compared with control livers perfused with blood devoid of CO. These beneficial effects correlated with improved liver function (serum glutamic oxaloacetic transaminase levels) and diminished histological features of hepatocyte injury (Banff's scores). The CO-mediated cytoprotective effects were nitric oxide synthase-and cyclic guanine monophosphate-independent, but p38 mitogen-activated protein kinase (MAPK)-dependent. Moreover, adjunctive use of zinc protoporphyrin, a competitive HO-1 inhibitor, has shown that exogenous CO could fully substitute for endogenous HO-1 in preventing hepatic I/R insult. This study performed in a clinically relevant ex vivo cold ischemia model is the first to provide the evidence that HO-1-mediated cytoprotection against hepatic I/R injury depends on the generation of, and can be substituted by, exogenous CO. The p38 MAPK signaling pathway represents the key downstream mechanism by which CO prevents the I/R insult. In conclusion, regimens that employ exogenous CO should be revisited, as they may have potential applications in preventing/mitigating I/R injury, and thus expanding the liver donor pool for clinical transplantation. (HEPATOLOGY 2002;35:815-823.)

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Pretransplant Model to Predict Posttransplant Survival in Liver Transplant Patients

Ghobrial¹,

Gornbein²,

Steadman³

et al. 2002

Annals of Surgery

149

138

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ObjectiveTo develop a prognostic model that determines patient survival outcomes after orthotopic liver transplantation (OLT) using readily available pretransplant variables. Summary Background DataThe current liver organ allocation system strongly favors organ distribution to critically ill recipients who exhibit poor survival outcomes following OLT. A severely limited organ resource, increasing waiting list deaths, and rising numbers of critically ill recipients mandate an organ allocation system that balances disease severity with survival outcomes. Such goals can be realized only through the development of prognostic models that predict survival following OLT. MethodsVariables that may affect patient survival following OLT were analyzed in hepatitis C (HCV) recipients at the authors' center, since HCV is the most common indication for OLT. The resulting patient survival model was examined and refined in HCV and non-HCV patients in the United Network for Organ Sharing (UNOS) database. Kaplan-Meier methods, univariate comparisons, and multivariate Cox proportional hazard regression were employed for analyses. ResultsVariables identified by multivariate analysis as independent predictors for patient survival following primary transplantation of adult HCV recipients in the last 10 years at the authors' center were entered into a prognostic survival model to predict patient survival. Accordingly, mortality was predicted by 0.0293 (recipient age) ϩ 1.085 (log 10 recipient creatinine) ϩ 0.289 (donor female gender) ϩ 0.675 urgent UNOS -1.612 (log 10 recipient creatinine times urgent UNOS). The above variables, in addition to donor age, total bilirubin, prothrombin time (PT), retransplantation, and warm and cold ischemia times, were applied to the UNOS database. Of the 46,942 patients transplanted over the last 10 years, 25,772 patients had complete data sets. An eight-factor model that accurately predicted survival was derived. Accordingly, the mortality index posttransplantation ϭ 0.0084 donor age ϩ 0.019 recipient age ϩ 0.816 log creatinine ϩ 0.0044 warm ischemia (in minutes) ϩ 0.659 (if second transplant) ϩ 0.10 log bilirubin ϩ 0.0087 PT ϩ 0.01 cold ischemia (in hours). Thus, this model is applicable to first or second liver transplants. Patient survival rates based on model-predicted risk scores for death and observed posttransplant survival rates were similar. Additionally, the model accurately predicted survival outcomes for HCV and non-HCV patients. ConclusionsPosttransplant patient survival can be accurately predicted based on eight straightforward factors. The balanced application of a model for liver transplant survival estimate, in addition to disease severity, as estimated by the model for end-stage liver disease, would markedly improve survival outcomes and maximize patients' benefits following OLT.

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CD154-CD40 T-cell costimulation pathway is required in the mechanism of hepatic ischemia/reperfusion injury, and its blockade facilitates and depends on heme oxygenase-1 mediated cytoprotection

Shen¹,

Ke²,

Zhai³

et al. 2002

Transplantation

121

117

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This study confirms the importance of T cells, and documents for the first time the role of CD154 costimulation signals in the mechanism of hepatic I/R injury. We also show that CD154 blockade-mediated cytoprotection results and depends on HO-1 overexpression. Our data provide the rationale for human trials to target CD154-CD40 costimulation in hepatic I/R injury, particularly in the transplant patient.

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New Era of Liver Transplantation for Hepatitis B

et al. 2002

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Orthotopic liver transplantation for HBV under combination viral prophylaxis results in survival rates equivalent to other indications. Pretransplant viral replication, UNOS status, and the presence of HCC are all sensitive markers for posttransplantation outcome. Viral prophylactic therapy has effectively reduced HBV recurrence and prolonged survival outcomes. The combination of HBIg and lamivudine is the prophylactic regimen of choice.

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Dean M. Anselmo

Heavy chain ferritin acts as an anti‐apoptotic gene that protects livers from ischemia‐reperfusion injury

Ex vivo exposure to carbon monoxide prevents hepatic ischemia/reperfusion injury through p38 MAP kinase pathway

Pretransplant Model to Predict Posttransplant Survival in Liver Transplant Patients

CD154-CD40 T-cell costimulation pathway is required in the mechanism of hepatic ischemia/reperfusion injury, and its blockade facilitates and depends on heme oxygenase-1 mediated cytoprotection

New Era of Liver Transplantation for Hepatitis B

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