Isabel Freitas scite author profile

We tested whether rat liver preservation performed by machine perfusion (MP) at 20°C can enhance the functional integrity of steatotic livers versus simple cold storage. We also compared MP at 20°C with hypothermic MP at 8°C, and 4°C. Obese and lean male Zucker rats were used as liver donors. MP was performed for 6 hours with a glucose and N-acetylcysteine-supplemented Krebs-Henseleit solution. Both MP and cold storage preserved livers were reperfused with Krebs-Henseleit solution (2 hours at 37°C). MP at 4°C and 8°C reduced the fatty liver necrosis compared with cold storage but we further protected the organs using MP at 20°C. Necrosis did not differ in livers from lean animals submitted to the different procedures; the enzymes released in steatotic livers preserved by MP at 20°C were similar to those showed in nonsteatotic organs. The adenosine triphosphate/adenosine diphosphate ratio and bile production were higher and the oxidative stress and biliary enzymes were lower in steatotic livers preserved by MP at 20°C as compared with cold storage. In livers from lean rats, the adenosine triphosphate/adenosine diphosphate ratio appears better conserved by MP at 20°C as compared with cold storage. In steatotic livers preserved by cold storage, a 2-fold increase in tumor necrosis factor-alpha levels and caspase-3 activity was observed as compared with organs preserved by MP at 20°C. These data are substantiated by better morphology, higher glycogen content, and lower reactive oxygen species production by sinusoidal cells in steatotic liver submitted to MP at 20°C versus cold storage. MP at 20°C improves cell survival and leads to a marked improvement in hepatic preservation of steatotic livers as compared with cold storage. Liver Transpl 15:20-29, 2009.

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AMPK involvement in endoplasmic reticulum stress and autophagy modulation after fatty liver graft preservation: a role for melatonin and trimetazidine cocktail

Zaoualí

Boncompagni

Reíter

et al. 2013

Journal of Pineal Research

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Ischemia/reperfusion injury (IRI) associated with liver transplantation plays an important role in the induction of graft injury. Prolonged cold storage remains a risk factor for liver graft outcome, especially when steatosis is present. Steatotic livers exhibit exacerbated endoplasmic reticulum (ER) stress that occurs in response to cold IRI. In addition, a defective liver autophagy correlates well with liver damage. Here, we evaluated the combined effect of melatonin and trimetazidine as additives to IGL‐1 solution in the modulation of ER stress and autophagy in steatotic liver grafts through activation of AMPK. Steatotic livers were preserved for 24 hr (4°C) in UW or IGL‐1 solutions with or without MEL + TMZ and subjected to 2‐hr reperfusion (37°C). We assessed hepatic injury (ALT and AST) and function (bile production). We evaluated ER stress (GRP78, PERK, and CHOP) and autophagy (beclin‐1, ATG7, LC3B, and P62). Steatotic livers preserved in IGL‐1 + MEL + TMZ showed lower injury and better function as compared to those preserved in IGL‐1 alone. IGL‐1 + MEL + TMZ induced a significant decrease in GRP78, pPERK, and CHOP activation after reperfusion. This was consistent with a major activation of autophagic parameters (beclin‐1, ATG7, and LC3B) and AMPK phosphorylation. The inhibition of AMPK induced an increase in ER stress and a significant reduction in autophagy. These data confirm the close relationship between AMPK activation and ER stress and autophagy after cold IRI. The addition of melatonin and TMZ to IGL‐1 solution improved steatotic liver graft preservation through AMPK activation, which reduces ER stress and increases autophagy.

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Autofluorescence properties of isolated rat hepatocytes under different metabolic conditions

Croce¹,

Ferrigno

Vairetti

et al. 2004

Photochem Photobiol Sci

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The contribution of endogenous fluorophores - such as proteins, bound and free NAD(P)H, flavins, vitamin A, arachidonic acid - to the liver autofluorescence was studied on tissue homogenate extracts and on isolated hepatocytes by means of spectrofluorometric analysis. Autofluorescence spectral analysis was then applied to investigate the response of single living hepatocytes to experimental conditions resembling the various phases of the organ transplantation. The following conditions were considered: 1 h after cells isolation (reference condition); cold hypoxia; rewarming-reoxygenation after cold preservation. The main alterations occurred for NAD(P)H and flavins, the coenzymes strictly involved in energetic metabolism. During cold hypoxia NAD(P)H, mainly the bound form, showed an increase followed by a slow decrease, in agreement with the inability of the respiratory chain to reoxidize the coenzyme, and a subsequent NADH reoxidation through alternative anaerobic metabolic pathways. Both bound/free NAD(P)H and total NAD(P)H/flavin ratio values were altered during cold hypoxia, but approached the reference condition values after rewarming-reoxygenation, indicating the cells capability to restore the basal redox equilibrium. A decrease of arachidonic acid and vitamin A contributions occurred after cold hypoxia: in the former case it may depend on the balance between deacylation and reacylation of fatty acids, in the latter it might be related to the vitamin A antioxidant role. An influence of physico-chemical status and microenvironment on the fluorescence efficiency of these fluorophores cannot be excluded. In general, all the changes observed for cell autofluorescence properties were consistent with the complex metabolic pathways providing for energy supply.

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Melatonin protects steatotic and nonsteatotic liver grafts against cold ischemia and reperfusion injury

Zaoualí

Reíter

Padrissa-Altés

et al. 2010

Journal of Pineal Research

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: Chronic organ‐donor shortage has required the acceptance of steatotic livers for transplantation purposes despite the higher risk of graft dysfunction or nonfunction associated with the cold ischemia–reperfusion injury. This study evaluated the use of melatonin as an additive to Institute Georges Lopez (IGL‐1) solution for protecting nonsteatotic and steatotic liver grafts against cold ischemia–reperfusion injury. In the current investigation, we used an ex vivo isolated perfused rat liver model. Steatotic and nonsteatotic livers were preserved for 24 hr (4°C) in University of Wisconsin or IGL‐1 solutions with or without melatonin, as well as in University of Wisconsin solution alone. Thereafter, livers were subjected to 2‐hr reperfusion (37°C). We assessed hepatic injury (transaminases) and function [bile production and sulfobromophthalein (BSP) clearance, vascular resistance], as well as other factors potentially implicated in the high vulnerability of steatotic livers against ischemia–reperfusion injury (oxidative stress and related inflammatory mediators including nitric oxide and cytokines). We also evaluated well‐known cytoprotective factors as hemeoxygenase 1 (HO‐1). Fatty livers preserved in IGL‐1 solution enriched with melatonin showed lower transaminase levels and higher bile production and BSP clearance when compared to those obtained for livers maintained in IGL‐1 solution alone. A significant diminution of vascular resistance was also observed when melatonin was added to the IGL‐1 solution. The melatonin benefits correlated with the generation of nitric oxide (through constitutive e‐NOS activation) and the prevention of oxidative stress and inflammatory cytokine release including tumor necrosis factor and adiponectin, respectively. The addition of melatonin to IGL‐1 solution improved nonsteatotic and steatotic liver graft preservation, limiting their risk against cold ischemia–reperfusion injury.

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Isabel Freitas

Subnormothermic machine perfusion protects steatotic livers against preservation injury: A potential for donor pool increase?

AMPK involvement in endoplasmic reticulum stress and autophagy modulation after fatty liver graft preservation: a role for melatonin and trimetazidine cocktail

Autofluorescence properties of isolated rat hepatocytes under different metabolic conditions

Melatonin protects steatotic and nonsteatotic liver grafts against cold ischemia and reperfusion injury

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