In situ metabolic flux analysis to quantify the liver metabolic response to experimental burn injury

Izamis, Maria-Louisa; Sharma, Nripen; Uygun, Basak E.; Bieganski, Robert M.; Saeidi, Nima; Nahmias, Yaakov; Uygun, Korkut; Yarmush, Martin L.; Berthiaume, François

doi:10.1002/bit.22998

Cited by 25 publications

(24 citation statements)

References 39 publications

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“…Note that it was previously demonstrated that in this model of rat DCD livers, 1 hr WI livers are not transplantable (0% survival by day 4 post transplant), however treatment by the NMP system also employed in this work increases the success to 100% (1 month post-transplant) [6]. Where necessary for comparison, in vivo values for rats were obtained and reported from another study [24].…”

Section: Methodsmentioning

confidence: 86%

Resuscitation of Ischemic Donor Livers with Normothermic Machine Perfusion: A Metabolic Flux Analysis of Treatment in Rats

et al. 2013

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Normothermic machine perfusion has previously been demonstrated to restore damaged warm ischemic livers to transplantable condition in animal models. However, the mechanisms of recovery are unclear, preventing rational optimization of perfusion systems and slowing clinical translation of machine perfusion. In this study, organ recovery time and major perfusate shortcomings were evaluated using a comprehensive metabolic analysis of organ function in perfusion prior to successful transplantation. Two groups, Fresh livers and livers subjected to 1 hr of warm ischemia (WI) received perfusion for a total preservation time of 6 hrs, followed by successful transplantation. 24 metabolic fluxes were directly measured and 38 stoichiometrically-related fluxes were estimated via a mass balance model of the major pathways of energy metabolism. This analysis revealed stable metabolism in Fresh livers throughout perfusion while identifying two distinct metabolic states in WI livers, separated at t = 2 hrs, coinciding with recovery of oxygen uptake rates to Fresh liver values. This finding strongly suggests successful organ resuscitation within 2 hrs of perfusion. Overall perfused livers regulated metabolism of perfusate substrates according to their metabolic needs, despite supraphysiological levels of some metabolites. This study establishes the first integrative metabolic basis for the dynamics of recovery during perfusion treatment of marginal livers. Our initial findings support enhanced oxygen delivery for both timely recovery and long-term sustenance. These results are expected to lead the optimization of the treatment protocols and perfusion media from a metabolic perspective, facilitating translation to clinical use.

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Section: Methodsmentioning

confidence: 86%

Resuscitation of Ischemic Donor Livers with Normothermic Machine Perfusion: A Metabolic Flux Analysis of Treatment in Rats

et al. 2013

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“…As perfusate viscosity increased, portal pressures increased and flow rates decreased. WE, with the lowest viscosity, approached rat physiological flow rates of 1.8 ml/min/g liver [37], averaging 1.4±0.08 ml/min/g liver with portal pressures averaging 10±1.8 cmH 2 O. Lower average flow rates of 1.2±0.03 ml/min/g liver in the higher-viscosity Lifor perfusate produced similar average portal pressures of 12±0.5 cmH 2 O. Vasosol and UW, with the highest viscosities, resulted in significantly higher average portal pressures of 16±0.8 cmH 2 O and 18±2.0 cmH 2 O respectively when average flow rates of 1.0±0.05 ml/min/g liver and 1.0±0.01 ml/min/g liver respectively were used to ensure adequate oxygenation.…”

Section: Resultsmentioning

confidence: 99%

Machine perfusion enhances hepatocyte isolation yields from ischemic livers

et al. 2015

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Background High-quality human hepatocytes form the basis of drug safety and efficacy tests, cell-based therapies, and bridge-to-transplantation devices. Presently the only supply of cells derives from an inadequate pool of suboptimal disqualified donor livers. Here we evaluated whether machine perfusion could ameliorate ischemic injury that many of these livers experience prior to hepatocyte isolation. Methods Non-heparinized female Lewis rat livers were exposed to an hour of warm ischemia (34°C) and then perfused for 3 hours. Five different perfusion conditions that utilized the cell isolation apparatus were investigated, namely: (1) modified Williams Medium E and (2) Lifor, both with active oxygenation (95%O2/5%CO2), as well as (3) Lifor passively oxygenated with ambient air (21%O2/0.04%CO2), all at ambient temperatures (20±2°C). At hypothermic temperatures (5±1°C) and under passive oxygenation were (4) University of Wisconsin solution (UW) and (5) Vasosol. Negative and positive control groups comprised livers that had ischemia (WI) and livers that did not (Fresh) prior to cell isolation, respectively. Results Fresh livers yielded 32±9 million cells/g liver while an hour of ischemia reduced the cell yield to 1.6±0.6 million cells/g liver. Oxygenated Williams medium E and Lifor recovered yields of 39±11 and 31±2.3 million cells/g liver, respectively. The passively oxygenated groups produced 15±7 (Lifor), 13±7 (Vasosol), and 10±6 (UW) million cells/g liver. Oxygenated Williams Medium E was most effective at sustaining pH values, avoiding the accumulation of lactate, minimizing edematous weight gain and producing bile during perfusion. Conclusions Machine perfusion results in a dramatic increase in cell yields from livers that have had up to an hour of warm ischemia, but perfusate choice significantly impacts the extent of recovery. Oxygenated Williams Medium E at room temperature is superior to Lifor, UW and Vasosol, largely facilitated by its high oxygen content and low viscosity.

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“…Animal studies suggest hepatic derangement is dependent on the size of the burn with a threshold beyond which a qualitatively different response occurs (23). Work from our lab and others indicates that the presence of alcohol intoxication at the time of injury lowers the size of burn required to cause liver damage (10, 15, 24), though the mechanisms of how this ensues is currently unknown.…”

Section: Discussionmentioning

confidence: 99%

Kupffer Cell p38 Mitogen-Activated Protein Kinase Signaling Drives Postburn Hepatic Damage and Pulmonary Inflammation When Alcohol Intoxication Precedes Burn Injury

Chen

O'Halloran

Shults

et al. 2016

Critical Care Medicine

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Objective Clinical and animal studies demonstrate that alcohol intoxication at the time of injury worsens post-burn outcome. The purpose of this study was to determine the role and mechanism of Kupffer cell derangement in exacerbating post-burn end organ damage in alcohol exposed mice. Design Interventional study. Setting Research Institute. Subjects Male C57BL/6 mice. Interventions Alcohol administered 30 minutes before a 15% scald burn injury. Antecedent Kupffer cell depletion with clodronate liposomes (0.5 mg/kg). p38 mitogen-activated protein kinase (MAPK) inhibition via SB203580 (10 mg/kg). Measurements and Main Results Kupffer cells were isolated 24 hours after injury and analyzed for p38 activity and IL-6 production. Intoxicated burned mice demonstrated a 2-fold (p<0.05) elevation of Kupffer cell p38 activation relative to either insult alone and this corresponded to a 43% (p<0.05) increase in IL-6 production. Depletion of Kupffer cells attenuated hepatic damage as seen by decreases of 53% (p<0.05) in serum ALT and 74% (p<0.05) in hepatic triglycerides, as well as a 77% reduction (p<0.05) in serum IL-6 levels compared to matched controls. This mitigation of hepatic damage was associated with a 54% decrease (p<0.05) in pulmonary neutrophil infiltration and reduced alveolar wall thickening by 45% (p<0.05). In vivo p38 inhibition conferred nearly identical hepatic and pulmonary protection after the combined injury as mice depleted of Kupffer cells. Conclusions Intoxication exacerbates post-burn hepatic damage through p38-dependent IL-6 production in Kupffer cells.

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In situ metabolic flux analysis to quantify the liver metabolic response to experimental burn injury

Cited by 25 publications

References 39 publications

Resuscitation of Ischemic Donor Livers with Normothermic Machine Perfusion: A Metabolic Flux Analysis of Treatment in Rats

Resuscitation of Ischemic Donor Livers with Normothermic Machine Perfusion: A Metabolic Flux Analysis of Treatment in Rats

Machine perfusion enhances hepatocyte isolation yields from ischemic livers

Kupffer Cell p38 Mitogen-Activated Protein Kinase Signaling Drives Postburn Hepatic Damage and Pulmonary Inflammation When Alcohol Intoxication Precedes Burn Injury

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