Abstract
BackgroundHigh levels of serum lipopolysaccharide (LPS) were observed in sepsis patients with liver injury and high mortality. However, the role of liver in modulation LPS induced inflammatory injury was ill investigated. In the present study, the severity of LPS induced inflammatory response was observed after liver resection or portal branch occlusion to decreasing functional liver mass. The local and systemic damage was observed to investigate the role of liver in modulation inflammatory injury.MethodsFirst, 30%, 70%, and 90% partial hepatectomy (PH) were performed, and serum TNF-α, survival rate, and hepatic LPS uptake was observed. Second, LPS-exposure of the functional liver mass was decreased by selectively blocking the RL prior to LPS-injection, which was given 30 min before a 70% PH, and the inflammatory response was compared in the occluded and the non-occluded liver. The control group was subjected to LPS injection 30 min prior to liver resection without blocking the RL transiently. The serum TNF-α, ALT, AST, creatinine levels, and urea levels, survival rate, hepatic LPS uptake, and hepatic inflammatory cytokines was observed.ResultsThe decreasing of functional liver mass after 90%, 70%, and 30% PH was associated with decreased serum TNF-α, survival rate, and increased hepatic LPS uptake after LPS injection. Occluding the right lobes (RL) prior to LPS administration reversed the liver injury caused by 70% PH, indicated by 100% survival rate and decreased liver and kidney injury, and systemic inflammatory response. The induction of inflammatory response in occluding liver lobes were lower than un-occluding liver lobes.ConclusionsThe severity of the LPS-induced systemic inflammatory injury is determined by functional liver volume. This observation suggests that the liver is the central organ for the initiation of the inflammatory response, and is involved in causing a severe SIRS with systemic damage and death.
Highlights
SIRS leads to multi-organ dysfunction (MOD), such as the hepato-renal and hepatopulmonary syndrome
LPS binds to LPS binding protein (LBP), and CD14, which initiates the inflammatory response by triggering the production of inflammatory cytokines via activation of the TLR4 signal pathway [2]
Experimental design The relationship between liver mass and induction of inflammatory response was explored by performing partial hepatectomy (PH) removing 30%, 70%, and 90% of the liver mass immediately before LPS administration
Summary
SIRS leads to multi-organ dysfunction (MOD), such as the hepato-renal and hepatopulmonary syndrome. Initiation and course of MOD is not well understood It is not known which organ primarily triggers the LPS-response and induces the damage and functional impairment in LPS is the main component of gram negative bacteria, and induces an inflammatory response in mammalian species [1]. The inflammatory response may become deleterious if circulatory LPS become abundant, leading to tissue damage, multi-organ dysfunction, and death [3]. The role of liver in modulation LPS induced inflammatory injury was ill investigated. The severity of LPS induced inflammatory response was observed after liver resection or portal branch occlusion to decreasing functional liver mass. The local and systemic damage was observed to investigate the role of liver in modulation inflammatory injury
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