Abstract
Sepsis-associated liver dysfunction manifesting as cholestasis is common during multiple organ failure. Three hepatocytic dysfunctions are considered as major hallmarks of cholestasis in sepsis: impairments of microvilli covering canalicular membranes, disruptions of tight junctions sealing bile-collecting canaliculae and disruptions of Mrp2-mediated hepatobiliary transport. PI3Kγ loss-of-function was suggested as beneficial in early sepsis. Yet, the PI3Kγ-regulated cellular processes in hepatocytes remained largely unclear. We analysed all three sepsis hallmarks for responsiveness to massive PI3K/Akt signalling and PI3Kγ loss-of-function, respectively. Surprisingly, neither microvilli nor tight junctions were strongly modulated, as shown by electron microscopical studies of mouse liver samples. Instead, quantitative electron microscopy proved that solely Mrp2 surface availability, i.e. the third hallmark, responded strongly to PI3K/Akt signalling. Mrp2 plasma membrane levels were massively reduced upon PI3K/Akt signalling. Importantly, Mrp2 levels at the plasma membrane of PI3Kγ KO hepatocytes remained unaffected upon PI3K/Akt signalling stimulation. The effect explicitly relied on PI3Kγ’s enzymatic ability, as shown by PI3Kγ kinase-dead mice. Keeping the surface availability of the biliary transporter Mrp2 therefore is a cell biological process that may underlie the observation that PI3Kγ loss-of-function protects from hepatic excretory dysfunction during early sepsis and Mrp2 should thus take center stage in pharmacological interventions.
Highlights
Sepsis-associated liver dysfunction manifesting as cholestasis is common during multiple organ failure
Detoxification by bile formation and removal through canaliculae, bile ducts and the common hepatic duct, which exits the liver and joins with the cystic and the pancreatic duct to enter the duodenum, is thought to depend on three major aspects: (i) an intact hepatocytic cytoskeleton that is essential for proper canalicular membrane surface modulations, (ii) proper cell junctions sealing off the canaliculae and (iii) proper functioning of hepatobiliary transport mechanisms, such as those mediated by the biliary transporter multidrug resistance-associated protein 2 (Mrp2)[5,6,7]
Peritoneal contamination and infection (PCI) led to activation of phosphorylated Akt (pAkt) signalling in the liver (Fig. 1a,b), whereas apoptosis was not observed during the early phases of sepsis induction examined (Supplementary Fig. S1)
Summary
Sepsis-associated liver dysfunction manifesting as cholestasis is common during multiple organ failure. Three hepatocytic dysfunctions are considered as major hallmarks of cholestasis in sepsis: impairments of microvilli covering canalicular membranes, disruptions of tight junctions sealing bile-collecting canaliculae and disruptions of Mrp2-mediated hepatobiliary transport. Detoxification by bile formation and removal through canaliculae, bile ducts and the common hepatic duct, which exits the liver and joins with the cystic and the pancreatic duct to enter the duodenum, is thought to depend on three major aspects: (i) an intact hepatocytic cytoskeleton that is essential for proper canalicular membrane surface modulations (microvilli decoration, contractions), (ii) proper cell junctions sealing off the canaliculae and (iii) proper functioning of hepatobiliary transport mechanisms, such as those mediated by the biliary transporter multidrug resistance-associated protein 2 (Mrp2)[5,6,7]. Disruptions of the above hepatocytic functions are considered as the major cellular hallmarks of cholestasis in sepsis[5,6]
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