TY - JOUR
T1 - The Reactive Oxygen Species–Mitophagy Signaling Pathway Regulates Liver Endothelial Cell Survival During Ischemia/Reperfusion Injury
AU - Bhogal, Ricky
AU - Weston, Chris
AU - Velduis, Susanne
AU - Leuvenink, Henri GD
AU - Reynolds, Gary
AU - Davies, Scott Philip
AU - Luu, Nguyet -Thin
AU - Alfaifi, Mohammed
AU - Shepherd, Emma
AU - Boteon, Yuri
AU - Wallace, Lorraine
AU - Oo, Y.H.
AU - David, ADAMS
AU - Mirza, Darius F
AU - Mergentel, H
AU - Muirhead, Gillian
AU - Stephenson, Barnaby
AU - afford, simon
PY - 2018/10
Y1 - 2018/10
N2 - Ischemia/reperfusion injury (IRI) is the main cause of complications following liver transplantation. Reactive oxygen species (ROS) were thought to be the main regulators of IRI. However, recent studies demonstrate that ROS activate the cytoprotective mechanism of autophagy promoting cell survival. Liver IRI initially damages the liver endothelial cells (LEC), but whether ROS‐autophagy promotes cell survival in LEC during IRI is not known. Primary human LEC were isolated from human liver tissue and exposed to an in vitro model of IRI to assess the role of autophagy in LEC. The role of autophagy during liver IRI in vivo was assessed using a murine model of partial liver IRI. During IRI, ROS specifically activate autophagy‐related protein (ATG) 7 promoting autophagic flux and the formation of LC3B‐positive puncta around mitochondria in primary human LEC. Inhibition of ROS reduces autophagic flux in LEC during IRI inducing necrosis. In addition, small interfering RNA knockdown of ATG7 sensitized LEC to necrosis during IRI. In vivo murine livers in uninjured liver lobes demonstrate autophagy within LEC that is reduced following IRI with concomitant reduction in autophagic flux and increased cell death. In conclusion, these findings demonstrate that during liver IRI ROS‐dependent autophagy promotes the survival of LEC, and therapeutic targeting of this signaling pathway may reduce liver IRI following transplantation.
AB - Ischemia/reperfusion injury (IRI) is the main cause of complications following liver transplantation. Reactive oxygen species (ROS) were thought to be the main regulators of IRI. However, recent studies demonstrate that ROS activate the cytoprotective mechanism of autophagy promoting cell survival. Liver IRI initially damages the liver endothelial cells (LEC), but whether ROS‐autophagy promotes cell survival in LEC during IRI is not known. Primary human LEC were isolated from human liver tissue and exposed to an in vitro model of IRI to assess the role of autophagy in LEC. The role of autophagy during liver IRI in vivo was assessed using a murine model of partial liver IRI. During IRI, ROS specifically activate autophagy‐related protein (ATG) 7 promoting autophagic flux and the formation of LC3B‐positive puncta around mitochondria in primary human LEC. Inhibition of ROS reduces autophagic flux in LEC during IRI inducing necrosis. In addition, small interfering RNA knockdown of ATG7 sensitized LEC to necrosis during IRI. In vivo murine livers in uninjured liver lobes demonstrate autophagy within LEC that is reduced following IRI with concomitant reduction in autophagic flux and increased cell death. In conclusion, these findings demonstrate that during liver IRI ROS‐dependent autophagy promotes the survival of LEC, and therapeutic targeting of this signaling pathway may reduce liver IRI following transplantation.
UR - https://journals.lww.com/lt/abstract/2018/10000/the_reactive_oxygen_species_mitophagy_signaling.17.aspx
U2 - 10.1002/lt.25313
DO - 10.1002/lt.25313
M3 - Article
VL - 24
SP - 1437
EP - 1452
JO - Liver Transplantation
JF - Liver Transplantation
IS - 10
ER -