Bin Yang1, Sarah A Hosgood, Michael L Nicholson. 1. Transplant Group, Department of Immunity, Infection and Inflammation, University of Leicester, Leicester General Hospital, Gwendolen Road, Leicester, United Kingdom. by5@le.ac.uk
Abstract
BACKGROUND: Ischemia-reperfusion injury (IRI) plays key roles in graft viability and posttransplantation function. Caspase-3 associated with apoptosis and inflammation is up-regulated by IRI. We propose that naked small interfering RNA (siRNA) targeting caspase-3 may prevent IRI and improve kidney preservation. METHODS: Porcine kidneys were retrieved after 10-min warm ischemia and flushed with 500 mL hyperosmolar citrate. Caspase-3 siRNA was administered directly into the renal artery in hyperosmolar citrate solution (3 μg/ml) with the renal vein clamped and into autologous blood (0.15 μg/ml), both of which were stored for 24 hr on ice. The kidneys were reperfused with oxygenated autologous blood for 3 hr on an isolated organ perfusion system to assess renal function. RESULTS: In the siRNA-treated group, the expression of 32-kDa caspase-3 precursor and 17-kDa active subunit was down-regulated by 30% and 56%, respectively, with 40% reduction in active caspase-3+ cells. Consequently, apoptotic cells in the renal cortex were significantly decreased by 47%, whereas inflammatory cells were only marginally reduced by 26%. Caspase-3 siRNA also doubled oxygen consumption and significantly neutralized perfusate pH. Renal blood flow was gradually increased from 5 min to 3 hr by caspase-3 siRNA and marginally improved at the end of 3-hr reperfusion by 45%. CONCLUSIONS: The administration of caspase-3 siRNA directly into the kidney and hemoperfusate during cold preservation improved IRI with reduced caspase-3 and apoptosis, and better renal oxygenation and acid-base homeostasis. This proof of principle experiment using a novel siRNA therapy in large animal organs provides valuable data for human kidney transplantation.
BACKGROUND:Ischemia-reperfusion injury (IRI) plays key roles in graft viability and posttransplantation function. Caspase-3 associated with apoptosis and inflammation is up-regulated by IRI. We propose that naked small interfering RNA (siRNA) targeting caspase-3 may prevent IRI and improve kidney preservation. METHODS: Porcine kidneys were retrieved after 10-min warm ischemia and flushed with 500 mL hyperosmolar citrate. Caspase-3 siRNA was administered directly into the renal artery in hyperosmolar citrate solution (3 μg/ml) with the renal vein clamped and into autologous blood (0.15 μg/ml), both of which were stored for 24 hr on ice. The kidneys were reperfused with oxygenated autologous blood for 3 hr on an isolated organ perfusion system to assess renal function. RESULTS: In the siRNA-treated group, the expression of 32-kDa caspase-3 precursor and 17-kDa active subunit was down-regulated by 30% and 56%, respectively, with 40% reduction in active caspase-3+ cells. Consequently, apoptotic cells in the renal cortex were significantly decreased by 47%, whereas inflammatory cells were only marginally reduced by 26%. Caspase-3 siRNA also doubled oxygen consumption and significantly neutralized perfusate pH. Renal blood flow was gradually increased from 5 min to 3 hr by caspase-3 siRNA and marginally improved at the end of 3-hr reperfusion by 45%. CONCLUSIONS: The administration of caspase-3 siRNA directly into the kidney and hemoperfusate during cold preservation improved IRI with reduced caspase-3 and apoptosis, and better renal oxygenation and acid-base homeostasis. This proof of principle experiment using a novel siRNA therapy in large animal organs provides valuable data for human kidney transplantation.
Authors: Alyssa Ward; David K Klassen; Kate M Franz; Sebastian Giwa; Jedediah K Lewis Journal: Curr Opin Organ Transplant Date: 2018-06 Impact factor: 2.640
Authors: Bin Yang; Nicolas Sylvius; Jinli Luo; Cheng Yang; Zhanyun Da; Charlottelrm Crotty; Michael L Nicholson Journal: Front Immunol Date: 2021-07-01 Impact factor: 7.561
Authors: Cheng Yang; Long Li; Yinjia Xue; Zitong Zhao; Tian Zhao; Yichen Jia; Ruiming Rong; Ming Xu; Michael L Nicholson; Tongyu Zhu; Bin Yang Journal: J Transl Med Date: 2013-09-13 Impact factor: 5.531