Renal transplantation is the preferred treatment for
end-stage renal disease. Currently, there is a large gap between the supply and demand for transplantable kidneys. The use of sub-optimal grafts obtained via donation after
cardiac death (
DCD) is on the rise. While static cold storage (SCS) in University of Wisconsin (
UW) solution on
ice (4°C) is the clinical standard of care for renal graft preservation, cold storage has been associated with negative graft outcomes. The alternative, normothermic machine perfusion, involves mechanical perfusion of the organ at physiological or normothermic temperature (37°C) and this technique is expensive, complicated and globally inaccessible. As such, simpler alternatives are of interest. Preliminary results revealed that
UW solution is more protective at 21°C than 37°C and subnormothermic preservation is of interest because it may facilitate the use of existing solutions while preventing
cold injury. We have previously shown that SCS in
UW solution supplemented with mitochondria-targeted H2S donor AP39 improves renal graft outcomes. As such, it was hypothesized subnormothermic preservation at 21°C with AP39 will also improve renal outcomes. Using an in vitro model of
hypoxia and reoxygenation, we found that treating porcine tubular epithelial cells with UW+5 μM AP39 during 18 h
hypoxia at 21°C significantly increased renal tubular epithelial cell viability after 24 h of reoxygenation at 37°C compared to UW alone. Also, AP39-supplemented
UW solution was significantly more cytoprotective during
hypoxia at 21°C than
hypoxia at 37°C, regardless of AP39 concentration. Using an ex vivo
DCD organ preservation model, we found that
DCD porcine kidneys stored for 24 h in UW+200 nM AP39 at 21°C showed significantly lower tissue
necrosis than
DCD porcine kidneys preserved using SCS in
UW solution, the clinical standard of care. Overall, our findings suggest that exogenous H2S supplementation improves the viability of the gold standard organ preservation
solution,
UW solution, for subnormothermic preservation at 21°C.