X‑linked
inhibitor of apoptosis protein (XIAP) negatively regulates apoptotic pathways at a post‑mitochondrial level. XIAP functions by directly binding and inhibiting activation of specific
caspases. Upon apoptotic stimuli, mitochondrial second mitochondria‑derived activator of
caspases (Smac)/direct IAP‑binding
protein with low PI (Diablo) is released into the cytosol, which results in displacement of XIAP from
caspases.
Heat shock protein 72 (HSP72), an anti‑apoptotic
protein, prevents mitochondrial injury resulting from acute renal
ischemia/reperfusion (I/R), its role in Smac/Diablo and XIAP signaling remains to be elucidated. In the present study, the hypothesis that HSP72 prevents XIAP degradation in vivo and in vitro was assessed. To this purpose, a rat model of I/R injury was used to investigate the renoprotective role of HSP72 by treatment with
geranylgeranylacetone (GGA), a specific inducer of HSP72. The mechanism of the cytoprotective properties of HSP72 was also investigated in vitro using adenovirus‑mediated overexpression of HSP72 in
adenosine triphosphate (
ATP)‑depleted human kidney 2 (HK‑2) cells. Pre‑conditioning rats with GGA attenuated renal tubular cell damage, reduced cell apoptosis, preserved
XIAP protein content and improved renal function following I/R injury. An in vitro study was performed in which cells were transiently exposed to 5 mM
sodium cyanide in a glucose‑free medium in order to induce apoptosis. Compared with the control, overexpression of HSP72 inhibited Smac/Diablo release from the mitochondria and increased levels of XIAP and pro‑caspase 3 in ATP‑depleted HK‑2 cells. In addition, HSP72 interacted with Smac/Diablo. The present data demonstrates that HSP72 preserves renal function in I/R injury through its anti‑apoptotic effects, which act by suppressing mitochondrial Smac/Diablo release and preserving
XIAP protein content.