Longterm heat acclimation (LTHA; 30 days, 34°C) causes phenotypic adaptations that render protection against ischemic/reperfusion insult (I/R, 30 min global ischemia and 40 min reperfusion) via heat acclimation-mediated cross-tolerance (HACT) mechanisms. Shortterm acclimation (STHA, 2 days, 34°C), in contrast, is characterized by cellular perturbations, leading to increased susceptibility to insults. Here, we tested the hypothesis that enhanced mitochondrial respiratory function is part of the acclimatory repertoire and that the 30-day regimen is required for protection via HACT. We subjected isolated hearts and mitochondria from controls (C), STHA, or LTHA rats to I/R, hypoxia/reoxygenation, or Ca 2ϩ overload insults. Mitochondrial function was assessed by measuring O2 consumption, membrane potential (⌬⌿m), mitochondrial Ca 2ϩ ([Ca 2ϩ ]m), ATP production, respiratory chain complex activities, and molecular markers of mitochondrial biogenesis. Our results, combining physiological and biochemical parameters, confirmed that mitochondria from LTHA rats subjected to insults, in contrast to C, preserve respiratory functions (e.g., upon I/R, C mitochondria fueled by glutamate-malate, demonstrated decreases of 81%, 13%, 25%, and 50% in O2/P ratio, ATP production, ⌬⌿m, and complex I activity, respectively, whereas the corresponding LTHA parameters remained unchanged). STHA mitochondria maintained ⌬⌿m but did not preserve ATP production. LTHA [Ca 2ϩ ]m was significantly higher than that of C and STHA and was not affected by the hypoxia/reoxygenation protocol compared with C. Enhanced mitochondrial biogenesis markers, switched-on during STHA coincidentally with enhanced membrane integrity (⌬⌿m), were insufficient to confer intact respiratory function upon insult. LTHA was required for respiratory complex I adaptation and HACT. Umschwief et al. (65) proved that the mitochondria, via heat acclimation-mediated cross-tolerance (HACT) mechanisms, in which heat acclimation confers protection against stressors of a different nature, attenuated apoptosis during ischemia/reperfusion (I/R) insult in the heart and following traumatic brain injury. Assayag et al. (3) also demonstrated that basal levels of cytochrome c, an essential electron carrier that transfers electrons from complex III to the COX complex, decreased in the cardiac mitochondria of heat-acclimated rats, whereas heat stress induced a marked elevation of this protein.The former fits with Seebacher's COX activity in warm acclimated reptiles (59). The mitochondrial Bcl XL protein was elevated under both basal-normothermic and heat-stress conditions, implying adaptive properties in the mitochondriaimporting complexes and synthesis systems (2) and marked the mitochondria as essential players in thermotolerance, as well as in HACT. Assayag et al. (3) demonstrated that the adaptive features of the outer mitochondrial membrane (such as an elevated Bcl XL /Bad ratio) are already found after 2 days of heat acclimation, namely short-term heat acclimation (STHA), whereas...
