Metabolic and cardiac signaling effects of inhaled hydrogen sulfide and low oxygen in male rats.

Low concentrations of inhaled hydrogen sulfide (H(2)S) induce hypometabolism in mice. Biological effects of H(2)S in in vitro systems are augmented by lowering O(2) tension. Based on this, we hypothesized that reduced O(2) tension would increase H(2)S-mediated hypometabolism in vivo. To test this, male Sprague-Dawley rats were exposed to 80 ppm H(2)S at 21% O(2) or 10.5% O(2) for 6 h followed by 1 h recovery at room air. Rats exposed to H(2)S in 10.5% O(2) had significantly decreased body temperature and respiration compared with preexposure levels. Heart rate was decreased by H(2)S administered under both O(2) levels and did not return to preexposure levels after 1 h recovery. Inhaled H(2)S caused epithelial exfoliation in the lungs and increased plasma creatine kinase-MB activity. The effect of inhaled H(2)S on prosurvival signaling was also measured in heart and liver. H(2)S in 21% O(2) increased Akt-P(Ser473) and GSK-3β-P(Ser9) in the heart whereas phosphorylation was decreased by H(2)S in 10.5% O(2), indicating O(2) dependence in regulating cardiac signaling pathways. Inhaled H(2)S and low O(2) had no effect on liver Akt. In summary, we found that lower O(2) was needed for H(2)S-dependent hypometabolism in rats compared with previous findings in mice. This highlights the possibility of species differences in physiological responses to H(2)S. Inhaled H(2)S exposure also caused tissue injury to the lung and heart, which raises concerns about the therapeutic safety of inhaled H(2)S. In conclusion, these findings demonstrate the importance of O(2) in influencing physiological and signaling effects of H(2)S in mammalian systems.