Acta physiologica
-
Recently a family of O(2)-dependent prolyl hydroxylase domain-containing enzymes (PHD) has been identified as a cellular oxygen-sensing mechanism. Reduced prolyl hydroxylase activity initiates a signalling cascade that includes the accumulation, as well as the activation, of hypoxia-inducible factor (HIF-1alpha). In turn the transcription factor HIF-1alpha, and other targets of the PHD, elicit a myriad of incompletely understood cellular responses. In these studies we have tested: (1) whether a small-molecule prolyl hydroxylase inhibitor (PHI) can effectively activate the oxygen-sensing pathway when administered systemically to mice, and (2) whether the activation of the PHD signalling pathway at the cellular level results in whole-animal hypoxic tolerance. ⋯ These results demonstrate a novel pharmacological strategy to induce hypoxic tolerance and are the first to demonstrate that the activation of the PHD oxygen-sensing pathway at the cellular level is sufficient to produce a hypoxic-tolerant phenotype at the physiological level of the whole animal.
-
Effects of intermittent lower limb ischaemia on coronary blood flow and coronary resistance in pigs.
Intermittent limb ischaemia prior to cardiac ischaemia is a cardioprotective stimulus. This study was to investigate whether this peripheral stimulus had any effects on basal coronary blood flow and resistance, and to explore its potential mechanisms by studying the effect of femoral nerve transection and Katp blockade by glibenclamide. ⋯ The rIPC stimulus leads to reduced coronary resistance and increased flow. This effect, while modified by glibenclamide appears to be a generic effect of remote ischaemia rather than a direct preconditioning effect.