RESUMO
Systemic hypoxia, produced by lowering inspired Po2, induces a rapid inflammation in several microcirculations, including cremaster muscle. Mast cell activation is a necessary element of this response. Selective reduction of cremaster microvascular Po2 (PmO2) with normal systemic arterial Po2 (PaO2; cremaster hypoxia/systemic normoxia), however, does not elicit increased leukocyte-endothelial adherence (LEA) in cremaster venules. This could be due to a short time of leukocyte exposure to the hypoxic cremaster environment. Conversely, LEA increases when PaO2 is lowered, while cremaster PmO2 remains high (cremaster normoxia/systemic hypoxia). An alternative explanation of these results is that a mediator released from a central site during systemic hypoxia initiates the inflammatory cascade. We hypothesized that if this is the case, cremaster mast cells would be activated during cremaster normoxia/systemic hypoxia, but not during cremaster hypoxia/systemic normoxia. The microcirculation of rat cremaster muscles was visualized by using intravital microscopy. Cremaster PmO2 was measured with a phosphorescence quenching method. Cremaster hypoxia/systemic normoxia (PmO2 7 +/- 1 Torr, PaO2 87 +/- 2 Torr) did not increase LEA; however, topical application of the mast cell activator compound 48/80 under these conditions did increase LEA. The effect of compound 48/80 on LEA was blocked by topical cromolyn, a mast cell stabilizer. LEA increased during cremaster normoxia/systemic hypoxia, (PmO2 64 +/- 5 Torr, PaO2 33 +/- 2 Torr); this increase was blocked by topical cromolyn. The results suggest that mast cell stimulation occurs only when PaO2 is reduced, independent of cremaster PmO2, and support the idea of a mediator that is released during systemic hypoxia and initiates the inflammatory cascade.
