Involvement of heme oxygenase-1 (HO-1) in the adaptive protection of human lymphocytes after hyperbaric oxygen (HBO) treatment

Abstract

Accumulating evidence suggests that HO-1 plays an important role in cellular protection against oxidant-mediated cell injury. Our previous studies on hyperbaric oxygen (HBO; i.e. exposure to pure oxygen under high ambient pressure) indicated clearly increased levels of HO-1 in lymphocytes of volunteers 24 h after HBO treatment (1 h at 1.5 bar). Experiments with the comet assay (alkaline single cell gel electrophoresis) revealed that the same cells were almost completely protected against the induction of DNA damage by a repeated exposure or in vitro treatment with H₂O₂ 24 h after the first HBO. In order to further investigate the role of HO-1 in HBO-induced adaptive response, we now performed experiments with isolated human lymphocytes exposed to HBO in vitro (2 h at 3 bar). Our results show that also under cell culture conditions, lymphocytes exhibit an adaptive protection similar to that observed in our previous work with healthy human subjects. The time-course of HO-1 induction proceeds in parallel to the development of an adaptive protection against the induction of oxidative DNA damage. A comparable protection was not seen in V79 cells, indicating a specific difference between the two investigated cell systems. Treatment with the specific HO-1 inhibitor tin-mesoporphyrin IX (SnMP) led to a complete abrogation of HBO-induced adaptive protection in human lymphocytes. Our results indicate a functional involvement of HO-1 in the adaptive protection of human lymphocytes against the induction of oxidative DNA damage. The exact mechanism by which HO-1 contributes to an adaptive response remains to be elucidated.