EFFECT OF SIMULATED MICROGRAVITY ON THE PRODUCTION OF IL-12 BY PBMCs

摘要

During space flight immunity is altered. This phenomenon is partly due to the microgravity condition itself. Our earlier space experiments (INTERFERON) indicated that microgravity has a significant effect at the cellular level. In our subsequent terrestrial studies we applied the Rotating Cell Culture System (RCCS) developed by NASA to mimick microgravity on ground. Previously we reported that human peripheral blood mononuclear cells (PBMCs) respond to simulated microgravity conditions with elevated tumor necrosis factor-alpha (TNF-α) production. We extended our investigations to the production of interleukin (IL)-12 under modelled microgravity conditions by separated PBMCs. In simulated microgravity we found significantly elevated level of secreted IL-12 compared to static, standard tissue culture conditions. Following a maximum of TNF-α production at 24 hours, the peak of IL-12 production was observed at 48 hours after the start of the experiment. Our results suggest that simulated microgravity favors the establishment of a Th1 type cytokine response.