Lunar soil simulants alter macrophage survival and function.

Lunar regolith samples collected during previous Apollo missions were found to contain components that were established to be toxic to humans; however, the health effects due to inhalation of lunar soil as a whole are still unknown. Macrophages residing in the alveolar sacs of the lungs constitute one of the last lines of defense against inhaled particulates before entry into the bloodstream. Here, we examine the macrophage response to lunar simulants that are similar in chemical composition to the lunar regolith. We assess cytotoxicity, cellular morphology, phagocytosis of simulants and expression of inflammatory markers. Overall, the exposure of macrophages to lunar simulants results in moderate cytotoxicity and marked alteration of cell morphology and uptake of the simulants. Interestingly, simulant exposure decreased proinflammatory gene expression, but may induce an anti‐inflammatory phenotype in the cells. These results illustrate that although macrophages phagocytose lunar simulants as a protective response, the simulants do induce a degree of macrophage cell death. Our study reveals some toxicity associated with lunar simulants and supports further evaluation of the inhalation of lunar regolith to understand the risks of exposure fully. In previous missions to the Moon, astronauts reported irritating effects of lunar surface dust upon inhalation, pointing to the need to understand the potential health effects of the lunar regolith. As alveolar macrophages are one of the last lines of defense against inhaled particulates in the lungs, we investigate the responses of a macrophage cell line after exposure to lunar soil simulants, and examined cell death, changes in cell morphology, and expression of inflammatory genes. [ABSTRACT FROM AUTHOR]