Crystalline silica induces macrophage necrosis and causes subsequent acute pulmonary neutrophilic inflammation

Crystalline silica (CS), an airborne particulate, is a major global occupational health hazard. While it is known as an important pathogenic factor in many severe lung diseases, the underlying mechanisms of its toxicity are still unclear. In the present study, we found that intra-tracheal instillation of CS caused rapid emergence of necrotic alveolar macrophages. Cell necrosis was a consequence of the release of cathepsin B in CS-treated macrophages, which caused dysfunction of the mitochondrial membrane. Damage to mitochondria disrupted Na+/K+ ATPase activity in macrophages, leading to intracellular sodium overload and the subsequent cell necrosis. Further studies indicate that CS-induced macrophage necrosis and the subsequent release of mitochondrial DNA could trigger the recruitment of neutrophils in the lung, which was regulated by the TLR9 signaling pathway. In conclusion, our results suggest a novel mechanism whereby CS leads to rapid macrophage necrosis through cathepsin B release, following the leakage of mitochondrial DNA as a key event in the induction of pulmonary neutrophilic inflammation. This study has important implications for the early prevention and treatment of diseases induced by CS.

Automated summary

The study revealed that crystalline silica leads to rapid necrosis of lung macrophages through the release of cathepsin B causing mitochondrial membrane dysfunction. It was also found that CS-induced macrophage necrosis triggers the recruitment of lung neutrophils, regulated by the TLR9 signaling pathway. These findings suggest a novel mechanism for pulmonary inflammation induced by CS and have implications for early prevention and treatment of related diseases.