Combination therapy targeting inflammasome and fibrogenesis alleviates inflammation and fibrosis in a zebrafish model of silicosis

Abstract

AbstractSilicosis is a long-term lung disease caused by the inhalation of large amounts of crystalline silica dust. As there is no effective treatment available, patients are provided with supportive care, and some may be considered for lung transplantation. There is therefore an evident need for a better understanding of the disease’s biology and for identifying new therapeutic targets and therapies. In this context, our group has developed a larval zebrafish model of silicosis by injecting silica crystals into the hindbrain ventricle, a cavity into which immune cells can be recruited and that mimics the alveolar environment of the human lung. The injection of silica crystals into this cavity led to the initiation of local and systemic immune responses driven through both TLR- and inflammasome-dependent signaling pathways, followed by fibrosis, as happens in human patients. The combination of the inflammasome inhibitor VX-765 and the antifibrotic agent pirfenidone was found to be the best therapy to alleviate both inflammation and fibrosis. The zebrafish model of silicosis developed here is a unique tool that will shed light onto the molecular mechanisms involved in the progression of this devastating disease and for identifying novel drugs that improve the quality of life of silicosis patients.