In Cystic Fibrosis (CF) patients, hyper-inflammation is a key factor in lung destruction and disease morbidity. We have previously demonstrated that macrophages drive the lung hyper-inflammatory response to LPS in CF mice, due to reduced levels of the scaffold protein CAV1 with subsequent uncontrolled TLR4 signaling.Here we show that reduced CAV1 and, consequently, increased TLR4 signaling, in human and murine CF macrophages and murine CF lungs, is caused by high microRNA-199a-5p levels, which are PI3K/AKT-dependent. Down-regulation of microRNA-199a-5p or increased AKT signaling restores CAV1 expression and reduces hyper-inflammation in CF macrophages. Importantly, the FDA approved drug celecoxib reestablishes the AKT/miR-199a-5p/CAV1 axis in CF macrophages, and ameliorates lung hyper-inflammation in Cftr-deficient mice.Thus, we identify the AKT/miR-199a-5p/CAV1 pathway as a regulator of innate immunity, which is dysfunctional in CF macrophages contributing to lung hyper-inflammation. Importantly, this pathway is targeted by celecoxib.