Repurposing nitrofurantoin as a stimulant of fibroblast extracellular matrix repair for the treatment of emphysema

Abstract

Emphysema is a respiratory disease that causes the progressive loss of lung extracellular matrix (ECM) organisation, subsequently undermining lung integrity and reducing lung function. Fibroblasts must constantly repair damage to the lungs to preserve lung health, however, fibroblast ECM repair is reduced during emphysema, causing ECM damage to outweigh fibroblast ECM maintenance. Current treatments for emphysema fail to address the root causes of emphysematous progression, highlighting the need for novel methods of treating emphysema. Nitrofurantoin is a broad-spectrum antibiotic indicated for the treatment of urinary tract infections that also displays potential as a novel avenue of emphysema treatment. Nitrofurantoin is known to potentially cause fibrotic effects that could be repurposed to increase fibroblast repair and outweigh the progressive ECM damage of the emphysematous lung. Therefore, this study examined the effects of nitrofurantoin treatment on primary human lung fibroblasts derived from emphysema patients to determine if the drug holds potential as a novel treatment for emphysema. Nitrofurantoin was shown to stimulate migration and alter fibroblast morphology by increasing cell area and reducing roundness, suggesting that it could induce an ECM-repair primed phenotype in fibroblasts. Interestingly, nitrofurantoin treatment did not alter collagen-IV, perlecan, periostin or tenascin-C deposition, though fibronectin deposition was significantly upregulated at a higher dosage (20 μg/mL). This study highlighted the nitrofurantoin induced changes to fibroblast motility and morphology that facilitate ECM repair. Thus, nitrofurantoin induced pulmonary fibrosis could be caused by a change in cell phenotype that subsequently upregulates ECM repair, indicating its potential as a treatment for emphysema.