Potentiating TMEM16A channel function has no effect on airway goblet cells or bronchial and pulmonary vascular smooth muscle function

Abstract

AbstractThe calcium-activated chloride channel TMEM16A enables chloride secretion across several transporting epithelia, including in the airway where it represents a therapeutic target for the treatment of cystic fibrosis. Additional roles for TMEM16A have also been proposed, including enhancing goblet cell exocytosis, increasing goblet cell numbers and stimulating smooth muscle contraction. The aim of the present study was to test whether the pharmacological regulation of TMEM16A channel function, both potentiation and inhibition, could affect any of these proposed biological roles.In vitro, a recently described potent and selective TMEM16A potentiator (ETX001) failed to stimulate mucin release from primary human bronchial epithelial (HBE) cells over a 24h exposure period using both biochemical and imaging endpoints. In addition, treatment of HBE cells with ETX001 or a potent and selective TMEM16A inhibitor (Ani9) for 4 days did not influence mucin release or goblet cell formation. In vivo, a TMEM16A potentiator was without effect on goblet cell emptying in an IL-13 driven goblet cell metaplasia model.Using freshly isolated human bronchi and pulmonary arteries, neither ETX001 or Ani9 had any effect on the contractile or relaxant responses of the tissues. In vivo, ETX001 also failed to influence either lung or cardiovascular function when delivered directly into the airways of telemetered rats.Together, these studies do not support a role for TMEM16A in the regulation of goblet cell numbers or mucin release, or on the regulation of airway or pulmonary artery smooth muscle contraction.