Functional differences in electrolyte transport between the mouse proximal and distal trachea

AimThe mammalian tracheal epithelium is composed by different cell types unevenly distributed along the proximal-distal axis. Nevertheless, variations in expression and function of ion channels and transporters participating in fluid absorption and secretion had never been studied separately in proximal and distal sections of the mouse trachea. In this work, we aim to characterize basal and stimulated absorption and secretion of fluid obtained from proximal and distal trachea from the same animal. MethodsUssing chamber experiments were performed using a custom-made tissue slider that allowed the mounting small tracheal sections, where response to agonists and blockers was recorded. The role of the NKCC1 co-transporter was studied using the Slc12a2-/- mouse. A genetically tomato-induced mouse model was used to assess co-expression of NKCC1 and ASCL3 by immunofluorescence. Animals were instilled with different interleukins (ILs) to determine changes in absorption, secretion and mucus properties. ResultsProximal trachea didnt participate in sodium absorption but exhibited higher cAMP- and succinate-induced anion secretion than the distal section. NBCe1-dependent bicarbonate and TMEM16A-driven chloride secretion was significantly higher in the distal section. NKCC1+ cells were found in the submucosal glands (SMGs) and abundant patches of NKCC1+ cells in the distal region. Isolated NKCC1+ cells co-expressing ASCL3 were also detected. ILs treatment changed the electrophysiological properties of the distal but not the proximal trachea. ConclusionsOur experiments determined that the mouse trachea organizes its functions differentially in the proximal and distal sections, based in the functional distribution of channels, transporters and receptors. While the distal trachea drastically changed its responses to agonists inducing anion secretion the proximal trachea was unperturbed by the action of ILs.