Ascl3+ ionocytes in murine salivary gland ducts are innervated sensory cells that display unique calcium signaling characteristics and contribute to the composition of saliva

Ionocytes are distinct epithelial sensory cells scattered throughout the ductal system of the salivary glands. These cells are distinguished by their unusual morphology, as well as by a specific transcriptomic signature that includes expression of the Foxi1 and Ascl3 transcription factors. Currently, little is known about the biology or function of ionocytes in the salivary glands. To facilitate characterization of these cells, we generated an inducible Cre mouse allele driven by the Ascl3 promoter. This strain was crossed with a reporter to fluorescently label Ascl3+ ionocytes, highlighting that they are the site of enriched CFTR expression in the salivary glands, and demonstrating the proximity of these cells to neurons. Conditional Cre-mediated cell ablation, using diphtheria toxin (DTA), removed Ascl3+ ionocytes from the salivary glands and resulted in an altered pH of total saliva, supporting a function for ionocytes in transepithelial ion flow. Finally, Cre-mediated expression of the calcium indicator GCaMP6f revealed that Ascl3+ ionocytes exhibit unique properties not observed in acinar or surrounding duct cells, including elevated basal [Ca2+]I, spontaneous blinking in the absence of stimulation, and a rapid loss of [Ca2+]I following nerve stimulation. These unique properties distinguish ionocytes as a specialized subset of salivary gland duct cells.