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Main Authors: Uchida, Hitoshi, Maruyama, Eri O, Takano, Takahiro, Aure, Marit H, Glasner, Melissa F, Soares, Zamira Guerra, Faustoferri, Roberta C, Thomas, V Kaye, Makarenkova, Helen P, Yule, David I, Ovitt, Catherine E
Format: Artículo científico
Language:en
Published: The Journal of physiology 2026
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Online Access:https://pubmed.ncbi.nlm.nih.gov/41721487/
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author Uchida, Hitoshi
Maruyama, Eri O
Takano, Takahiro
Aure, Marit H
Glasner, Melissa F
Soares, Zamira Guerra
Faustoferri, Roberta C
Thomas, V Kaye
Makarenkova, Helen P
Yule, David I
Ovitt, Catherine E
author_facet Uchida, Hitoshi
Maruyama, Eri O
Takano, Takahiro
Aure, Marit H
Glasner, Melissa F
Soares, Zamira Guerra
Faustoferri, Roberta C
Thomas, V Kaye
Makarenkova, Helen P
Yule, David I
Ovitt, Catherine E
Uchida, Hitoshi
Maruyama, Eri O
Takano, Takahiro
Aure, Marit H
Glasner, Melissa F
Soares, Zamira Guerra
Faustoferri, Roberta C
Thomas, V Kaye
Makarenkova, Helen P
Yule, David I
Ovitt, Catherine E
collection PubMed - marine biology
contents Ascl3 ionocytes in murine salivary gland ducts are innervated sensory cells that display unique calcium signalling characteristics and contribute to the composition of saliva. Uchida, Hitoshi Maruyama, Eri O Takano, Takahiro Aure, Marit H Glasner, Melissa F Soares, Zamira Guerra Faustoferri, Roberta C Thomas, V Kaye Makarenkova, Helen P Yule, David I Ovitt, Catherine E Animals Mice Calcium Signaling Basic Helix-Loop-Helix Proteins Saliva Sensory Receptor Cells Salivary Ducts Salivary Glands Female 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 the expression of the forkhead boxI1 (Foxi1) and achaete scute-like 3 (Ascl3) transcription factors. Currently little is known about the biology or function of ionocytes in the salivary glands. To facilitate the characterization of these cells, we produced 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 cystic fibrosis transmembrane conductance regulator (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 thatAscl3 ionocytes exhibit unique properties not observed in the acinar or surrounding duct cells, including elevated basal [Ca], spontaneous blinking in the absence of stimulation and a rapid loss of [Ca] after nerve stimulation. These unique properties distinguish ionocytes as a specialized subset of salivary gland duct cells. KEY POINTS: Ionocytes are epithelial cells originally identified in marine teleosts and subsequently reported to be present in pulmonary epithelia, olfactory epithelium and salivary and lachrimal glands. We produced an inducible Cre mouse allele driven by the Ascl3 promoter to study the distribution and function of Ascl3 ionocytes in salivary glands. By crossing this strain with a fluorescent reporter, we demonstrated the prominent localization of Ascl3 ionocytes in salivary gland ducts. Cre-mediated expression of the genetically encoded Ca indicator GCamp6f in Ascl3 ionocytes revealed unique Ca signalling properties of this cell type distinct from acinar cells and other ductal cell types. Cre-mediated ablation of Ascl3 ionocytes altered the pH of the final saliva. We conclude that ionocytes resident in salivary gland ducts function to modify the primary saliva contributing to the composition of the final saliva entering the oral cavity.
format Artículo científico
id pubmed_41721487
institution PubMed
language en
publishDate 2026
publisher The Journal of physiology
record_format pubmed
spellingShingle Ascl3 ionocytes in murine salivary gland ducts are innervated sensory cells that display unique calcium signalling characteristics and contribute to the composition of saliva.
Uchida, Hitoshi
Maruyama, Eri O
Takano, Takahiro
Aure, Marit H
Glasner, Melissa F
Soares, Zamira Guerra
Faustoferri, Roberta C
Thomas, V Kaye
Makarenkova, Helen P
Yule, David I
Ovitt, Catherine E
Animals
Mice
Calcium Signaling
Basic Helix-Loop-Helix Proteins
Saliva
Sensory Receptor Cells
Salivary Ducts
Salivary Glands
Female
Ascl3 ionocytes in murine salivary gland ducts are innervated sensory cells that display unique calcium signalling characteristics and contribute to the composition of saliva. Uchida, Hitoshi Maruyama, Eri O Takano, Takahiro Aure, Marit H Glasner, Melissa F Soares, Zamira Guerra Faustoferri, Roberta C Thomas, V Kaye Makarenkova, Helen P Yule, David I Ovitt, Catherine E Animals Mice Calcium Signaling Basic Helix-Loop-Helix Proteins Saliva Sensory Receptor Cells Salivary Ducts Salivary Glands Female 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 the expression of the forkhead boxI1 (Foxi1) and achaete scute-like 3 (Ascl3) transcription factors. Currently little is known about the biology or function of ionocytes in the salivary glands. To facilitate the characterization of these cells, we produced 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 cystic fibrosis transmembrane conductance regulator (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 thatAscl3 ionocytes exhibit unique properties not observed in the acinar or surrounding duct cells, including elevated basal [Ca], spontaneous blinking in the absence of stimulation and a rapid loss of [Ca] after nerve stimulation. These unique properties distinguish ionocytes as a specialized subset of salivary gland duct cells. KEY POINTS: Ionocytes are epithelial cells originally identified in marine teleosts and subsequently reported to be present in pulmonary epithelia, olfactory epithelium and salivary and lachrimal glands. We produced an inducible Cre mouse allele driven by the Ascl3 promoter to study the distribution and function of Ascl3 ionocytes in salivary glands. By crossing this strain with a fluorescent reporter, we demonstrated the prominent localization of Ascl3 ionocytes in salivary gland ducts. Cre-mediated expression of the genetically encoded Ca indicator GCamp6f in Ascl3 ionocytes revealed unique Ca signalling properties of this cell type distinct from acinar cells and other ductal cell types. Cre-mediated ablation of Ascl3 ionocytes altered the pH of the final saliva. We conclude that ionocytes resident in salivary gland ducts function to modify the primary saliva contributing to the composition of the final saliva entering the oral cavity.
title Ascl3 ionocytes in murine salivary gland ducts are innervated sensory cells that display unique calcium signalling characteristics and contribute to the composition of saliva.
topic Animals
Mice
Calcium Signaling
Basic Helix-Loop-Helix Proteins
Saliva
Sensory Receptor Cells
Salivary Ducts
Salivary Glands
Female
url https://pubmed.ncbi.nlm.nih.gov/41721487/