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Novel Cross-Species Salivary Gland-Parasympathetic Neuron Coculture System

Overview
Journal Bio Protoc
Specialty Biology
Date 2024 Nov 11
PMID 39525966
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Abstract

The parasympathetic nervous system is essential for salivary gland development and functionality. Parasympathetic neuron (parasymN) innervation is the main neural network that controls salivary secretion. Therefore, an exclusive model to study parasympathetic neurons and salivary gland tissue circuitry will significantly improve the understanding of the role of parasymN activation on salivary regulation. Harvesting primary rodent parasymNs is challenging due to their body-wide disbursed location. Similarly, the salivary glands are distributed in various locations around and within the oral cavity. Here, we present a coculture model system using human pluripotent stem cell (hPSC)-derived parasymNs and primary mouse von Ebner's gland cells. We previously reported the first protocol to robustly generate human parasymNs from hPSCs through the Schwann cell precursor (SCP) lineage. The hPSC-parasymNs are functional and have been applied to model several autonomic disorders. We also used a ::tdTomato (hereafter referred to as RFP) reporter mouse line, which labeled von Ebner's glands, a type of minor salivary gland connected to the trough of circumvallate and foliate taste papillae. This labeling allowed for visualization and efficient isolation of primary tissues in young adult mice (8-10 weeks). By coculturing the two tissues, human parasymNs control mouse salivary gland cell growth and activation. Both parasymNs and primary salivary gland cells can be frozen and stocked at early stages of differentiation and isolation, making applications easier. This novel coculture model system could also be used to model and study related human diseases in the future, such as dry mouth syndrome. Key features • Differentiation of human parasymNs from hPSCs. • Dissecting RFP mouse Ebner's gland tissues for primary culture. • Protocol to coculture human parasymNs with mouse primary salivary gland cells. • Allows developmental and functional assessments of salivary regulation by the parasympathetic nervous system.

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