Myoepithelial cells (MECs) are responsible for receiving stimuli from the central nervous system and translating their responses into the form of secretion into glandular tissue, including salivary glands (SG), sweet glands, and mammary glands. SG MECs cause the secretion of serous saliva by contracting of acini/ductal cells with acetylcholine (Ach) from parasympathetic nerves via muscarinic receptors. To response the parasympathetic physiological stimulation, SG epithelial cell-derived MECs are supposed to be induced and placed adjacent to parasympathetic system nerve ends in SGs by forming a neuro-myoepithelial junction. For salivary secretion to function under parasympathetic control, therefore, specific regions of salivary gland epithelial cells must be mapped and the epithelium near the nerve must differentiate into MECs in order to form a nerve-myoepithelial junction during organogenesis. We hypothesized that the epithelium near the parasympathetic nerves is induced the differentiation into MECs by which the neurotransmitter acetylcholine via muscarinic receptors. qPCR and whole-mount immunohistochemical analysis in ex vivo organ culture system revealed that SG epithelial cells near a parasympathetic nerve were found to be induced to differentiate into MECs via the cholinergic receptor muscarinic 1 by carbachol (CCh), an acetylcholine agonist. In addition, CCh stimulated ERK and Akt signaling for the induction of MEC differentiation in rat submandibular gland epithelial cells. These findings indicate that muscarinic action is required for the induction of MECs and formation of a neuro-myoepithelial junction in developing SGs. This study proposes a novel concept for tissue architecture to form a neuro-myoepithelial junction during neurofunctional organogenesis including SGs.
Keywords: Development; Differentiation; Neurotransmitter; Salivary gland.
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