Ultrastructurally, myoepithelial cells were shown to contain numerous fine filaments in their cytoplasm and resembled smooth muscle cells. The myoepithelial cell of the salivary gland has been considered to play an important role in the secretion of saliva. The present study showed that all the thin filaments (actin filaments) in the myoepithelial cell of the human parotid gland bound heavy meromyosin (HMM) and formed characteristic arrowhead structures. These filaments ran in two opposite directions with the poles at different ends. On the other hand, there was no binding of HMM with thicker filaments (10-nm filaments), plasma membrane, nuclear membrane, collagen fibrils, basement membrane or other cytoplasmic organelles.The present results strongly suggest that myoepithelial cells possess a contractile function parallel to the long axis of the cell for supporting the secretion of saliva in the parotid gland.
The motor end plate of the posterior cricoarytenoid muscle (PCA muscle) in the human adult, human fetus and cat was examined by using electron microscopy and histochemical methods. In the present study, we observed the single-type motor end plate and en plaque type neuromuscular junction. At the neuromuscular junction of the fetal PCA muscle, the primary synaptic cleft, the basement membrane and the postsynaptic density could already be observed; however, there was no secondary synaptic cleft. Histochemically, the subneural apparatus was filled with electron-dense products, indicating acetylcholinesterase (AChE) activity. The primary and secondary synaptic clefts in the adult PCA muscle were well developed and intense AChE activity was present. The appearance of the neuromuscular junction and its localization of AChE activity was similar to that in the cat PCA muscle.
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