Molecular Medicine Department, Victor Babes National Institute of Pathology, Bucharest, Romania.
Anat Rec (Hoboken). 2012 Mar;295(3):378-85. doi: 10.1002/ar.21540. Epub 2011 Dec 15.
The parotid histological structure includes acinar, ductal, and myoepithelial cells, surrounded by a connective stromal component. The parotid stroma is mostly regarded as an inert shell, consisting of septa, which divide the parenchyma. Telocytes were recently identified as a new stromal cell type in various organs, including exocrine pancreas. We aimed to evaluate telocytes presence in parotid stroma and whether their topographical features might support an involvement in parotid function modulation. Serial ultrathin sections of human and rat parotid glands were studied and compared by transmission electron microscopy. Two-dimensional concatenation of sequenced micrographs allowed the ultrastructural identification of parotid telocytes, with their specific long, thin, and moniliform prolongations (telopodes). Telocyte location appeared frequently as a strategic one, in close contact or vicinity of both secretory (acini and ducts) and regulatory (nerves and blood vessels) apparatuses. They were also found in the interacinar and the subductal stroma. Two previously reported telocyte markers (c-kit/CD117 and vimentin) were assayed by immunohistochemistry. Actin expression was also evaluated. Telocytes are making a network, especially by branching of their long telopodes. Elements of this telocyte network are interacting with each other (homocellular connections) as well as with other cell types (heterocellular connections). These interactions are achieved either by direct contact (stromal synapse), or mediated via shed microvesicles/exosomes. Since telocyte connections include both neurovascular and exocrine elements (e.g., acini and ducts), it is attractive to think that telocytes might mediate and integrate neural and/or vascular input with parotid function.
腮腺的组织学结构包括腺泡、导管和肌上皮细胞,周围环绕着结缔组织基质成分。腮腺基质通常被认为是一种惰性外壳,由分隔实质的隔膜组成。近年来,人们在包括外分泌胰腺在内的各种器官中发现了一种新的基质细胞类型,即间质细胞。我们旨在评估腮腺基质中间质细胞的存在,以及它们的拓扑特征是否可能支持参与腮腺功能调节。通过透射电子显微镜研究并比较了人腮腺和大鼠腮腺的连续超薄切片。二维拼接的序列显微照片允许对腮腺间质细胞进行超微结构鉴定,其具有特定的长、细、串珠状突起(telopodes)。间质细胞的位置似乎经常是战略性的,与分泌(腺泡和导管)和调节(神经和血管)装置密切接触或附近。它们也存在于腺间和亚导管基质中。通过免疫组织化学检测了两种先前报道的间质细胞标志物(c-kit/CD117 和波形蛋白)。还评估了肌动蛋白的表达。间质细胞形成了一个网络,特别是通过其长 telopodes 的分支。这个间质细胞网络的元素相互作用(同源细胞连接)以及与其他细胞类型(异源细胞连接)相互作用。这些相互作用通过直接接触(基质突触)或通过释放的微泡/外泌体介导来实现。由于间质细胞连接包括神经血管和外分泌成分(如腺泡和导管),因此可以认为间质细胞可能介导和整合神经和/或血管输入与腮腺功能。
