Rie Ikeda

Developmental changes of sugar residues and secretory protein in mucous cells of the early postnatal rat parotid gland

Mucous cells have been identified in the terminal portions of the early postnatal parotid gland in human and rat, although mature parotid gland acini are composed of serous cells or seromucous cells. Previously, Ikeda et al. demonstrated that mucous cells are present in the rat parotid gland on days 1 to 8 after birth and that the secretory granules within these mucous cells share some histochemical characteristics with mature serous cells. However, it is still not clear whether the mucous cells change into serous cells as the gland develops. The purpose of this study was to determine whether the mucous cells that appear in the early postnatal rat parotid gland change into serous cells.

Changes in the number and distribution of myoepithelial cells in the rat parotid gland during postnatal development

The mature rat parotid gland shows hardly any cell bodies of myoepithelial cells around the acini, only a few cell processes being visible. However, in the early postnatal period, the rat parotid gland shows many myoepithelial cell bodies around the acini, including the intercalated ducts. In order to clarify the reason for the disappearance of myoepithelial cells from the area around the acinus during postnatal development, changes in the number and distribution of myoepithelial cells in the rat parotid gland were examined histochemically and chronologically, with particular reference to cell proliferation and cell death. From day 7 to day 14, many myoepithelial cells showing a positive reaction with anti-actin antiserum were found around the acini and intercalated ducts, but thereafter the number of such cells decreased gradually, particularly around the acini, and had almost disappeared after day 35. BrdU/PCNA-positive myoepithelial cells surrounding the acini were easily detected on day 14, but disappeared by day 21, whereas BrdU/PCNA-positive acinar cells remained numerous even after day 21. TUNEL/ISEL staining showed no positive myoepithelial cells throughout the observation period. Transmission electron microscopy also demonstrated no myoepithelial cells with chromatin condensation characteristic of apoptosis through the observation period. These findings suggest that the main reason for the disappearance of myoepithelial cells from the area around the acinus during postnatal development is the large difference between the number of myoepithelial cells and that of acinar cells, because the acinar cells retain their proliferative activity even after myoepithelial cells have become quiescent.

Effect of Glucocorticoid on the Differentiation and Development of Terminal Tubules in the Fetal Rat Submandibular Gland

Glucocorticoids (CORT) are known to promote branching of the epithelial cords during the development of the rat submandibular gland. The aim of this study was to examine the effect of CORT (triamcinolone) on the differentiation of cells forming the terminal tubules in the developing fetal rat submandibular gland and the properties of the secretory granules. Light and electron microscopy showed that the terminal tubules of the glands in the experimental group contained more type III cells, which have been identified as proacinar cells, than those in the control group, whereas the relative number of type I cells, which have been identified as terminal tubule cells, was reduced. Immunoelectron microscopy using an antibody against neonatal submandibular gland secretory protein B (SMGB) revealed the presence of more gold particles over type III cell granules in the experimental group than in the control group. Lectin histochemistry demonstrated more wheat germ agglutinin (WGA)-labeled gold particles over type III cell granules in the experimental group than in the control group. These findings suggest that CORT promote the differentiation of type III cells, and moreover stimulate the production of secretory granules reactive for SMGB and WGA by acting on the terminal tubules of the developing rat submandibular gland.

Effects of Exogenous Thyroid Hormone on the Postnatal Morphogenesis of the Rat Parotid Gland

Administration of thyroid hormone has been shown to accelerate the early postnatal development of the rat parotid gland, but these studies have dwelt almost entirely on biochemical changes. The objective of this study was to describe the effects of exogenous thyroid hormone on morphologic aspects of the developing parotid gland, in particular the transient appearance of scattered mucous cells in this otherwise serous gland. Pups were given a daily subcutaneous injection of thyroxine (T4) of 0.1, 0.5, or 5.0 μg/g body weight, vehicle only (injection control), or no injection (normal control) beginning at 4 days, and killed for the collection of blood and parotid glands at intervals through 15 days. The serum was analyzed for T4 and the glands were examined by light and electron microscopy. The results indicated that both serum T4 and the pace of gland development were proportional to the dose of T4. In particular, T4 accelerated decreases in acinar size and gland area occupied by stroma and translocation of a subset of cells with small secretory granules, deeply stained with periodic acid–Schiff, from acini to intercalated ducts. However, the chronology of mucous cell disappearance was indifferent to treatment. In addition, signs of toxicity, including slower gain in body weight and greatly increased apoptosis and vacuoles in the glands, occurred with the higher doses of T4. Anat Rec, 291:94–104, 2007.

Exogenous thyroid hormone affects myoepithelium and proliferation in the developing rat parotid gland.

Abstract In the mature rat parotid gland, myoepithelial cells (MEC) invest intercalated ducts, but not acini. During postnatal development, however, these cells differentiate around both intercalated ducts and acini, then translocate to only intercalated ducts during weaning. Previously, we found that thyroxine (T4) accelerates translocation of cells with small secretory granules from acini into intercalated ducts and the number of apoptotic cells increased tremendously with high doses. We present here additional analysis of the effects of T4 on developing rat parotid gland, namely, the distribution of MEC and the proliferation of parenchymal cells. Beginning at age four days, pups were given daily subcutaneous injections of low, medium, and high doses of T4 or vehicle or no injection. At ages 4, 7, 10, and 15 days, glands were excised and processed for light microscopy. Sections were double-immunostained with antibodies against proliferating cell nuclear antigen (PCNA) and actin, and counterstained with hematoxylin. Proliferative activity was assessed via PCNA histochemistry and MEC were identified using actin histochemistry. MEC in the T4 groups invested mostly acini at 15 days in vehicle/normal glands and mostly intercalated ducts after 10 days in the T4 groups. The proliferative activity of acinar cells and MEC in vehicle/normal glands declined progressively with age and T4 increased the rate of this decline in the MEC in a dose-dependent manner. We conclude that T4 accelerates the translocation of MEC from acini to intercalated ducts and that an important mechanism is the more rapid decline in the proliferative activity of MEC than in acinar cells in the T4 groups. Some of the decline in the proliferative activity of all cells in the high and medium dose T4 groups after seven days may have been due to dose-related thyroxine toxicity.

Morphological and Histochemical Changes in the Parenchyma of the Rat Parotid and Sublingual Glands with Growth and Aging

The purpose of this review is to provide an overview of the differences in parenchymal structures that occur between the parotid and sublingual salivary glands of the rat from prior to birth to old age.Although the mature rat parotid gland is classified as serous, mucous cells have been identified in the acini during the early postnatal period. Mucous cells contained secretory granules including mucins and secretory proteins common to those of serous granules. Moreover, these cells morphologically showed transformation from mucous to serous type, and lack of apoptosis. When these findings are considered together, they suggest the possibility that mucous cells are converted into serous cells.Many myoepithelial cells around the acini were observed during the early postnatal period, whereas the mature rat parotid gland showed hardly any myoepithelial cells around the acini, but had such cells investing the intercalated ducts. The main reason for the disappearance of myoepithelial cells surrounding the acini during postnatal development is not apoptosis, but rather the large difference in cell number between myoepithelial cells and acinar cells, because the rate of proliferation of acinar cells declined more slowly than that of myoepithelial cells.Transient cells also occurred in the sublingual gland acini during the perinatal period, but these transformed into mucous cells, the opposite of transient cells in the developing parotid gland.

Morphological Changes in the Rat Sublingual Gland Parenchyma with Aging

Background: The characteristics of mucous cells in the aging rat sublingual gland were investigated in this study. Particular attention was paid to accumulated amyloid protein and changes of the properties of the secretory granules at the histochemical and ultrastructural level. Objective: This study was designed to examine age-related morphological changes in the sublingual gland of male Wistar rats from 12 to 27 months. Methods: For light microscopy, the sublingual glands were fixed with 10% neutral-buffered formalin, embedded in paraffin, and processed for Alcian blue, Congo red, and TUNEL staining. For transmission electron microscopy, some of the samples were fixed with Karnovsky solution, postfixed with 2% osmium tetroxide, and embedded in epoxy resin for pronase treatment. Results: The sublingual gland showed slight shrinkage after 21 months. After 24 months, Congo red staining showed positive reaction to the intralobular connective tissue surrounding the terminal portions and to the interlobular connective tissue around the blood vessels and the excretory ducts. At 27 months, some of the granules in the serous demilunes had difficulty in digesting with pronase treatment. The appearance rate of TUNEL-positive cells was low in both mucous and serous portions during the observation period, though the positive cell number was higher in the serous than in the mucous portion. Conclusions: These findings indicate that the rat sublingual gland accumulates amyloid protein in the parenchyma and changes the properties of secretory granules of the acinar cells in the serous demilune with aging, though apoptosis of the parenchymal cells and the decrease of the gland weight are slight.

Fine structure of transforming-type granules in mucous cells in the early postnatal rat parotid gland when processed by rapid freezing followed by freeze-substitution fixation.

The present study was designed to clarify the more precise ultrastructural feature of granules, especially mucous granules in the early postnatal rat parotid gland by using rapid freezing followed by freeze‐substitution fixation. The parotid gland of Wistar rats (aged 0–10 days) was removed under anesthesia and immediately underwent cryofixation followed by substitution with osmium tetroxide. After fixation, the samples were embedded in Epon‐Araldite, cut into ultrathin section, and then examined by transmission electron microscopy. Electron microscopy showed that the mucous granules of samples treated by freeze‐substitution fixation had low electron density and were almost spherical in shape with a clear limiting membrane. By Day 5, granules that were a little more electron dense than mucous granules, granules with a more electron dense portion at their periphery, and heterogeneous granules with an internal highly electron dense portion were found. Moreover, cells containing both homogeneous granules with a high electron density similar to that of mature serous granules and heterogeneous granules were observed. These findings demonstrated that the morphology of the transforming‐type mucous granules by chemical fixation in the previous study was an artifact and, as a result, strongly suggested that on the sequential morphological changes of transitional mucous/serous granules by rapid freezing method in the present study, the mucous cells in the early postnatal rat parotid gland undergo transformation to serous cells. Anat Rec 260:387–391, 2000.