Jacqueline A. Dubbeldam scite author profile

Immunofluorescence studies of type II alveolar epithelial cells indicate that they first appear in the pseudoglandular period of mouse lung development (around day 14.2). They are the only cell type to line the prospective pulmonary acinus at this time. The ultrastructural characteristics of this cell are defined by investigating embryos aged 13-16 days with transmission and scanning electron microscopy. Early embryonic type II cells appear as low-columnar or cuboid cells having large, approximately round nuclei and distinct ultrastructural features, including a well-developed Golgi apparatus with many associated vesicles, multivesicular bodies, dense bodies, and large apical and basal glycogen fields. These fields represent a distinctive property of the cell. Frequently, they show compartmentalization due to the presence of membrane systems, and association with dense bodies of various sizes.

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The proximal border of the human respiratory unit, as shown by scanning and transmission electron microscopy and light microscopical cytochemistry

Have-Opbroek

Otto-Verberne

Dubbeldam

et al. 1991

Anat. Rec.

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The epithelial cell types present in respiratory (= distal alveolarized) and terminal (= distal nonalveolarized) bronchioles in adult human lung were characterized with scanning and transmission electron microscopy (SEM, TEM) and light microscopic cytochemistry, using specific antibodies against surfactant protein SP-A and mucins, and Alcian blue/periodic acid-Schiff (AB/PAS) staining. In the respiratory bronchiole, two epithelial cell populations share the same basal lamina: one pseudostratified columnar with ciliated, secretory, and basal cells and the other predominantly simple cuboid with some interspersed flat (type I) cells. The columnar secretory cells show the ultrastructure of mucous cells. Light microscopically, they react with mucin antibodies and contain primarily periodate-reactive acid mucins. The mucous cells are the distal secretory cells described by Clara (1937). The cuboid cells are identified as type II (precursor) cells based on ultrastructural criteria for embryonic type II cells (Ten Have-Opbroek et al., 1988a, 1990a), including a cuboid cell shape, a large and roundish nucleus, rough and smooth endoplasmic reticulum (ER), osmiophilic multivesicular bodies, and dense bodies. These dense bodies in turn frequently exhibit--like those in embryonic type II cells--internal vesicles or lamellae, variability in size and shape, a specific relationship to ER and a widespread cytoplasmic distribution. Finally, the cuboid cells show a cytoplasmic staining pattern for SP-A. The terminal bronchiole is lined by the columnar cell population. In the respiratory bronchiole, the columnar (bronchial) and cuboid (alveolar) cell populations occupy distinctly different zones (pulmonary artery zone versus remaining wall). The alveolar part of the respiratory bronchiole (called alveolar tubule) defines the proximal border of a true respiratory unit.

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The formation of mesoderm and mesectoderm in 5- to 41-somite rat embryos cultured in vitro, using WGA-Au as a marker

et al. 1988

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The formation of mesectodermal cells by the neural crest in 5- to 41-somite stage embryos was investigated experimentally in rat embryos cultured in vitro, using lectin-coated colloidal gold as a probe. This method labelled all ectodermal cells, among them neural crest, surface ectodermal placodal and epiblastic (primitive streak) cells. The neural crest provides the mesodermal compartment of the entire head region with cells, including the primitive cranial ganglia and the branchial arches. In the head region migration of neural crest cells over a great distance (long-distance migration) was not observed. In the trunk region neural crest derived cells were mainly found to form the primitive spinal ganglia and the sympathetic trunk, once again without long-distance cell migration. Structures and tissues that supposedly were derived from the primitive streak were hardly labelled with colloidal gold. Surface ectodermal placodes were not only found at the expected sites (e.g. epibranchial placodes) but also in the ectoderm covering the transverse septum and lateral abdominal walls.

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Ultrastructural characteristics of inclusion bodies of type II cells in late embryonic mouse lung

1990

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As we reported earlier, type II alveolar epithelial cells make their appearance in the early embryonic mouse lung around day 14.2, and show distinctive ultrastructural features. The present study focuses on the ultrastructural characteristics of the inclusion bodies by investigating embryos aged 17-19 days (birth on day 19), using transmission electron microscopy. Late embryonic type II cells appear also as low-columnar or cuboid cells having large, approximately round nuclei and cytoplasm displaying typical features of a differentiated cell. The inclusion bodies show a widespread distribution and are extremely variable in appearance. Schematically we discern five main types, namely cytoplasmic, granular/flocculent, multivesicular, dense, and (multi)lamellar, which occur with intermediate and composite forms. All these inclusion bodies frequently contain glycogen particles, and show a structural relation to profiles of endoplasmic reticulum which are wrapped around them. Other distinctive properties are the osmiophily of multivesicular inclusion bodies, and the presence of vesicles in many dense inclusion bodies. The possible interrelationship, and the differences in various aspects of electron density, suggest that the five main types of inclusion bodies may represent different stages in the formation of mature multilamellar bodies.

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The formation of mesoderm and mesectoderm in presomite rat embryos cultured in vitro, using WGA-Au as a marker

et al. 1987

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Presomite rat embryos cultured in vitro were injected with the cell marker wheat germ agglutinin-gold in order to find out whether the ectoderm already formed mesodermal cells. These labelled so-called mesectodermal cells were found in all embryos studied, ranging in age from 8.7 to 9.3 days post coitum. In embryos younger than 9.0 days, the entire head fold ectoderm produced mesectodermal cells. From 9.0 days onwards, the neural crest and surface ectoderm placodes were recognizable as separate entities, both producing mesectodermal cells. The early onset of mesectodermal cell formation and the numerous and continuous manufacture led us to the conclusion that mesectodermal cells are deposited at their definitive location and that subsequent long-distance migration is unnecessary.

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