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Digitale Medien

Ultrastructure and fluorescence histochemistry of endocrine (APUD-type) cells in tracheal mucosa of human and various animal species (1975)

Cutz, E. ; Chan, W. ; Wong, V. ; [weitere]

Springer

Cell & tissue research 158 (1975), S. 425-437

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Details

ISSN: 1432-0878

Schlagwort(e): Tracheal epithelium (human, animal) ; APUD-Endocrine system ; Electron microscopy ; Histochemistry

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Summary This study describes distinctive cells with ultrastructural and histochemical features of APUD-type endocrine cells within the tracheal epithelium of human fetuses, newborns and children as well as different animal species. These cells referred to as Kultschitzky cells (K cells) were found to be argyrophilic, but not argentaffin, and are considered analogous to the same type of cells in lung and gastro-intestinal tract. Fluorescence histochemistry demonstrated the presence of intracellular amine within tracheal K cells, but only after in-vitro or in-vivo administration of amine precursor (L-DOPA). Ultrastructurally, these cells are characterized by the presence of numerous cytoplasmic granules (dense core vesicles) which show species related morphologic variations. Two different types of K cells were found in trachea of lamb and armadillo, each type possessing morphologically different dense core vesicles. In human and rabbit tracheas, only one type of K cell was identified. K cells in the trachea are distributed as single cells between other epithelial cells; neuroepithelial bodies such as those found in bronchial mucosa were not identified. Well differentiated K cells were found in tracheas of early human fetuses and throughout gestation, infancy, and childhood. Preservation of K cells in human autopsy material and widespread occurrence of these cells in various laboratory animals will permit further studies into the nature and function of tracheobronchial endocrine cells.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00220210

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Digitale Medien

Macrophages and epithelial cells in human amniotic fluid: Transmission and scanning electron microscopic study (1978)

Cutz, E. ; Conen, P. E.

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 151 (1978), S. 87-101

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Details

ISSN: 0002-9106

Schlagwort(e): Life and Medical Sciences ; Cell & Developmental Biology

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Medizin

Notizen: This combined light, transmission and scanning electron microscopic study describes and correlates the morphologic features of various types of cells present in normal human amniotic fluid (AF), during various stages of gestation. The aim of this investigation was to identify and characterize the viable cell population of AF cells as they pertain to the origin of AF cells growing in culture and their use for prenatal diagnosis.In all AF samples, including those obtained during the time period critical for prenatal diagnostic tests (14-16 weeks gestation), the majority of AF cells had the morphologic features of large squamous epithelial cells. By transmission and scanning electron microscopy these cells were characterized as keratinizing or non-keratinizing squamous epithelial cells and resembled the cells found on various fetal surfaces (i.e., buccal mucosa, skin, etc.). As judged by Trypan blue stainability and the presence of nuclear and cytoplasmic degenerative changes, the AF squamous cells were considered non-viable, and thus unlikely to grow in culture.The AF cells considered to be viable, because of their excellent ultrastructural preservation and exclusion of Trypan blue stain, formed only 10-15% of AF cells. Amongst this viable population, at least two morphologically distinct cell types were identified. One type had morphologic and functional characteristics of macrophages. The AF macrophages differed from other AF cells by the presence of a strong acid phosphatase reaction, numerous phagosomes and an ability to phagocytose in vitro, both latex particles and bacteria. Although AF macrophages appear to be a normal cell constituent of human AF, their origin and significance is unknown. The second type of viable AF cells appeared as single cells or in clusters and resembled the epithelial cells of amniotic lining. The amniotic cells showed excellent ultrastructural preservation of nuclei and cytoplasmic components. In contrast to AF macrophages, the amniotic cells contained cytoplasmic glycogen, possessed fine, regular surface microvilli and lacked both phagosomes and phagocytic capacity in vitro. It is proposed that these two types of viable AF cells may be the sources of cells growing in culture and could be responsible for the morphologic and biochemical heterogeneity of cultured AF cells.

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