Your search keyword '"Panneck AR"' showing total 2 results

1. Cholinergic epithelial cell with chemosensory traits in murine thymic medulla.

Author

Panneck AR, Rafiq A, Schütz B, Soultanova A, Deckmann K, Chubanov V, Gudermann T, Weihe E, Krasteva-Christ G, Grau V, del Rey A, and Kummer W

Subjects

Animals, Chemoreceptor Cells metabolism, Chemoreceptor Cells ultrastructure, Choline O-Acetyltransferase metabolism, Epithelial Cells metabolism, Epithelial Cells ultrastructure, Green Fluorescent Proteins metabolism, Immunohistochemistry, Mice, Inbred C57BL, Mice, Transgenic, Microfilament Proteins metabolism, Receptors, Nicotinic metabolism, Signal Transduction, Taste, Thymus Gland innervation, Acetylcholine metabolism, Chemoreceptor Cells cytology, Epithelial Cells cytology, Thymus Gland cytology

Abstract

Specialized epithelial cells with a tuft of apical microvilli ("brush cells") sense luminal content and initiate protective reflexes in response to potentially harmful substances. They utilize the canonical taste transduction cascade to detect "bitter" substances such as bacterial quorum-sensing molecules. In the respiratory tract, most of these cells are cholinergic and are approached by cholinoceptive sensory nerve fibers. Utilizing two different reporter mouse strains for the expression of choline acetyltransferase (ChAT), we observed intense labeling of a subset of thymic medullary cells. ChAT expression was confirmed by in situ hybridization. These cells showed expression of villin, a brush cell marker protein, and ultrastructurally exhibited lateral microvilli. They did not express neuroendocrine (chromogranin A, PGP9.5) or thymocyte (CD3) markers but rather thymic epithelial (CK8, CK18) markers and were immunoreactive for components of the taste transduction cascade such as Gα-gustducin, transient receptor potential melastatin-like subtype 5 channel (TRPM5), and phospholipase Cβ2. Reverse transcription and polymerase chain reaction confirmed the expression of Gα-gustducin, TRPM5, and phospholipase Cβ2. Thymic "cholinergic chemosensory cells" were often in direct contact with medullary epithelial cells expressing the nicotinic acetylcholine receptor subunit α3. These cells have recently been identified as terminally differentiated epithelial cells (Hassall's corpuscle-like structures in mice). Contacts with nerve fibers (identified by PGP9.5 and CGRP antibodies), however, were not observed. Our data identify, in the thymus, a previously unrecognized presumptive chemosensitive cell that probably utilizes acetylcholine for paracrine signaling. This cell might participate in intrathymic infection-sensing mechanisms.

Published

2014

2. Terminally differentiated epithelial cells of the thymic medulla and skin express nicotinic acetylcholine receptor subunit α 3.

Author

Soultanova A, Panneck AR, Rafiq A, and Kummer W

Subjects

Animals, Epithelial Cells cytology, Epithelial Cells immunology, Mice, Mice, Transgenic, Receptors, Nicotinic genetics, Receptors, Nicotinic immunology, Skin cytology, Skin immunology, Thymus Gland cytology, Thymus Gland immunology, Cell Differentiation, Epithelial Cells metabolism, Gene Expression Regulation physiology, Receptors, Nicotinic biosynthesis, Skin metabolism, Thymus Gland metabolism

Abstract

In the thymus, T cell maturation is influenced by cholinergic signaling, and the predominantly expressed receptor is the α3-subunit of nicotinic acetylcholine receptors, encoded by the chrna3 gene. We here determined its cellular distribution utilizing an appropriate eGFP-expressing reporter mouse strain. Neither T cells (CD4, CD8) nor mesenchymal cells (desmin-positive) expressed eGFP. In the thymic medulla, eGFP-positive cells either were scattered or, more frequently, formed small clusters resembling Hassall's corpuscles. Immunolabeling revealed that these cells were indeed terminally differentiated epithelial cells expressing keratin 10 (K10) but neither typical cortical (K8, K18) nor medullary keratins (K5, K14). These labeling patterns reflected those in the epidermis of the skin, where overlap of K10 and eGFP expression was seen in the stratum granulosum, whereas underlying basal cells displayed K5-immunoreactivity. A substantial portion of thymic eGFP-positive cells was also immunoreactive to chromogranin A, a peptide previously reported in epidermal keratinocytes in the stratum granulosum. Its fragment catestatin has multiple biological activities, including suppression of proinflammatory cytokine release from macrophages and inhibition of α3β4 nAChR. The present findings suggest that its thymic production and/or release are under cholinergic control involving nAChR containing the α3-subunit.

Published

2014