HYALURONIC-ACID AS A MOLECULAR FILTER AND FRICTION-REDUCING LUBRICANT IN THE HUMAN INNER-EAR

被引：6

作者：

ANNIKO, M

ARNOLD, W

机构：

[1] Departments of Oto-Rhino-Laryngology and Head and Neck Surgery, Uppsala University Hospital (Akademiska sjukhuset), Uppsala

[2] Departments of Oto-Rhino-Laryngology and Head and Neck Surgery, Klinikum Rechts der Isar, Technical University of Munich

来源：

ORL-JOURNAL FOR OTO-RHINO-LARYNGOLOGY AND ITS RELATED SPECIALTIES | 1995年 / 57卷 / 02期

关键词：

HYALURONIC ACID; IMMUNOMORPHOLOGY; FUNCTION; HUMAN; LABYRINTH;

D O I：

10.1159/000276716

中图分类号：

R76 [耳鼻咽喉科学];

学科分类号：

100213 ;

摘要：

Immunofluorescence for hyaluronic acid occurred intracellularly in morphologically highly specialized areas in the adult human inner ear, for instance in the cuticular plates of all types of hair cells, at the apposition between outer hair cells and Deiter's cell bodies and in the near-surface area of Hensen's cells. The cytoskeletal organization in these regions is characterized by tightly packed filamentous proteins. Under physiological stimulus these regions undergo micromechanical change, either actively moving (force generation) or passively vibrating with changes in elasticity. Hyaluronic acid might therefore act as a friction-reducing molecular lubricant. In the lateral wall of the cochlea an accumulation of hyaluronic acid occurred in the loose connective tissue of the spiral ligament, in particular close to the stria vascularis. Due to its complex molecular network, hyaluronic acid offers considerable resistance to bulk flow of water and may exclude molecules. The basal cell region of the stria vascularis is thus given additional support to minimize (seal?) the stria vascularis towards all other areas except the endolymphatic space. Here, hyaluronic acid could act as a molecular filter.

引用

页码：82 / 86

页数：5

共 28 条

[1]

Laurent T.C., Biochemistry of hyaluronan, Acta Otolaryngol (Stockh), pp. 7-24, (1987)

[2]

Prehm P., Hyaluronate is synthesised at plasma membranes, Biochem J, 220, pp. 597-600, (1984)

[3]

Haddon C.M., Lewis J.H., Hyaluronan as a propellant for epithelial movement: The development of semicircular canals in the inner ear of Xenopus, Development, 112, pp. 541-550, (1991)

[4]

Evered D., Whelan J., The biology of hyaluronan, Ciba Foundation Symp 143, (1989)

[5]

Laurent C., Johnson-Wells G., Hellstrom S., Engstrom-Laurent A., Wells A.F., Localization of hyaluronan in various muscular tissues, Cell TissRes, 263, pp. 201-205, (1991)

[6]

Anniko M., Arnold W., Stigbrand T., Cellular and extracellular proteins in the human inner earw'ith functional interpretations, Facial Nerv Res Jpn, pp. 1-8, (1992)

[7]

Anniko M., Arnold W., Methods for cellular and subcellular visualization of intermediate filament proteins in the human inner car, Acta Otolaryngol (Stockh), pp. 13-22, (1990)

[8]

Toole B.P., Glycosaminoglycans in morphogenesis, Cell Biology of Extracellular Matrix, pp. 259-294, (1981)

[9]

Moriss-Kay G.M., Tuckett F., The effects of Slreptomyces hyaluronidasc on tissue organization and cell cycle time in rat embryos, J Embryol Exp Morphol, 98, pp. 59-70, (1986)

[10]

Burk D.T., Morphological effects of Slreplo-myces hyaluronidasc treatment on the outgrowth of the nasal processes in mouse embryos, J Craniofac Genet Dev Biol, 5, pp. 385-398, (1985)

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