Laryngorhinootologie 1999; 78(7): 373-377
DOI: 10.1055/s-2007-996889
Rhinologie

© Georg Thieme Verlag Stuttgart · New York

Immunhistochemische Untersuchungen zur Verteilung der konstitutiven Stickoxidsynthase in Gefäßendothelien der Nasenschleimhaut des Menschen

Distribution of Constitutive Nitric Oxide Synthase in the Endothelium of Human Nasal VasculatureA. Riederer, Birgit Held, Brigitte Mack
  • Klinik und Poliklinik für HNO-Kranke der Ludwig-Maximilians-Universität München (Direktor: Prof. Dr. E. Kastenbauer)
Further Information

Publication History

Publication Date:
29 February 2008 (online)

Zusammenfassung

Hintergrund: Endogen produziertes Stickoxid (NO) spielt eine wichtige Rolle für die Gefäßphysiologie in verschiedenen Geweben des Menschen und anderer Spezies. Dabei geht man heute von der dualen Regulation des Gefäßmuskeltonus durch NO als Neurotransmitter und endothelial freigesetzten Botenstoff aus. Methode: Im Rahmen dieser Studie wurde die Verteilung der endothelialen konstitutiven NO-Synthase (ecNOS) in der unteren Nasenmuschel des Menschen (n = 15) mit immunhistochemischen Methoden dargestellt, um daraus Rückschlüsse auf Bedeutung und Wirkungsweise der NO-Produktion in verschiedenen Gefäßendothelien der Nasenschleimhaut zu ziehen. Ergebnisse: Positive Immunreaktionen wurden in den Endothelzellen von Arteriolen, Kapillaren und postkapillären Venolen, nicht aber in den venösen Sinus gefunden. Schlußfolgerungen: Diese Ergebnisse lassen den Rückschluß zu, dass unter physiologischen Bedingungen endothelial produziertes NO in der Nasenschleimhaut des Menschen vor allem auf den arteriellen Schenkel des Gefäßsystems einwirkt, aber auch für die Extravasation von Serumbestandteilen eine wichtige Rolle spielt.

Summary

Background: Human nasal mucosa is a highly regulated tissue that performs a wide ränge of physiological functions. In addition to the classic and peptidergic neurotransmitters, the endogenously produced free radical gas nitric oxide (NO) has been found to be increasingly important for the vascular regulation of this tissue. NO-dependent control of vascular tone works in two ways, consisting of neurally produced NO acting as a neurotransmitter on the one hand and endothelially produced NO on the other hand. Neurons and endothelial cells contain various isoforms of the enzyme nitric oxide synthase, which forms NO out of L-arginine. The aim of this study was to examine the distribution of endothelial constitutive NO-synthase (ecNOS) in the human nasal mucosa of inferior turbinates. Methods: Immunocytochemistry (avidin-biotin method) with polyclonal and monoclonal antibodies against eNOS and Cluster of differentiation 31, a marker for endothelial and certain blood cells, was used in order to gain more detailed information on the physiological distribution and significance of NOS in vascular endothelium of different vessel types. Results: Positive eNOS-immunoreactions were found in the endothelial cells of arterial blood vessels of different diameters as well as in capillaries and postcapillary venules. Venous sinuses with or without subendothelial cushions did not show any immunoreactions. Conclusions: There is strong evidence that vascular tone in human nasal mucosa is not only subject to nerval control, but also influenced directly by mediators released from the endothelium. The present results lead to the conclusion that in physiological conditions endothelially produced NO has an influence on the arterial component of the swelling mechanism in human nasal mucosa. Because eNOS could also be detected in capillaries and postcapillary venules, NO might also play an important role in plasma extravasation.