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The gatekeepers in the mouse ophthalmic artery: endothelium-dependent mechanisms of cholinergic vasodilation

Scientific reports. Bd. 6. London: Nature Publishing Group 2016 Art. 20322

Erscheinungsjahr: 2016

ISBN/ISSN: 2045-2322

Publikationstyp: Zeitschriftenaufsatz

Sprache: Englisch

GeprüftBibliothek

Inhaltszusammenfassung


Cholinergic regulation of arterial luminal diameter involves intricate network of intercellular communication between the endothelial and smooth muscle cells that is highly dependent on the molecular mediators released by the endothelium. Albeit the well-recognized contribution of nitric oxide (NO) towards vasodilation, the identity of compensatory mechanisms that maintain vasomotor tone when NO synthesis is deranged remain largely unknown in the ophthalmic artery. This is the first study to ...Cholinergic regulation of arterial luminal diameter involves intricate network of intercellular communication between the endothelial and smooth muscle cells that is highly dependent on the molecular mediators released by the endothelium. Albeit the well-recognized contribution of nitric oxide (NO) towards vasodilation, the identity of compensatory mechanisms that maintain vasomotor tone when NO synthesis is deranged remain largely unknown in the ophthalmic artery. This is the first study to identify the vasodilatory signalling mechanisms of the ophthalmic artery employing wild type mice. Acetylcholine (ACh)-induced vasodilation was only partially attenuated when NO synthesis was inhibited. Intriguingly, the combined blocking of cytochrome P450 oxygenase (CYP450) and lipoxygenase (LOX), as well as CYP450 and gap junctions, abolished vasodilation; demonstrating that the key compensatory mechanisms comprise arachidonic acid metabolites which, work in concert with gap junctions for downstream signal transmission. Furthermore, the voltage-gated potassium ion channel, Kv1.6, was functionally relevant in mediating vasodilation. Its localization was found exclusively in the smooth muscle. In conclusion, ACh-induced vasodilation of mouse ophthalmic artery is mediated in part by NO and predominantly via arachidonic acid metabolites, with active involvement of gap junctions. Particularly, the Kv1.6 channel represents an attractive therapeutic target in ophthalmopathologies when NO synthesis is compromised.» weiterlesen» einklappen

Autoren


Manicam, Caroline (Autor)
Staubitz, Julia (Autor)
Brochhausen, Christoph (Autor)
Grus, Franz-Hermann (Autor)
Pfeiffer, Norbert (Autor)
Gericke, Adrian (Autor)

Klassifikation


DDC Sachgruppe:
Medizin