Journal article
Non-linear relationship between hyperpolarisation and relaxation enables long distance propagation of vasodilatation
Journal of Physiology, Vol.589(10), pp.2607-2623
2011
Abstract
Blood flow is adjusted to tissue demand through rapidly ascending vasodilatations resulting from conduction of hyperpolarisation through vascular gap junctions. We investigated how these dilatations can spread without attenuation if mediated by an electrical signal. Cremaster muscle arterioles were studied in vivo by simultaneously measuring membrane potential and vessel diameter. Focal application of acetylcholine elicited hyperpolarisations which decayed passively with distance from the local site, while dilatation spread upstream without attenuation. Analysis of simultaneous recordings at the local site revealed that hyperpolarisation and dilatation were only linearly related over a restricted voltage range to a threshold potential, beyond which dilatation was maximal. Experimental data could be simulated in a computational model with electrotonic decay of hyperpolarisation but imposition of this threshold. The model was tested by reducing the amplitude of the local hyperpolarisation which led to entry into the linear range closer to the local site and decay of dilatation. Serial section electron microscopy and light dye treatment confirmed that the spread of dilatation occurred through the endothelium and that the two cell layers were tightly coupled. Generality of the mechanism was demonstrated by applying the model to the attenuated propagation of dilatation found in larger arteries. We conclude that long distance spread of locally initiated dilatations is not due to a regenerative electrical phenomenon, but rather a restricted linear relationship between voltage and vessel tone, which minimises the impact of electrotonic decay of voltage. Disease-related alterations in endothelial coupling or ion channel expression could therefore decrease the ability to adjust blood flow to meet metabolic demand. © 2011 The Authors. Journal compilation © 2011 The Physiological Society.
Details
- Title
- Non-linear relationship between hyperpolarisation and relaxation enables long distance propagation of vasodilatation
- Authors
- S E Wölfle (Author) - Australian National UniversityD J Chaston (Author) - Australian National UniversityK Goto (Author) - Australian National UniversityShaun L Sandow (Author) - University of New South WalesF R Edwards (Author) - Australian National UniversityC E Hill (Author) - Australian National University
- Publication details
- Journal of Physiology, Vol.589(10), pp.2607-2623
- Publisher
- Wiley-Blackwell Publishing Ltd.
- Date published
- 2011
- DOI
- 10.1113/jphysiol.2010.202580
- ISSN
- 0022-3751
- Organisation Unit
- School of Health - Biomedicine; University of the Sunshine Coast, Queensland; School of Health and Sport Sciences - Legacy; School of Health and Behavioural Sciences - Legacy
- Language
- English
- Record Identifier
- 99448830402621
- Output Type
- Journal article
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