Artery Research

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Volume 7, Issue 2, June 2013, Pages 84 - 92

Spatial and temporal characteristics of Ca2+ signaling in endothelial cells of intact rat tail artery

Authors
Sadaf Mumtaz*
Department of Physiology, University of Liverpool, Crown Street, Liverpool L69 3BX, UK
*Shifa College of Medicine, Shifa Tameer-e-Millat University, Sec H-8/4, Islamabad, Pakistan. Tel.: +92 51 8643365, +92 3475157965 (mobile); fax: +92 51 4435046. E-mail addresses: dr_sadaf_mumtaz@yahoo.com, sadaf.mumtaz@shifacollege.edu.
Corresponding Author
Sadaf Mumtaz
Received 18 September 2012, Revised 24 February 2013, Accepted 11 March 2013, Available Online 28 March 2013.
DOI
10.1016/j.artres.2013.03.002How to use a DOI?
Keywords
Spatial; Temporal; Calcium signaling; Endothelium; Carbachol; Culture
Abstract

Very few studies have described briefly the spatial and temporal characteristics of Ca2+ signaling using ATP, bradykinin, histamine and thrombin in cultured endothelium. However so far, the spatial and temporal characteristics in intact endothelium have not been elucidated.

The aim of this work was to increase the understanding of characteristics of Ca2+ signaling in endothelial cells using real time confocal imaging of Fluo-4 loaded intact rat tail arteries. Of all the three agonist used i.e. histamine, bradykinin and carbachol; only CCh produced strong dose dependent stimulant action on the endothelial cells of intact rat tail artery. Local endothelial heterogeneity was observed in fresh intact cells in response to the three agonist used which was absent upon culture.

In agreement with the previous studies, each of the three agonists produced complex Ca2+ signaling consisting of initial fast followed by sustained component with Ca2+ oscillations superimposing it. The data supports the following conclusions: (i) Ca2+ puffs were evoked in 18% and 14% of cells by low concentrations of CCh (0.1 μM and 1 μM), respectively. The average diameter and width of Ca2+ puffs initiation sites was 1.9 ± 0.4 μm, 1.6 ± 0.1 μm, respectively. Length varied between 2 and 6 μm (n = 25 vessels). (ii) ECs responding with Ca2+ waves and oscillations were dependent on concentration of CCh: 0.1 μM (20%), 1 μM (65%) and 10 μM (99%). Speed of wave propagation and frequency of Ca2+ oscillations varied among different cells even at the same agonist concentration. (iii) Ca2+ waves were regenerative; initiated by one or both ends of the cell and propagated across the cell at a speed of 14–44 μm/s (iv) With increasing concentrations of CCh (0.1–10 μM), the frequency of Ca2+ oscillations ranged from 0.02 to 0.3 Hz with optimal frequency being about 0.2 ± 0.02 Hz (n = 15 vessels). In conclusions, this data shows the morphology, heterogeneity and detailed characteristics of Ca2+ signal in intact endothelial cells.

Copyright
© 2013 Association for Research into Arterial Structure and Physiology. Published by Elsevier B.V. All rights reserved.
Open Access
This is an open access article distributed under the CC BY-NC license.

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<Previous Article In Issue
Next Article In Issue>
Journal
Artery Research
Volume-Issue
7 - 2
Pages
84 - 92
Publication Date
2013/03/28
ISSN (Online)
1876-4401
ISSN (Print)
1872-9312
DOI
10.1016/j.artres.2013.03.002How to use a DOI?
Copyright
© 2013 Association for Research into Arterial Structure and Physiology. Published by Elsevier B.V. All rights reserved.
Open Access
This is an open access article distributed under the CC BY-NC license.

Cite this article

risenwbib
TY  - JOUR
AU  - Sadaf Mumtaz
PY  - 2013
DA  - 2013/03/28
TI  - Spatial and temporal characteristics of Ca2+ signaling in endothelial cells of intact rat tail artery
JO  - Artery Research
SP  - 84
EP  - 92
VL  - 7
IS  - 2
SN  - 1876-4401
UR  - https://doi.org/10.1016/j.artres.2013.03.002
DO  - 10.1016/j.artres.2013.03.002
ID  - Mumtaz2013
ER  -