Caveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolation
<strong>Introduction:</strong> Caveolae are signal transduction centres, yet their subcellular distribution and preservation in cardiac myocytes after cell-isolation are not well documented. Here, we quantify caveolae, located within 100 nm of the outer cell surface membrane, in rabbit s...
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Format: | Journal article |
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Biophysical Society
2017
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author | Burton, RB Rog-Zielinska, EA Corbett, AD Peyronnet, RPJ Bodi, I Fink, M Sheldon, J Hoenger, A Calaghan, S Bub, G Kohl, P |
author_facet | Burton, RB Rog-Zielinska, EA Corbett, AD Peyronnet, RPJ Bodi, I Fink, M Sheldon, J Hoenger, A Calaghan, S Bub, G Kohl, P |
author_sort | Burton, RB |
collection | OXFORD |
description | <strong>Introduction:</strong> Caveolae are signal transduction centres, yet their subcellular distribution and preservation in cardiac myocytes after cell-isolation are not well documented. Here, we quantify caveolae, located within 100 nm of the outer cell surface membrane, in rabbit single ventricular cardiomyocytes over 8h post-isolation and relate this to caveolae presence in intact tissue. <strong>Methods:</strong> Hearts from New Zealand white rabbits were either chemically fixed by coronary perfusion, or enzymatically digested to isolate ventricular myocytes that were subsequently fixed at 0h, 3h and 8h post-isolation. In live cells, the patch-clamp technique was used to measure whole-cell plasma membrane capacitance, and in fixed cells caveolae were quantified by transmission electron microscopy (TEM). Changes in cell surface topology were assessed using scanning electron microscopy (SEM). In fixed ventricular myocardium, dual-axis EM tomography (ET) was used for three-dimensional (3D) reconstruction and analysis of caveolae in situ. <strong>Results:</strong> Surface-sarcolemmal caveolae presence and distribution in freshly isolated cells matches that of intact myocardium. With time, the number of surface-sarcolemmal caveolae decreases in isolated cardiomyocytes. This is associated with a gradual increase in whole-cell membrane capacitance. Concurrently, there is a significant increase in area, diameter and circularity of sub-sarcolemmal mitochondria, indicative of swelling. In addition, ET data from intact heart illustrate the regular presence of caveolae not only at the surface sarcolemma, but also on T-tubular (T-tub) membranes in ventricular myocardium. <strong>Conclusions:</strong> Caveolae are dynamic structures, present both at surface sarcolemmal and T-tub membranes. After cell isolation, surface-sarcolemmal caveolae numbers decrease significantly, within a time-frame relevant for single cell research. The concurrent increase in cell capacitance suggests that membrane incorporation of surface-sarcolemmal caveolae underlies this, but internalization and/or micro-vesicle loss to the extracellular space may also contribute. Given that much of the research into cardiac caveolae-dependent signalling utilises isolated cells, and since caveolae-dependent pathways matter for a wide range of other study targets, analysis of isolated cell data should take the time post-isolation into account. |
first_indexed | 2024-03-07T04:55:08Z |
format | Journal article |
id | oxford-uuid:d656ef0e-9118-42ab-8963-bc12a8b0fd58 |
institution | University of Oxford |
last_indexed | 2024-03-07T04:55:08Z |
publishDate | 2017 |
publisher | Biophysical Society |
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spelling | oxford-uuid:d656ef0e-9118-42ab-8963-bc12a8b0fd582022-03-27T08:32:43ZCaveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolationJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:d656ef0e-9118-42ab-8963-bc12a8b0fd58Symplectic Elements at OxfordBiophysical Society2017Burton, RBRog-Zielinska, EACorbett, ADPeyronnet, RPJBodi, IFink, MSheldon, JHoenger, ACalaghan, SBub, GKohl, P<strong>Introduction:</strong> Caveolae are signal transduction centres, yet their subcellular distribution and preservation in cardiac myocytes after cell-isolation are not well documented. Here, we quantify caveolae, located within 100 nm of the outer cell surface membrane, in rabbit single ventricular cardiomyocytes over 8h post-isolation and relate this to caveolae presence in intact tissue. <strong>Methods:</strong> Hearts from New Zealand white rabbits were either chemically fixed by coronary perfusion, or enzymatically digested to isolate ventricular myocytes that were subsequently fixed at 0h, 3h and 8h post-isolation. In live cells, the patch-clamp technique was used to measure whole-cell plasma membrane capacitance, and in fixed cells caveolae were quantified by transmission electron microscopy (TEM). Changes in cell surface topology were assessed using scanning electron microscopy (SEM). In fixed ventricular myocardium, dual-axis EM tomography (ET) was used for three-dimensional (3D) reconstruction and analysis of caveolae in situ. <strong>Results:</strong> Surface-sarcolemmal caveolae presence and distribution in freshly isolated cells matches that of intact myocardium. With time, the number of surface-sarcolemmal caveolae decreases in isolated cardiomyocytes. This is associated with a gradual increase in whole-cell membrane capacitance. Concurrently, there is a significant increase in area, diameter and circularity of sub-sarcolemmal mitochondria, indicative of swelling. In addition, ET data from intact heart illustrate the regular presence of caveolae not only at the surface sarcolemma, but also on T-tubular (T-tub) membranes in ventricular myocardium. <strong>Conclusions:</strong> Caveolae are dynamic structures, present both at surface sarcolemmal and T-tub membranes. After cell isolation, surface-sarcolemmal caveolae numbers decrease significantly, within a time-frame relevant for single cell research. The concurrent increase in cell capacitance suggests that membrane incorporation of surface-sarcolemmal caveolae underlies this, but internalization and/or micro-vesicle loss to the extracellular space may also contribute. Given that much of the research into cardiac caveolae-dependent signalling utilises isolated cells, and since caveolae-dependent pathways matter for a wide range of other study targets, analysis of isolated cell data should take the time post-isolation into account. |
spellingShingle | Burton, RB Rog-Zielinska, EA Corbett, AD Peyronnet, RPJ Bodi, I Fink, M Sheldon, J Hoenger, A Calaghan, S Bub, G Kohl, P Caveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolation |
title | Caveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolation |
title_full | Caveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolation |
title_fullStr | Caveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolation |
title_full_unstemmed | Caveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolation |
title_short | Caveolae in rabbit ventricular myocytes: distribution and dynamic diminution after cell isolation |
title_sort | caveolae in rabbit ventricular myocytes distribution and dynamic diminution after cell isolation |
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