Imaging of oxygen gradients in giant umbrella cells: an ex vivo PLIM study

O2 plays a pivotal role in aerobic metabolism and regulation of cell and tissue function. Local differences and fluctuations in tissue O2 levels are well documented; however, the physiological significance of O2 microgradients, particularly at the subcellular level, remains poorly understood. Using...

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Bibliographic Details
Published in:American Journal of Physiology: Cell Physiology 2015-10, Vol.309 (7), p.C501-C509
Main Authors: Zhdanov, A V, Golubeva, A V, Okkelman, I A, Cryan, J F, Papkovsky, D B
Format: Article
Language:English
Subjects:
Animals
Bladder
Cell Respiration - physiology
Cells
Epithelial Cells - metabolism
Fluorescence
Luminescent Measurements
Male
Mice
Mice, Inbred C57BL
Microscopy, Confocal
Microscopy, Fluorescence
Mitochondria
Mitochondria - metabolism
Oxygen - metabolism
Respiration
Staining and Labeling
Tissues
Urinary Bladder - cytology
Urinary Bladder - metabolism
Urothelium - cytology
Urothelium - metabolism
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Summary:O2 plays a pivotal role in aerobic metabolism and regulation of cell and tissue function. Local differences and fluctuations in tissue O2 levels are well documented; however, the physiological significance of O2 microgradients, particularly at the subcellular level, remains poorly understood. Using the cell-penetrating phosphorescent O2 probe Pt-Glc and confocal fluorescence microscopy, we visualized O2 distribution in individual giant (>100-μm) umbrella cells located superficially in the urinary bladder epithelium. We optimized conditions for in vivo phosphorescent staining of the inner surface of the mouse bladder and subsequent ex vivo analysis of excised live tissue. Imaging experiments revealed significant (≤85 μM) and heterogeneous deoxygenation within respiring umbrella cells, with radial O2 gradients of up to 40 μM across the cell, or ∼0.6 μM/μm. Deeply deoxygenated (5-15 μM O2) regions were seen to correspond to the areas enriched with polarized mitochondria. Pharmacological activation of mitochondrial respiration decreased oxygenation and O2 gradients in umbrella cells, while inhibition with antimycin A dissipated the gradients and caused gradual reoxygenation of the tissue to ambient levels. Detailed three-dimensional maps of O2 distribution potentially can be used for the modeling of intracellular O2-dependent enzymatic reactions and downstream processes, such as hypoxia-inducible factor signaling. Further ex vivo and in vivo studies on intracellular and tissue O2 gradients using confocal imaging can shed light on the molecular mechanisms regulating O2-dependent (patho)physiological processes in the bladder and other tissues.
ISSN:0363-6143
1522-1563
DOI:10.1152/ajpcell.00121.2015