Issue 9, 2024

Spatially resolved quantification of oxygen consumption rate in ex vivo lymph node slices

Abstract

Cellular metabolism has been closely linked to activation state in cells of the immune system, and the oxygen consumption rate (OCR) in particular serves as a valuable metric for assessing metabolic activity. Several oxygen sensing assays have been reported for cells in standard culture conditions. However, none have provided a spatially resolved, optical measurement of local oxygen consumption in intact tissue samples, making it challenging to understand regional dynamics of consumption. Therefore, here we established a system to monitor the rates of oxygen consumption in ex vivo tissue slices, using murine lymphoid tissue as a case study. By integrating an optical oxygen sensor into a sealed perfusion chamber and incorporating appropriate correction for photobleaching of the sensor and of tissue autofluorescence, we were able to visualize and quantify rates of oxygen consumption in tissue. This method revealed for the first time that the rate of oxygen consumption in naïve lymphoid tissue was higher in the T cell region compared to the B cell and cortical regions. To validate the method, we measured OCR in the T cell regions of naïve lymph node slices using the optical assay and estimated the consumption rate per cell. The predictions from the optical assay were similar to reported values and were not significantly different from those of the Seahorse metabolic assay, a gold standard method for measuring OCR in cell suspensions. Finally, we used this method to quantify the rate of onset of tissue hypoxia for lymph node slices cultured in a sealed chamber and showed that continuous perfusion was sufficient to maintain oxygenation. In summary, this work establishes a method to monitor oxygen consumption with regional resolution in intact tissue explants, suitable for future use to compare tissue culture conditions and responses to stimulation.

Graphical abstract: Spatially resolved quantification of oxygen consumption rate in ex vivo lymph node slices

Supplementary files

Article information

Article type
Paper
Submitted
05 Jan 2024
Accepted
09 Mar 2024
First published
27 Mar 2024
This article is Open Access
Creative Commons BY license

Analyst, 2024,149, 2609-2620

Spatially resolved quantification of oxygen consumption rate in ex vivo lymph node slices

P. Anbaei, M. G. Stevens, A. G. Ball, T. N. J. Bullock and R. R. Pompano, Analyst, 2024, 149, 2609 DOI: 10.1039/D4AN00028E

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