Abstract
Cellular mitochondrial function can be assessed using high resolution respirometry that measures O2 consumption rate during various conditions that systematically alter the tricarboxylic acid (TCA) cycle or the electron transport chain (ETC). However, current high resolution respirometry does not measure O2 consumption rate at the single cell level, but actually measures average mitochondrial function across a number of cells (either isolated or in tissues). Thus, respirometry assumes physiological homogeneity across cells. However, in many tissues, mitochondrial function varies across cells and this heterogeneity is physiologically important. Therefore, a direct measurement of cellular mitochondrial function will provide valuable novel information and physiological insight. In the present study, we used a quantitative histochemical technique to measure the activity of succinate dehydrogenase (SDH), a key enzyme located in the inner mitochondrial membrane, and the only enzyme to participate in both the TCA cycle and the ETC as Complex II. SDH mediates the oxidation of succinate to fumarate in the TCA cycle, which is coupled to the reduction of ubiquinone to ubiquinol in the ETC. In this study we determined the maximum velocity of the SDH reaction (SDHmax) in isolated human airway smooth muscle (hASM) cells using 1‐methoxyphenazine methosulphate (mPMS), as an exogenous electron carrier, and azide to inhibit cytochrome oxidase. To measure SDHmax, the cells were exposed to a solution containing 80 mM succinate and 1.5 mM nitroblue tetrazolium (NBT) as the reaction indicator. hASM cells were imaged in 3D (Z optical slice of 0.5 μm) using a Nikon Eclipse A1 laser scanning confocal system with a ×60/1.4 NA oil‐immersion lens. In the quantitative histochemical procedure, changes in cell optical density (OD) due to the progressive reduction of NBT to its diformazan (peak absorbance wavelength of 570 nm) were measured every 15 s over a 10 min period. Linearity of the SDH reaction was confirmed across the 10 min period, and SDHmax was expressed as mM fumarate/liter of tissue/min. Validation of this technique included specific ETC inhibitors including oligomycin (ATP synthase inhibitor), FCCP (proton ionophore), antimycin A (Complex III inhibitor) and rotenone (Complex I inhibitor), similar to those used in high resolution respirometry. We observed that FCCP‐mediated disruption of the mitochondrial proton gradient does not affect SDHmax, while SDHmax is decreased by rotenone and antimycin A. In addition, we used MitoTracker Green to label and image mitochondria in hASM cells and determined mitochondrial volume density. The SDHmax was then normalized to mitochondrial content. Our results confirm that this quantitative technique is rigorous and reproducible, and that measurements of cellular SDHmax can serve as a reliable surrogate for the measurement of maximum mitochondrial respiration in single cells.
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