AI Article Synopsis
- Mitochondria in T cells can change their structure through fusion and fission, affecting cellular energy metabolism depending on the T cell type (naïve, effector, or memory).
- Recent research shows that the shape of mitochondria plays a crucial role in determining T cell fate by influencing their metabolic processes.
- The study developed a method using Imaging Flow Cytometry (IFC) to observe live T cells' mitochondria by standardizing the use of MitoTracker Green FM dye, which may enhance high-throughput studies of T cell function.
Article Abstract
Mitochondria, the powerhouse of the cell, are known to remodel their membrane structures through the process of fusion or fission. Studies have indicated that T cells adopt different energy metabolic phenotypes, namely oxidative phosphorylation and glycolysis depending on whether they are naïve, effector and memory T cells. It has recently been shown that changes in mitochondrial morphology dictate T cell fate via regulation of their metabolism. Our keen interest in T cell function and metabolism led us to explore and establish a method to study mitochondria in live T cells through a novel high content approach called Imaging Flow Cytometry (IFC). The focus of our current study was on developing a protocol to standardize the concentration of MitoTracker Green FM dye to observe mitochondria in live T cells using IFC. We began the study by using widefield microscopy to confirm the localisation of MitoTracker Green FM labelled mitochondria in live T cells. This was followed by testing various concentrations of the dye to achieve a similar labelling pattern using IFC while eliminating false positive or negative staining. The optimization of the method used to label the mitochondria by IFC for analysis included standardisation of a number of important parameters such as dye concentration, voltage, fluorescence intensity values for acquisition and processing. IFC could potentially be a powerful method to study T cells in a relatively high throughput manner.
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| http://dx.doi.org/10.1016/j.ymeth.2017.11.015 | DOI Listing |
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