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MitoPT™-TMRE

Assess mitochondrial permeability and depolarization events

ImmunoChemistry Technologies' MitoPT™-TMRE assay kit offers a straightforward method of assessing mitochondrial depolarization via flow cytometry, fluorescence microscopy, and fluorescence plate reader assay formats.

The MitoPT™ potentiometric dyes exhibit very low toxicity and display rapid and reversible membrane equilibration properties. Inside a healthy, non-apoptotic cell, the lipophilic TMRE dye, bearing a delocalized positive charge, enters the negatively charged mitochondrion where it accumulates in an inner-membrane potential-dependent manner. When the mitochondrial collapses in apoptotic or otherwise depolarized cells, the MitoPT™ TMRE potentiometric dye no longer accumulates inside the mitochondria and becomes evenly distributed throughout the cytosol. When dispersed in this manner, overall cellular fluorescence levels drop dramatically and this event can easily be visualized by fluorescence microscopy or quantitated by flow cytometry or fluorescence plate reader analysis techniques. The MitoPT™-TMRE assay easily distinguishes between non-apoptotic cell populations and those cell populations that are transitioning into an apoptotic state.

The MitoPT™-TMRE assay can be used in conjunction with your existing research protocols. Grow your cells using your usual cell cultivation protocol. If using an apoptosis or oxidative stress induction model system, simply induce apoptosis or metabolic stress according to your existing procedure. Once you have induced apoptosis in your cells, spike enough MitoPT™ dye solution into each test sample, plus your positive and negative control samples, to give a 20-200nM dye concentration. Incubate the cells for 20 minutes at 37C to allow the MitoPT™ potentiometric dyes to equilibrate within the polarized mitochondria. If the cells are not undergoing some form of metabolic or apoptotic stress, the mitochondrial membranes will remain intact, resulting in the concentration of the MitoPT™ dye within the negative/alkaline environment of the mitochondria. If the cells are apoptotic, the mitochondrial membranes will depolarize, causing the MitoPT™ dye to be dispersed throughout the cytosol. This MitoPT™ dye dispersion results in a dramatic reduction in the overall fluorescence of the affected mitochondria in particular, and the entire cell in general. The MitoPT™-TMRE reagent excites optimally at 549 nm and 548 nm, respectively, but also yield excellent results using the common Argon blue line (488nm) laser of most flow cytometers. Optimal emission from the MitoPT™-TMRE reagent lies in the FL2 emissions region (574nm and 573 nm, respectively). Orange emission filters (570nm +/- 10 nm) can be utilized to detect the presence of these potentiometric dyes using flow cytometry-based protocols.

MitoPT™-TMRE Depolarization Detection Kits can evaluate apoptosis using flow cytometry, fluorescence microscopy, or a fluorometric plate reader. When cells stained with MitoPT™-TMRE are run through a flow cytometer, the instrument will measure apoptosis by monitoring the loss of orange (574 nm) fluorescence intensity (FL2 emission spectrum) relative to the normal (negative) control population. Apoptotic cell mitochondria have a reduced that results in lower levels of the potentiometric dye within these organelles. TMRE has been used concurrently with other fluorophores in multi-parametric, flow cytometry based analyses measuring mitochondria depolarization, caspase activation, phosphatidyl-serine exposure, and/or cell viability within a single cell population. When cells stained with MitoPT™ TMRE are analyzed with a fluorescence plate reader, the instrument will measure apoptosis by monitoring the amount of emitted orange fluorescence. Healthy control cells bearing mitochondria with normal electrochemical gradients will concentrate the potentiometric dye to a greater extent than will apoptotic cell populations. The difference in fluorescence output of these two populations can be easily distinguished on a fluorescence plate reader using 540 +/- 10 nm excitation / 570 nm +/- 10 nm emission filter tandems in black 96-well plates. Analysis of MitoPT™ TMRE stained cells using fluorescence microscopy will reveal non-apoptotic cells containing bright orange fluorescent mitochondrial bodies (the MitoPT™ TMRE dye accumulates) within healthy mitochondria. In contrast, apoptotic and metabolically stressed cells will have noticeably fewer bright fluorescent mitochondria and more dim or completely non-fluorescent mitochondria. The overall brightness of these cells will also be visibly reduced as a result of the mitochondrial depolarization event.

Following the flow cytometer and fluorescence microscope protocols, each sample can be stained in a 0.5-1.0 mL cell culture volume containing from 20-200nM MitoPT™ dye concentration, depending upon user requirements for cell brightness, and if a wash step is acceptible. Protocols using MitoPT™ TMRE at concentrations > 50 nM should generally include a single wash step to minimize background fluorescence issues. The MitoPT™ 500 Test Kit contains enough TMRE reagent to evaluate 500 flow cytometry or fluorescence microscopy cell samples at a 200 nM dye concentration. If using a fluorescence plate reader analysis protocol, each 1 mL cell culture sample requires a concentration of 100-200 nM MitoPT dye. Accordingly, the MitoPT™ 500 Test Kit will process 500 samples spiked at a 200 nM dye concentration, or 1000 samples spiked at 100 nM dye concentration.

Learn more at ICT's version 1.0 MitoPT-TMRE webpage.