Objective: To visualize and localize fragmented DNA strands within apoptotic cells by means of fluorescence using TdT-mediated dUTP-biotin nick end labeling (TUNEL) techniques, laser scanning confocal microscopy (CLSM) and factor analysis of biomedical image sequences (FAMIS).
Study design: For this experiment, lymphoid reverted cells were used as a model. Characteristic DNA breaks inside apoptotic cells were detected using TUNEL techniques by a reaction involving tetramethyl rhodamin isothyocyanate (TRITC). The DNA from cell nuclei was counterstained using chromomycin A3 (CA3). The tandem TRITC-CA3 in CLSM was applied to investigate the ability to detect DNA breaks in individual cells using TUNEL techniques and its amplified variants (TUNEL-CARD). FAMIS was applied on dynamic sequences of images of TUNEL preparations and on four-dimensional (4-D) sequences of images of TUNEL-CARD preparations.
Results: Distribution and amplitude of fluorescent structures were characterized on dynamic sequences of images. Characterization was improved when FAMIS was applied on 4-D sequences of images, taking into account differences in photobleaching and/or spectrum of TRITC and CA3.
Conclusion: It is possible to discriminate targets from CA3. FAMIS and TUNEL methods can be used to visualize and localize multiple DNA breaks in lymphoid reverted cells in improved methods of experimentation.