Quantitative analysis and comparison of 3D morphology between viable and apoptotic MCF-7 breast cancer cells and characterization of nuclear fragmentation
Date
2017-09-08
Authors
Wen, Yuhua
Chen, Zhan
Lu, Jianfen
Ables, Elizabeth Tweedie
Scemama, Jean-Luc
Yang, Liv. V.
Lu, Jun Q.
Hu, Xin-Hua
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Abstract
Morphological changes in apoptotic cells provide essential markers for defining and detection
of apoptosis as a fundamental mechanism of cell death. Among these changes, the
nuclear fragmentation and condensation have been regarded as the important markers but
quantitative characterization of these changes is yet to be achieved. We have acquired confocal
image stacks of 206 viable and apoptotic MCF-7 cells stained by three fluorescent
dyes. Three-dimensional (3D) parameters were extracted to quantify and compare their differences
in morphology. To analyze nuclear fragmentation, a new method has been developed
to determine clustering of nuclear voxels in the reconstructed cells due to fluorescence
intensity changes in nuclei of apoptotic cells. The results of these studies reveal that the 3D
morphological changes in cytoplasm and nuclear membranes in apoptotic cells provide sensitive
targets for label-free detection and staging of apoptosis. Furthermore, the clustering
analysis and morphological data on nuclear fragmentation are highly useful for derivation of
optical cell models and simulation of diffraction images to investigate light scattering by
early apoptotic cells, which can lead to future development of label-free and rapid methods
of apoptosis assay based on cell morphology.
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Wen, Y., Chen, Z., Lu, J., Ables, E., Scemama, J.-L., Yang, L. V., … Hu, X.-H. (2017). Quantitative analysis and comparison of 3D morphology between viable and apoptotic MCF-7 breast cancer cells and characterization of nuclear fragmentation. PLOS ONE, 12(9), e0184726. https://doi.org/10.1371/journal.pone.0184726