Unsupervised clustering of multiparametric
fluorescent images extends the spectrum of
detectable cell membrane phases with submicrometric resolution
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Version 1 2020-09-21, 18:30Version 1 2020-09-21, 18:30
Posted on 2020-09-21 - 18:30
Solvatochromic probes undergo an emission shift when the hydration level of the
membrane environment increases and are commonly used to distinguish between solidordered and liquid-disordered phases in artificial membrane bilayers. This emission shift is
currently limited in unraveling the broad spectrum of membrane phases of natural cell
membranes and their spatial organization. Spectrally resolved fluorescence lifetime imaging
can provide pixel-resolved multiparametric information about the biophysical state of the
membranes, like membrane hydration, microviscosity and the partition coefficient of the
probe. Here we introduce a clustering based analysis that, leveraging the multiparametric
content of spectrally resolved lifetime images, allows us to classify through an unsupervised
learning approach multiple membrane phases with sub-micrometric resolution. This method
extends the spectrum of detectable membrane phases allowing to dissect and characterize up
to six different phases, and to study real-time phase transitions in cultured cells and tissues
undergoing different treatments. We applied this method to investigate membrane remodeling
induced by high glucose on PC-12 neuronal cells, associated with the development of diabetic
neuropathy. Due to its wide applicability, this method provides a new paradigm in the
analysis of environmentally sensitive fluorescent probes.
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Bianchetti, Giada; de spirito, Marco; Maulucci, Giuseppe (2020). Unsupervised clustering of multiparametric
fluorescent images extends the spectrum of
detectable cell membrane phases with submicrometric resolution. Optica Publishing Group. Collection. https://doi.org/10.6084/m9.figshare.c.5071508.v2