AI Article Synopsis
- Raman micro spectroscopy has emerged as a promising non-invasive tool for cancer research, particularly for analyzing drug actions and cellular resistances.
- The study examined the effects of the drug doxorubicin (DOX) on lung cancer cell lines A549 and Calu-1 using various techniques, including cytotoxicity assays and Raman spectroscopy.
- Differences in cellular responses were highlighted, with Calu-1 cells showing both direct DNA damage and oxidative stress effects, while A549 cells displayed only direct DNA damage signatures.
Article Abstract
The potential of Raman micro spectroscopy as an in vitro, non-invasive tool for clinical applications has been demonstrated in recent years, specifically for cancer research. To further illustrate its potential as a high content and label free technique, it is important to show its capability to elucidate drug mechanisms of action and cellular resistances. In this study, cytotoxicity assays were employed to establish the toxicity profiles for 24 hr exposure of lung cancer cell lines, A549 and Calu-1, to the commercially available drug, doxorubicin (DOX). Raman spectroscopy, coupled with Confocal Laser Scanning Microscopy and Flow Cytometry, was used to track the DOX mechanism of action, at a subcellular level, and to study the mechanisms of cellular resistance to DOX. Biomarkers related to the drug mechanism of action and cellular resistance to apoptosis, namely reactive oxygen species (ROS) and bcl-2 protein expression, respectively, were also measured and correlated to Raman spectral profiles. Calu-1 cells are shown to exhibit spectroscopic signatures of both direct DNA damage due to intercalation in the nucleus and indirect damage due to oxidative stress in the cytoplasm, whereas the A549 cell line only exhibits signatures of the former mechanism of action. PCA of nucleolar, nuclear and cytoplasmic regions of A549 and Calu-1 with corresponding loadings of PC1 and PC2.
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| http://dx.doi.org/10.1002/jbio.201600019 | DOI Listing |
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