Theophilou, Georgios, Medeiros-De-morais, Camilo De lelis ORCID: 0000-0003-2573-787X, Halliwell, Diane E., Lima, Kássio M. G., Drury, Josephine, Martin-Hirsch, Pierre L., Stringfellow, Helen F., Hapangama, Dharani K. and Martin, Francis L ORCID: 0000-0001-8562-4944 (2018) Synchrotron- and focal plane array-based Fourier-transform infared spectroscopy differentiates the Basalis and Functionalis epithelial endometrial regions and identifies putative stem cell regions of human endometrial glands. Analytical and Bioanalytical Chemistry, 410 (18). pp. 4541-4554. ISSN 1618-2642
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Official URL: https://doi.org/10.1007/s00216-018-1111-x
Abstract
The cyclical process of regeneration of the endometrium suggests that it may contain a cell population that can provide daughter cells with high proliferative potential. These cell lineages are clinically significant as they may represent clonogenic cells that may also be involved in tumourigenesis as well as endometriotic lesion development. To determine whether the putative stem cell location within human uterine tissue can be derived using vibrational spectroscopy techniques, normal endometrial tissue was interrogated by two spectroscopic techniques. Paraffin-embedded uterine tissues containing endometrial glands were sectioned to 10-μm-thick parallel tissue sections and were floated onto BaF2 slides for synchrotron radiation-based Fourier-transform infrared (SR-FTIR) microspectroscopy and globar focal plane array-based FTIR spectroscopy. Different spectral characteristics were identified depending on the location of the glands examined. The resulting infrared spectra were subjected to multivariate analysis to determine associated biophysical differences along the length of longitudinal and crosscut gland sections. Comparison of the epithelial cellular layer of transverse gland sections revealed alterations indicating the presence of putative transient-amplifying-like cells in the basalis and mitotic cells in the functionalis. SR-FTIR microspectroscopy of the base of the endometrial glands identified the location where putative stem cells may reside at the same time pointing towards νsPO2− in DNA and RNA, nucleic acids and amide I and II vibrations as major discriminating factors. This study supports the view that vibration spectroscopy technologies are a powerful adjunct to our understanding of the stem cell biology of endometrial tissue.
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