与人类角膜干细胞相关的光谱生物标志物的显微光谱学

Microspectroscopy of spectral biomarkers associated with human corneal stem cells.

作者信息

Nakamura Takahiro, Kelly Jemma G, Trevisan Júlio, Cooper Leanne J, Bentley Adam J, Carmichael Paul L, Scott Andrew D, Cotte Marine, Susini Jean, Martin-Hirsch Pierre L, Kinoshita Shigeru, Fullwood Nigel J, Martin Francis L

机构信息

Department of Ophthalmology, Kyoto Perfectural University of Medicine, Kawaramachi Hirohoji, Kamigyo-ku, Kyoto 602-0841, Japan.

出版信息

Mol Vis. 2010 Mar 6;16:359-68.

PMID:20520745

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2879290/

Abstract

PURPOSE

Synchrotron-based radiation (SRS) Fourier-transform infrared (FTIR) microspectroscopy potentially provides novel biomarkers of the cell differentiation process. Because such imaging gives a "biochemical-cell fingerprint" through a cell-sized aperture, we set out to determine whether distinguishing chemical entities associated with putative stem cells (SCs), transit-amplifying (TA) cells, or terminally-differentiated (TD) cells could be identified in human corneal epithelium.

METHODS

Desiccated cryosections (10 microm thick) of cornea on barium fluoride infrared transparent windows were interrogated using SRS FTIR microspectroscopy. Infrared analysis was performed through the acquisition of point spectra or image maps.

RESULTS

Point spectra were subjected to principal component analysis (PCA) to identify distinguishing chemical entities. Spectral image maps to highlight SCs, TA cells, and TD cells of the cornea were then generated. Point spectrum analysis using PCA highlighted remarkable segregation between the three cell classes. Discriminating chemical entities were associated with several spectral differences over the DNA/RNA (1,425-900 cm(-1)) and protein/lipid (1,800-1480 cm(-1)) regions. Prominent biomarkers of SCs compared to TA cells and/or TD cells were 1,040 cm(-1), 1,080 cm(-1), 1,107 cm(-1), 1,225 cm(-1), 1,400 cm(-1), 1,525 cm(-1), 1,558 cm(-1), and 1,728 cm(-1). Chemical entities associated with DNA/RNA conformation (1,080 cm(-1) and 1,225 cm(-1)) were associated with SCs, whereas protein/lipid biochemicals (1,558 cm(-1) and 1,728 cm(-1)) most distinguished TA cells and TD cells.

CONCLUSIONS

SRS FTIR microspectroscopy can be employed to identify differential spectral biomarkers of SCs, TA cells, and/or TD cells in human cornea. This nondestructive imaging technology is a novel approach to characterizing SCs in situ.

摘要

目的

基于同步加速器的辐射（SRS）傅里叶变换红外（FTIR）显微光谱技术有可能提供细胞分化过程的新型生物标志物。由于这种成像通过细胞大小的孔径给出“生化细胞指纹”，我们着手确定在人角膜上皮中是否能识别出与假定的干细胞（SCs）、过渡扩增（TA）细胞或终末分化（TD）细胞相关的化学实体。

方法

使用SRS FTIR显微光谱技术对置于氟化钡红外透明窗上的角膜干燥冰冻切片（10微米厚）进行检测。通过采集点光谱或图像图谱进行红外分析。

结果

对采集的点光谱进行主成分分析（PCA）以识别具有区分性的化学实体。随后生成用于突出角膜SCs、TA细胞和TD细胞的光谱图像图谱。使用PCA进行的点光谱分析突出了这三类细胞之间的显著分离。有区分性的化学实体与DNA/RNA（1425 - 900厘米⁻¹）和蛋白质/脂质（1800 - 1480厘米⁻¹）区域的若干光谱差异相关。与TA细胞和/或TD细胞相比，SCs的显著生物标志物为1040厘米⁻¹、1080厘米⁻¹、1107厘米⁻¹、1225厘米⁻¹、1400厘米⁻¹、1525厘米⁻¹、1558厘米⁻¹和1728厘米⁻¹。与DNA/RNA构象相关的化学实体（1080厘米⁻¹和1225厘米⁻¹）与SCs相关，而蛋白质/脂质生化物质（1558厘米⁻¹和1728厘米⁻¹）最能区分TA细胞和TD细胞。

结论

SRS FTIR显微光谱技术可用于识别出人角膜中SCs、TA细胞和/或TD细胞的差异光谱生物标志物。这种无损成像技术是一种原位表征SCs的新方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f236/2879290/e040fc8c0a69/mv-v16-359-f1.jpg

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与人类角膜干细胞相关的光谱生物标志物的显微光谱学

Microspectroscopy of spectral biomarkers associated with human corneal stem cells.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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