高空间分辨率无标记生物传感器测量的糖萼消化癌细胞的单细胞粘附分布

Q1 Medicine Matrix Biology Plus Pub Date : 2022-06-01 DOI:10.1016/j.mbplus.2022.100103
N. Kanyo , K.D. Kovács , S.V. Kovács , B. Béres , B. Peter , I. Székács , R. Horvath
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引用次数: 4

摘要

糖萼是大多数细胞类型的细胞表面糖层,它极大地影响细胞与环境的相互作用。它的成分是糖脂、糖蛋白和低聚糖。有趣的是,与健康细胞相比,癌细胞具有更厚的糖萼层,但迄今为止,关于细胞表面多糖及其衍生物在细胞粘附和信号传导中的确切作用,文献尚未达成共识。在我们之前的工作中,我们发现癌细胞的特定糖萼成分调节RGD(精氨酸-甘氨酸-天冬氨酸)肽包被表面的粘附动力学和强度[1]。通过监测数千个细胞的平均行为,可以观察到粘附的增强和减弱,这取决于所使用的酶浓度消化特定组分。采用软骨素酶ABC (ChrABC)消化癌细胞糖萼中的硫酸软骨素-4、硫酸软骨素-6和硫酸皮肤素。本研究采用高空间分辨率无标记光学生物传感器,在单细胞和群体水平上监测癌细胞的粘附性。将ChrABC添加到黏附细胞中,首先记录并分析单细胞黏附的群体水平分布。在相对较低和较高的ChrABC浓度下,鉴定出粘附性显著大和弱的亚群。分析了酶处理对黏附分布的影响,重点分析了受酶处理影响最大的亚群。本研究结果为糖萼相关细胞粘附的研究开辟了新的方向,并为开发更有意义的影响粘附的靶向肿瘤治疗方法提供了新的思路。
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Single-cell adhesivity distribution of glycocalyx digested cancer cells from high spatial resolution label-free biosensor measurements

The glycocalyx is a cell surface sugar layer of most cell types that greatly influences the interaction of cells with their environment. Its components are glycolipids, glycoproteins, and oligosaccharides. Interestingly, cancer cells have a thicker glycocalyx layer compared to healthy cells, but to date, there has been no consensus in the literature on the exact role of cell surface polysaccharides and their derivatives in cellular adhesion and signaling. In our previous work we discovered that specific glycocalyx components of cancer cells regulate the kinetics and strength of adhesion on RGD (arginine-glycine-aspartic acid) peptide-coated surfaces [1]. Depending on the employed enzyme concentration digesting specific components both adhesion strengthening and weakening could be observed by monitoring the averaged behavior of thousands of cells. The enzyme chondroitinase ABC (ChrABC) was used to digest the chondroitin-4-sulfate, chondroitin-6-sulfate, and dermatan sulfate components in the glycocalyx of cancer cells. In the present work, a high spatial resolution label-free optical biosensor was employed to monitor the adhesivity of cancer cells both at the single-cell and population level. Population-level distributions of single-cell adhesivity were first recorded and analyzed when ChrABC was added to the adhering cells. At relatively low and high ChrABC concentrations subpopulations with remarkably large and weak adhesivity were identified. The changes in the adhesivity distribution due to the enzyme treatment were analyzed and the subpopulations most affected by the enzyme treatment were highlighted. The presented results open up new directions in glycocalyx related cell adhesion research and in the development of more meaningful targeted cancer treatments affecting adhesion.

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来源期刊
Matrix Biology Plus
Matrix Biology Plus Medicine-Histology
CiteScore
9.00
自引率
0.00%
发文量
25
审稿时长
105 days
期刊最新文献
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