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@article{1658656, author = {Patel, Megha and Feith, Marek and Janicke, Birgit and Alm, Kersti and ElandSchich, Zahra}, article_location = {ST ALBAN-ANLAGE}, article_number = {3}, doi = {http://dx.doi.org/10.3390/app10030750}, keywords = {breast cancer; digital holographic cytometry; molecularly imprinted polymers; motility; sialic acid; viability}, language = {eng}, issn = {2076-3417}, journal = {Applied Sciences}, title = {Evaluation of the Impact of Imprinted Polymer Particles on Morphology and Motility of Breast Cancer Cells by Using Digital Holographic Cytometry}, url = {https://www.mdpi.com/2076-3417/10/3/750}, volume = {10}, year = {2020} }
TY - JOUR ID - 1658656 AU - Patel, Megha - Feith, Marek - Janicke, Birgit - Alm, Kersti - El-Schich, Zahra PY - 2020 TI - Evaluation of the Impact of Imprinted Polymer Particles on Morphology and Motility of Breast Cancer Cells by Using Digital Holographic Cytometry JF - Applied Sciences VL - 10 IS - 3 SP - 1-10 EP - 1-10 PB - MDPI SN - 20763417 KW - breast cancer KW - digital holographic cytometry KW - molecularly imprinted polymers KW - motility KW - sialic acid KW - viability UR - https://www.mdpi.com/2076-3417/10/3/750 L2 - https://www.mdpi.com/2076-3417/10/3/750 N2 - Breast cancer is the second most common cancer type worldwide and breast cancer metastasis accounts for the majority of breast cancer-related deaths. Tumour cells produce increased levels of sialic acid (SA) that terminates the monosaccharide on glycan chains of the glycosylated proteins. SA can contribute to cellular recognition, cancer invasiveness and increase the metastatic potential of cancer cells. SA-templated molecularly imprinted polymers (MIPs) have been proposed as promising reporters for specific targeting of cancer cells when deployed in nanoparticle format. The sialic acid-molecularly imprinted polymers (SA-MIPs), which use SA for the generation of binding sites through which the nanoparticles can target and stain breast cancer cells, opens new strategies for efficient diagnostic tools. This study aims at monitoring the effects of SA-MIPs on morphology and motility of the epithelial type MCF-7 and the highly metastatic MDAMB231 breast cancer cell lines, using digital holographic cytometry (DHC). DHC is a label-free technique that is used in cell morphology studies of e.g., cell volume, area and thickness as well as in motility studies. Here, we show that MCF-7 cells move slower than MDAMB231 cells. We also show that SA-MIPs have an effect on cell morphology, motility and viability of both cell lines. In conclusion, by using DH microscopy, we could detect SA-MIPs impact on different breast cancer cells regarding morphology and motility. ER -
PATEL, Megha, Marek FEITH, Birgit JANICKE, Kersti ALM a Zahra EL-SCHICH. Evaluation of the Impact of Imprinted Polymer Particles on Morphology and Motility of Breast Cancer Cells by Using Digital Holographic Cytometry. \textit{Applied Sciences}. ST ALBAN-ANLAGE: MDPI, 2020, roč.~10, č.~3, s.~1-10. ISSN~2076-3417. Dostupné z: https://dx.doi.org/10.3390/app10030750.
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