The impact of hyperglycemia on adhesion between endothelial and cancer cells revealed by single‐cell force spectroscopy

Malek-Zietek, Katarzyna E.; Targosz‐Korecka, Marta; Szymoński, Marek

doi:10.1002/jmr.2628

Cited by 21 publications

(17 citation statements)

References 51 publications

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“…To date, only a few cell mechanism studies have explored how HS, CS, HA, and SA regulate homing of cells, particularly white blood cells and cancer cells, from vessel circulation to the endothelium surface . Selected reports are summarized in Table , which shows that the majority of investigations have been performed in the context of white blood cells and inflammation, and more work is required in the cancer milieu to address metastasis . The white blood cell studies inform our understanding of GCX‐mediated EC adhesiveness to cancer cells, because cancer cells utilize inflammation mechanisms to metastasize and inflammatory agonists are known to cause endothelial GCX shedding that can expose endothelium to circulating cell adhesion.…”

Section: Introductionmentioning

confidence: 99%

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

et al. 2019

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While it is known that cancer cell interactions with vascular endothelial cells (ECs) drive metastatic cancer cell extravasation from blood vessels into secondary tumor sites, the mechanisms of action are still poorly understood. Here, we tested the hypothesis that neuraminidase‐induced degradation of EC surface glycocalyx (GCX), particularly the sialic acid (SA) residue components of the GCX, will substantially increase metastatic cancer cell attachment to ECs. To our knowledge, our study is the first to isolate the role of GCX SA residues in cancer cell attachment to the endothelium, which were found to be differentially affected by the presence of neuraminidase and to indeed regulate metastatic cancer cell homing to ECs. We hope that this work will eventually translate to identification of EC GCX‐based cancer markers that can be therapeutically targeted to hinder the progression of metastasis.

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Section: Introductionmentioning

confidence: 99%

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

et al. 2019

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“…The proposed approach uses adhesion forces that arise dynamically from CAM expression, instead from explicit cell types. Single-cell force spectroscopy can directly measure the adhesion forces between cells expressing different levels of CAMs (45), which can be used to experimentally set the parameters of the model. For simplicity, the model assume that the binding forces are proportional to the product of the relative concentration of CAMs; however, more complex formulations of adhesion ligands and receptors are also possible (46).…”

Section: )mentioning

confidence: 99%

Continuous dynamic modeling of regulated cell adhesion

Ko¹,

Lobo²

2019

Preprint

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Cell-cell adhesion is essential for tissue growth and multicellular pattern formation, and crucial for the cellular dynamics during embryogenesis and cancer progression. Understanding the dynamical gene regulation of cell adhesion molecules (CAMs) responsible for the emerging spatial tissue behaviors is a current challenge due to the complexity of these non-linear interactions and feedback loops at different levels of abstraction-from genetic regulation to whole-organism shape formation. Continuous mathematical models of cell adhesion are ideal for the modeling of the spatial dynamics of large cell populations, where different cell types define inherent adhesion strengths. However, biologically the adhesive properties of the cell arise dynamically from differential expression of CAMs, which are precisely regulated during development and cancer progression. To extend our understanding of cell and tissue behaviors due to the regulation of adhesion molecules, here we present a novel model for the spatial dynamics of cellular patterning, growth, and shape formation due to the differential expression of CAMs and their regulation.Capturing the dynamic interplay between genetic regulation, CAM expression, and differential cell adhesion, the proposed continuous model can recapitulate the complex and emergent spatial behaviors of cell populations that change their adhesion properties dynamically due to inter-and intracellular genetic regulation. This approach can demonstrate the mechanisms responsible for classical cell sorting behaviors, cell intercalation in proliferating populations, and the involution of germ layer cells induced by a diffusing morphogen during gastrulation. Integrating the emergent spatial tissue behaviors with the regulation of genes responsible for essential cellular properties such as adhesion will pave the way towards understanding the genetic regulation of large-scale complex patterns and shapes formation in developmental, regenerative, and cancer biology.

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“…A virtual issue appeared in the Journal of Molecular Recognition in 2017 . Nine research articles composed this special issue . At the end of the conference, it was announced that the next one will be organized in Kraków, in 2017.…”

Section: Afmbiomed Conferencesmentioning

confidence: 99%

“…[48][49][50][51][52][53][54][55][56][57] The last change that was made during the 75 Nine research articles composed this special issue. [76][77][78][79][80][81][82][83][84] At the end of the conference, it was announced that the next one will…”

Section: Afmbiomed Conferencesmentioning

confidence: 99%

Fifteen years of Servitude et Grandeur to the application of a biophysical technique in medicine: The tale of AFMBioMed

Pellequer

Parot²,

Navajas

et al. 2018

J of Molecular Recognition

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AFMBioMed is the founding name under which international conferences and summer schools are organized around the application of atomic force microscopy in life sciences and nanomedicine. From its inception at the Atomic Energy Commission in Marcoule near 2004 to its creation in 2007 and to its 10th anniversary conference in Krakow, a brief narrative history of its birth and rise will demonstrate how and what such an organization brings to laboratories and the AFM community. With the current planning of the next AFMBioMed conference in Münster in 2019, it will be 15 years of commitment to these events.

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The impact of hyperglycemia on adhesion between endothelial and cancer cells revealed by single‐cell force spectroscopy

Cited by 21 publications

References 51 publications

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

Continuous dynamic modeling of regulated cell adhesion

Fifteen years of Servitude et Grandeur to the application of a biophysical technique in medicine: The tale of AFMBioMed

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